Antibody data
- Antibody Data
- Antigen structure
- References [205]
- Comments [0]
- Validations
- Flow cytometry [1]
- Other assay [105]
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- Product number
- 13-0452-82 - Provider product page
- Provider
- Invitrogen Antibodies
- Product name
- CD45R (B220) Monoclonal Antibody (RA3-6B2), Biotin, eBioscience™
- Antibody type
- Monoclonal
- Antigen
- Other
- Description
- Description: The RA3-6B2 monoclonal antibody reacts with exon A-restricted isoform of mouse CD45, a 220 kDa surface molecule. CD45R/B220 epitope is mainly expressed by the B cell lineage from early Pro-B to mature B cells. However, some activated T cells, lymphokine activated killer cells (LAK), NK cell progenitors in the bone marrow, and T cells of the lpr/lpr mutant mouse also express this antigen. Applications Reported: This RA3-6B2 antibody has been reported for use in flow cytometric analysis, immunohistochemical staining of formalin-fixed paraffin embedded and frozen tissue sections. Applications Tested: The RA3-6B2 antibody has been tested by flow cytometric analysis of mouse splenocytes. This can be used at less than or equal to 0.125 µg per test. A test is defined as the amount (µg) of antibody that will stain a cell sample in a final volume of 100 µL. Cell number should be determined empirically but can range from 10^5 to 10^8 cells/test. It is recommended that the antibody be carefully titrated for optimal performance in the assay of interest. Filtration: 0.2 µm post-manufacturing filtered.
- Reactivity
- Human, Mouse
- Host
- Rat
- Conjugate
- Biotin
- Isotype
- IgG
- Antibody clone number
- RA3-6B2
- Vial size
- 100 µg
- Concentration
- 0.5 mg/mL
- Storage
- 4° C, store in dark, DO NOT FREEZE!
Submitted references Immunostimulatory effects of a subcritical water extract of Ganoderma.
Long-term culture-expanded alveolar macrophages restore their full epigenetic identity after transfer in vivo.
Sphk2 deletion is involved in structural abnormalities and Th17 response but does not aggravate colon inflammation induced by sub-chronic stress.
Tet-mediated DNA demethylation regulates specification of hematopoietic stem and progenitor cells during mammalian embryogenesis.
Lenvatinib for effectively treating antiangiogenic drug-resistant nasopharyngeal carcinoma.
Transient expansion and myofibroblast conversion of adipogenic lineage precursors mediate bone marrow repair after radiation.
A rapid CRISPR competitive assay for in vitro and in vivo discovery of potential drug targets affecting the hematopoietic system.
High-throughput analysis of lung immune cells in a combined murine model of agriculture dust-triggered airway inflammation with rheumatoid arthritis.
Role of CXCL5 in Regulating Chemotaxis of Innate and Adaptive Leukocytes in Infected Lungs Upon Pulmonary Influenza Infection.
Polyvinyl alcohol hydrolysis rate and molecular weight influence human and murine HSC activity ex vivo.
Type 2 diabetic mice enter a state of spontaneous hibernation-like suspended animation following accumulation of uric acid.
Metabolic preconditioning in CD4+ T cells restores inducible immune tolerance in lupus-prone mice.
Targeting Ovarian Carcinoma with TSP-1:CD47 Antagonist TAX2 Activates Anti-Tumor Immunity.
Mechanism of a COVID-19 nanoparticle vaccine candidate that elicits a broadly neutralizing antibody response to SARS-CoV-2 variants.
Impaired HA-specific T follicular helper cell and antibody responses to influenza vaccination are linked to inflammation in humans.
Hypoxia-induced miR-210 modulates the inflammatory response and fibrosis upon acute ischemia.
Monocyte-derived dendritic cells link localized secretory IgA deficiency to adaptive immune activation in COPD.
The folate cycle enzyme MTHFD2 induces cancer immune evasion through PD-L1 up-regulation.
Murine myeloid cell MCPIP1 suppresses autoimmunity by regulating B-cell expansion and differentiation.
Ibrutinib does not prevent kidney fibrosis following acute and chronic injury.
Aged hematopoietic stem cells are refractory to bloodborne systemic rejuvenation interventions.
TNF-α-induced alterations in stromal progenitors enhance leukemic stem cell growth via CXCR2 signaling.
Effects of signaling pathway inhibitors on hematopoietic stem cells.
Defining the Mechanistic Correlates of Protection Conferred by Whole-Cell Vaccination against Pseudomonas aeruginosa Acute Murine Pneumonia.
Bone marrow adipogenic lineage precursors promote osteoclastogenesis in bone remodeling and pathologic bone loss.
Proteostasis in dendritic cells is controlled by the PERK signaling axis independently of ATF4.
Histone deacetylase 3 represses cholesterol efflux during CD4(+) T-cell activation.
MDMX acts as a pervasive preleukemic-to-acute myeloid leukemia transition mechanism.
CD71(+) Erythroid Cells in Human Neonates Exhibit Immunosuppressive Properties and Compromise Immune Response Against Systemic Infection in Neonatal Mice.
Myeloid Cell CK2 Regulates Inflammation and Resistance to Bacterial Infection.
Shp1 Loss Enhances Macrophage Effector Function and Promotes Anti-Tumor Immunity.
Ischemia Reperfusion Injury Triggers CXCL13 Release and B-Cell Recruitment After Allogenic Kidney Transplantation.
Pituitary Adenylate Cyclase-Activating Polypeptide Alleviates Intestinal, Extra-Intestinal and Systemic Inflammatory Responses during Acute Campylobacter jejuni-induced Enterocolitis in Mice.
The Host-Specific Intestinal Microbiota Composition Impacts Campylobacter coli Infection in a Clinical Mouse Model of Campylobacteriosis.
The lysophospholipase D enzyme Gdpd3 is required to maintain chronic myelogenous leukaemia stem cells.
Aging-Affected MSC Functions and Severity of Periodontal Tissue Destruction in a Ligature-Induced Mouse Periodontitis Model.
Lysosomal Acid Lipase Is Required for Donor T Cells to Induce Graft-versus-Host Disease.
Cep55 overexpression promotes genomic instability and tumorigenesis in mice.
Critical role of WNK1 in MYC-dependent early mouse thymocyte development.
Single cell and tissue-transcriptomic analysis of murine bladders reveals age- and TNFα-dependent but microbiota-independent tertiary lymphoid tissue formation.
BCG vaccination-induced emergency granulopoiesis provides rapid protection from neonatal sepsis.
Methylation of a CGATA element inhibits binding and regulation by GATA-1.
Toll-Like Receptor-4 Dependent Intestinal and Systemic Sequelae Following Peroral Campylobacter coli Infection of IL10 Deficient Mice Harboring a Human Gut Microbiota.
Overcoming Immunological Challenges to Helper-Dependent Adenoviral Vector-Mediated Long-Term CFTR Expression in Mouse Airways.
Cathepsin S Regulates Antigen Processing and T Cell Activity in Non-Hodgkin Lymphoma.
Fucoxanthin Ameliorates Atopic Dermatitis Symptoms by Regulating Keratinocytes and Regulatory Innate Lymphoid Cells.
Deregulated Notch and Wnt signaling activates early-stage myeloid regeneration pathways in leukemia.
Synergistic factors control kinase-phosphatase organization in B-cells engaged with supported bilayers.
Analysis of Myeloid Cells in Mouse Tissues with Flow Cytometry.
Th2 cells promote eosinophil-independent pathology in a murine model of allergic bronchopulmonary aspergillosis.
Requirements for the differentiation of innate T-bet(high) memory-phenotype CD4(+) T lymphocytes under steady state.
RNA Demethylase ALKBH5 Selectively Promotes Tumorigenesis and Cancer Stem Cell Self-Renewal in Acute Myeloid Leukemia.
Long-term ex vivo expansion of mouse hematopoietic stem cells.
SARS-CoV-2 mRNA Vaccines Foster Potent Antigen-Specific Germinal Center Responses Associated with Neutralizing Antibody Generation.
Osterix-Cre marks distinct subsets of CD45- and CD45+ stromal populations in extra-skeletal tumors with pro-tumorigenic characteristics.
Micro-environmental sensing by bone marrow stroma identifies IL-6 and TGFβ1 as regulators of hematopoietic ageing.
Single cell transcriptomics identifies a unique adipose lineage cell population that regulates bone marrow environment.
Tpl2 Protects Against Fulminant Hepatitis Through Mobilization of Myeloid-Derived Suppressor Cells.
Mesenchymal Niche-Specific Expression of Cxcl12 Controls Quiescence of Treatment-Resistant Leukemia Stem Cells.
Bacteroides fragilis polysaccharide A induces IL-10 secreting B and T cells that prevent viral encephalitis.
SIRT1 regulates metabolism and leukemogenic potential in CML stem cells.
N-Cadherin-Expressing Bone and Marrow Stromal Progenitor Cells Maintain Reserve Hematopoietic Stem Cells.
In Situ Modification of Tissue Stem and Progenitor Cell Genomes.
Metabolic Imaging Reveals a Unique Preference of Symmetric Cell Division and Homing of Leukemia-Initiating Cells in an Endosteal Niche.
The Hematopoietic Oxidase NOX2 Regulates Self-Renewal of Leukemic Stem Cells.
Anti-commensal IgG Drives Intestinal Inflammation and Type 17 Immunity in Ulcerative Colitis.
Proapoptotic BIM Impacts B Lymphoid Homeostasis by Limiting the Survival of Mature B Cells in a Cell-Autonomous Manner.
Dysregulated TRAF3 and BCL2 Expression Promotes Multiple Classes of Mature Non-hodgkin B Cell Lymphoma in Mice.
ATF3 Sustains IL-22-Induced STAT3 Phosphorylation to Maintain Mucosal Immunity Through Inhibiting Phosphatases.
The orphan nuclear receptor EAR-2 (NR2F6) inhibits hematopoietic cell differentiation and induces myeloid dysplasia in vivo.
LaminA/C regulates epigenetic and chromatin architecture changes upon aging of hematopoietic stem cells.
A stochastic epigenetic switch controls the dynamics of T-cell lineage commitment.
Bone marrow niche trafficking of miR-126 controls the self-renewal of leukemia stem cells in chronic myelogenous leukemia.
Microbial symbionts regulate the primary Ig repertoire.
Spred1 Safeguards Hematopoietic Homeostasis against Diet-Induced Systemic Stress.
Hematopoietic stem cells can differentiate into restricted myeloid progenitors before cell division in mice.
Loss of DEK induces radioresistance of murine restricted hematopoietic progenitors.
Host Tumor Suppressor p18(INK4c) Functions as a Potent Cell-Intrinsic Inhibitor of Murine Gammaherpesvirus 68 Reactivation and Pathogenesis.
Adrenergic nerve degeneration in bone marrow drives aging of the hematopoietic stem cell niche.
IL1RAP potentiates multiple oncogenic signaling pathways in AML.
Mitophagy in Intestinal Epithelial Cells Triggers Adaptive Immunity during Tumorigenesis.
Anti-inflammatory Effects of the Octapeptide NAP in Human Microbiota-Associated Mice Suffering from Subacute Ileitis.
miR-143/145 differentially regulate hematopoietic stem and progenitor activity through suppression of canonical TGFβ signaling.
TGF-β1 Negatively Regulates the Number and Function of Hematopoietic Stem Cells.
Oxysterol Sensing through the Receptor GPR183 Promotes the Lymphoid-Tissue-Inducing Function of Innate Lymphoid Cells and Colonic Inflammation.
Tanshinone IIA and Astragaloside IV promote the angiogenesis of mesenchymal stem cell-derived endothelial cell-like cells via upregulation of Cx37, Cx40 and Cx43.
Age-specific biological and molecular profiling distinguishes paediatric from adult acute myeloid leukaemias.
Inactivation of mTORC1 Signaling in Osterix-Expressing Cells Impairs B-cell Differentiation.
Protection by and maintenance of CD4 effector memory and effector T cell subsets in persistent malaria infection.
Bruton's Tyrosine Kinase Is Not Essential for B Cell Survival beyond Early Developmental Stages.
The Interleukin (IL)-1R1 pathway is a critical negative regulator of PyMT-mediated mammary tumorigenesis and pulmonary metastasis.
Multiple functional therapeutic effects of TnP: A small stable synthetic peptide derived from fish venom in a mouse model of multiple sclerosis.
Non-coding Transcription Instructs Chromatin Folding and Compartmentalization to Dictate Enhancer-Promoter Communication and T Cell Fate.
DNA-binding of the Tet-transactivator curtails antigen-induced lymphocyte activation in mice.
EZH2 enables germinal centre formation through epigenetic silencing of CDKN1A and an Rb-E2F1 feedback loop.
Vitamin A-Retinoic Acid Signaling Regulates Hematopoietic Stem Cell Dormancy.
Pre/pro-B cells generate macrophage populations during homeostasis and inflammation.
Chronic Plasmodium chabaudi Infection Generates CD4 Memory T Cells with Increased T Cell Receptor Sensitivity but Poor Secondary Expansion and Increased Apoptosis.
Differential cytokine contributions of perivascular haematopoietic stem cell niches.
Understanding Hematopoietic Stem Cell Development through Functional Correlation of Their Proliferative Status with the Intra-aortic Cluster Architecture.
Mutant U2AF1-expressing cells are sensitive to pharmacological modulation of the spliceosome.
AMP-Activated Protein Kinase α2 in Neutrophils Regulates Vascular Repair via Hypoxia-Inducible Factor-1α and a Network of Proteins Affecting Metabolism and Apoptosis.
Irgm1 coordinately regulates autoimmunity and host defense at select mucosal surfaces.
Epithelial Fli1 deficiency drives systemic autoimmunity and fibrosis: Possible roles in scleroderma.
Combined antiangiogenic and anti-PD-L1 therapy stimulates tumor immunity through HEV formation.
Induction of Suppressor Cells and Increased Tumor Growth following Chronic Psychosocial Stress in Male Mice.
IL-23 induced in keratinocytes by endogenous TLR4 ligands polarizes dendritic cells to drive IL-22 responses to skin immunization.
p38 MAPK Inhibitor Insufficiently Attenuates HSC Senescence Administered Long-Term after 6 Gy Total Body Irradiation in Mice.
Bmp signaling in colonic mesenchyme regulates stromal microenvironment and protects from polyposis initiation.
Affinity and dose of TCR engagement yield proportional enhancer and gene activity in CD4+ T cells.
Postnatal lethality and abnormal development of foregut and spleen in Ndrg4 mutant mice.
CD8(+) T cells drive autoimmune hematopoietic stem cell dysfunction and bone marrow failure.
Murine iPSC-Derived Macrophages as a Tool for Disease Modeling of Hereditary Pulmonary Alveolar Proteinosis due to Csf2rb Deficiency.
Resident T Cells Are Unable To Control Herpes Simplex Virus-1 Activity in the Brain Ependymal Region during Latency.
The immunosenescence-related gene Zizimin2 is associated with early bone marrow B cell development and marginal zone B cell formation.
Disease severity and mortality can be independently regulated in a mouse model of experimental graft versus host disease.
IFN-γ and IL-21 Double Producing T Cells Are Bcl6-Independent and Survive into the Memory Phase in Plasmodium chabaudi Infection.
Mitochondrial ATP transporter Ant2 depletion impairs erythropoiesis and B lymphopoiesis.
Distinct germinal center selection at local sites shapes memory B cell response to viral escape.
Frizzled-6 Regulates Hematopoietic Stem/Progenitor Cell Survival and Self-Renewal.
Imaging Macrophage and Hematopoietic Progenitor Proliferation in Atherosclerosis.
Endothelial Gata5 transcription factor regulates blood pressure.
Limited miR-17-92 overexpression drives hematologic malignancies.
Disruption of p21-activated kinase 1 gene diminishes atherosclerosis in apolipoprotein E-deficient mice.
Inhibition of the CXCL12/CXCR4 chemokine axis with AMD3100, a CXCR4 small molecule inhibitor, worsens murine hepatic injury.
Comparison of tamoxifen and letrozole response in mammary preneoplasia of ER and aromatase overexpressing mice defines an immune-associated gene signature linked to tamoxifen resistance.
DGCR14 induces Il17a gene expression through the RORγ/BAZ1B/RSKS2 complex.
CCR6-dependent positioning of memory B cells is essential for their ability to mount a recall response to antigen.
Aging-associated inflammation promotes selection for adaptive oncogenic events in B cell progenitors.
MHC-mismatched mixed chimerism augments thymic regulatory T-cell production and prevents relapse of EAE in mice.
B-cell-intrinsic hepatitis C virus expression leads to B-cell-lymphomagenesis and induction of NF-κB signalling.
Gene targeting study reveals unexpected expression of brain-expressed X-linked 2 in endocrine and tissue stem/progenitor cells in mice.
Quantitative assessment of the robustness of next-generation sequencing of antibody variable gene repertoires from immunized mice.
Transcription elongation factor ELL2 drives Ig secretory-specific mRNA production and the unfolded protein response.
Combined MEK and JAK inhibition abrogates murine myeloproliferative neoplasm.
Infection mobilizes hematopoietic stem cells through cooperative NOD-like receptor and Toll-like receptor signaling.
Bronchial epithelial injury in the context of alloimmunity promotes lymphocytic bronchiolitis through hyaluronan expression.
Surface plasmon resonance measurements of plasma antibody avidity during primary and secondary responses to anthrax protective antigen.
Rhof promotes murine marginal zone B cell development.
IκBε is a key regulator of B cell expansion by providing negative feedback on cRel and RelA in a stimulus-specific manner.
TDP2-dependent non-homologous end-joining protects against topoisomerase II-induced DNA breaks and genome instability in cells and in vivo.
Properties of immature myeloid progenitors with nitric-oxide-dependent immunosuppressive activity isolated from bone marrow of tumor-free mice.
MiR-210 is induced by Oct-2, regulates B cells, and inhibits autoantibody production.
Arteriolar niches maintain haematopoietic stem cell quiescence.
A component of the mir-17-92 polycistronic oncomir promotes oncogene-dependent apoptosis.
Neuronal and nonneuronal cholinergic structures in the mouse gastrointestinal tract and spleen.
Natural IgG antibodies provide innate protection against ficolin-opsonized bacteria.
Sialyltransferase ST3Gal-III regulates Siglec-F ligand formation and eosinophilic lung inflammation in mice.
Reciprocal effects of rab7 deletion in activated and neglected T cells.
Inhibiting TGFβ1 has a protective effect on mouse bone marrow suppression following ionizing radiation exposure in vitro.
Flow cytometry analysis of murine hematopoietic stem cells.
Antigen-loaded pH-sensitive hydrogel microparticles are taken up by dendritic cells with no requirement for targeting antibodies.
Scmh1 has E3 ubiquitin ligase activity for geminin and histone H2A and regulates geminin stability directly or indirectly via transcriptional repression of Hoxa9 and Hoxb4.
Cbx4 regulates the proliferation of thymic epithelial cells and thymus function.
Focal adhesion kinase regulates the localization and retention of pro-B cells in bone marrow microenvironments.
Enhancing T lineage production in aged mice: a novel function of Foxn1 in the bone marrow niche.
Activation-induced cytidine deaminase-initiated off-target DNA breaks are detected and resolved during S phase.
T-cell trafficking facilitated by high endothelial venules is required for tumor control after regulatory T-cell depletion.
Biphenotypic B-lymphoid/myeloid cells expressing low levels of Pax5: potential targets of BAL development.
Molecular imaging of very late antigen-4 (α4β1 integrin) in the premetastatic niche.
Differential requirements for IRF-2 in generation of CD1d-independent T cells bearing NK cell receptors.
Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages.
Critical role of B cell lymphoma 10 in BAFF-regulated NF-κB activation and survival of anergic B cells.
Notch, Id2, and RORγt sequentially orchestrate the fetal development of lymphoid tissue inducer cells.
PAD4-mediated neutrophil extracellular trap formation is not required for immunity against influenza infection.
Chronic IFN-γ production in mice induces anemia by reducing erythrocyte life span and inhibiting erythropoiesis through an IRF-1/PU.1 axis.
The central role of CD30L/CD30 interactions in allergic rhinitis pathogenesis in mice.
Defective hematopoietic stem cell and lymphoid progenitor development in the Ts65Dn mouse model of Down syndrome: potential role of oxidative stress.
IL-1β and TNFα-initiated IL-6-STAT3 pathway is critical in mediating inflammatory cytokines and RANKL expression in inflammatory arthritis.
Online nanoflow multidimensional fractionation for high efficiency phosphopeptide analysis.
Transcription factor Smad-independent T helper 17 cell induction by transforming-growth factor-β is mediated by suppression of eomesodermin.
Hepatic stellate cells function as regulatory bystanders.
Activation of the aryl hydrocarbon receptor during pregnancy in the mouse alters mammary development through direct effects on stromal and epithelial tissues.
Involvement of twisted gastrulation in T cell-independent plasma cell production.
Cellular competition independent of BAFF/B lymphocyte stimulator results in low frequency of an autoreactive clonotype in mature polyclonal B cell compartments.
Nuclear export of the NF-κB inhibitor IκBα is required for proper B cell and secondary lymphoid tissue formation.
Emergency granulopoiesis promotes neutrophil-dendritic cell encounters that prevent mouse lung allograft acceptance.
Abrogation of CD30 and OX40 signals prevents autoimmune disease in FoxP3-deficient mice.
Impaired apoptotic cell clearance in the germinal center by Mer-deficient tingible body macrophages leads to enhanced antibody-forming cell and germinal center responses.
Dendritic cell (DC)-specific targeting reveals Stat3 as a negative regulator of DC function.
The sensing of environmental stimuli by follicular dendritic cells promotes immunoglobulin A generation in the gut.
Deletion of the RNA-binding proteins ZFP36L1 and ZFP36L2 leads to perturbed thymic development and T lymphoblastic leukemia.
Peripheral CD103+ dendritic cells form a unified subset developmentally related to CD8alpha+ conventional dendritic cells.
Mucosal addressin cell-adhesion molecule-1 controls plasma-cell migration and function in the small intestine of mice.
The transcription factors STAT5A/B regulate GM-CSF-mediated granulopoiesis.
A critical role of TAK1 in B-cell receptor-mediated nuclear factor kappaB activation.
Inflammation recapitulates the ontogeny of lymphoid stromal cells.
Lymphoid-tissue-specific homing of bone-marrow-derived dendritic cells.
Enhanced development of CD4+ gammadelta T cells in the absence of Itk results in elevated IgE production.
Oncogenic Kras-induced leukemogeneis: hematopoietic stem cells as the initial target and lineage-specific progenitors as the potential targets for final leukemic transformation.
E47 controls the developmental integrity and cell cycle quiescence of multipotential hematopoietic progenitors.
E47 controls the developmental integrity and cell cycle quiescence of multipotential hematopoietic progenitors.
Evidence that CD8+ dendritic cells enable the development of gammadelta T cells that modulate airway hyperresponsiveness.
Evidence that CD8+ dendritic cells enable the development of gammadelta T cells that modulate airway hyperresponsiveness.
Requirement for lymphoid tissue-inducer cells in isolated follicle formation and T cell-independent immunoglobulin A generation in the gut.
Vaccinia virus infection modulates the hematopoietic cell compartments in the bone marrow.
p27 deficiency cooperates with Bcl-2 but not Bax to promote T-cell lymphoma.
Phospholipase Cgamma2 contributes to light-chain gene activation and receptor editing.
Immature hematopoietic cells display selective requirements for adhesion- and degranulation-promoting adaptor protein in development and homeostatsis.
Msx2-interacting nuclear target protein (Mint) deficiency reveals negative regulation of early thymocyte differentiation by Notch/RBP-J signaling.
Essential role of phospholipase C gamma 2 in early B-cell development and Myc-mediated lymphomagenesis.
A role for brain-derived neurotrophic factor in B cell development.
Basophils play a critical role in the development of IgE-mediated chronic allergic inflammation independently of T cells and mast cells.
Impaired immune responses and B-cell proliferation in mice lacking the Id3 gene.
Identification of monoclonal antibodies for immunohistochemical staining of feline B lymphocytes in frozen and formalin-fixed paraffin-embedded tissues.
Hattori K, Takagi H, Ogata Y, Yamada T, Horiba H, Fukata K, Sakaida T, Yashiro Y, Hasegawa S, Tanaka H
Biomedical reports 2023 Jan;18(1):1
Biomedical reports 2023 Jan;18(1):1
Long-term culture-expanded alveolar macrophages restore their full epigenetic identity after transfer in vivo.
Subramanian S, Busch CJ, Molawi K, Geirsdottir L, Maurizio J, Vargas Aguilar S, Belahbib H, Gimenez G, Yuda RAA, Burkon M, Favret J, Gholamhosseinian Najjar S, de Laval B, Kandalla PK, Sarrazin S, Alexopoulou L, Sieweke MH
Nature immunology 2022 Mar;23(3):458-468
Nature immunology 2022 Mar;23(3):458-468
Sphk2 deletion is involved in structural abnormalities and Th17 response but does not aggravate colon inflammation induced by sub-chronic stress.
Martín-Hernández D, Gutiérrez IL, González-Prieto M, MacDowell KS, Robledo-Montaña J, Tendilla-Beltrán H, Calleja-Rodríguez N, Bris ÁG, Ulecia-Morón C, Moreno B, Caso JR, García-Bueno B, Rodrigues-Mascarenhas S, Marín-Jiménez I, Leza JC, Menchén L
Scientific reports 2022 Mar 8;12(1):4073
Scientific reports 2022 Mar 8;12(1):4073
Tet-mediated DNA demethylation regulates specification of hematopoietic stem and progenitor cells during mammalian embryogenesis.
Ma L, Tang Q, Gao X, Lee J, Lei R, Suzuki M, Zheng D, Ito K, Frenette PS, Dawlaty MM
Science advances 2022 Mar 4;8(9):eabm3470
Science advances 2022 Mar 4;8(9):eabm3470
Lenvatinib for effectively treating antiangiogenic drug-resistant nasopharyngeal carcinoma.
Sun Q, Wang Y, Ji H, Sun X, Xie S, Chen L, Li S, Zeng W, Chen R, Tang Q, Zuo J, Hou L, Hosaka K, Lu Y, Liu Y, Ye Y, Yang Y
Cell death & disease 2022 Aug 19;13(8):724
Cell death & disease 2022 Aug 19;13(8):724
Transient expansion and myofibroblast conversion of adipogenic lineage precursors mediate bone marrow repair after radiation.
Zhong L, Yao L, Holdreith N, Yu W, Gui T, Miao Z, Elkaim Y, Li M, Gong Y, Pacifici M, Maity A, Busch TM, Joeng KS, Cengel K, Seale P, Tong W, Qin L
JCI insight 2022 Apr 8;7(7)
JCI insight 2022 Apr 8;7(7)
A rapid CRISPR competitive assay for in vitro and in vivo discovery of potential drug targets affecting the hematopoietic system.
Shen Y, Jiang L, Iyer VS, Raposo B, Dubnovitsky A, Boddul SV, Kasza Z, Wermeling F
Computational and structural biotechnology journal 2021;19:5360-5370
Computational and structural biotechnology journal 2021;19:5360-5370
High-throughput analysis of lung immune cells in a combined murine model of agriculture dust-triggered airway inflammation with rheumatoid arthritis.
Gaurav R, Mikuls TR, Thiele GM, Nelson AJ, Niu M, Guda C, Eudy JD, Barry AE, Wyatt TA, Romberger DJ, Duryee MJ, England BR, Poole JA
PloS one 2021;16(2):e0240707
PloS one 2021;16(2):e0240707
Role of CXCL5 in Regulating Chemotaxis of Innate and Adaptive Leukocytes in Infected Lungs Upon Pulmonary Influenza Infection.
Guo L, Li N, Yang Z, Li H, Zheng H, Yang J, Chen Y, Zhao X, Mei J, Shi H, Worthen GS, Liu L
Frontiers in immunology 2021;12:785457
Frontiers in immunology 2021;12:785457
Polyvinyl alcohol hydrolysis rate and molecular weight influence human and murine HSC activity ex vivo.
Sudo K, Yamazaki S, Wilkinson AC, Nakauchi H, Nakamura Y
Stem cell research 2021 Oct;56:102531
Stem cell research 2021 Oct;56:102531
Type 2 diabetic mice enter a state of spontaneous hibernation-like suspended animation following accumulation of uric acid.
Zhao Y, Cheng R, Zhao Y, Ge W, Yang Y, Ding Z, Xu X, Wang Z, Wu Z, Zhang J
The Journal of biological chemistry 2021 Oct;297(4):101166
The Journal of biological chemistry 2021 Oct;297(4):101166
Metabolic preconditioning in CD4+ T cells restores inducible immune tolerance in lupus-prone mice.
Wilson CS, Stocks BT, Hoopes EM, Rhoads JP, McNew KL, Major AS, Moore DJ
JCI insight 2021 Oct 8;6(19)
JCI insight 2021 Oct 8;6(19)
Targeting Ovarian Carcinoma with TSP-1:CD47 Antagonist TAX2 Activates Anti-Tumor Immunity.
Jeanne A, Sarazin T, Charlé M, Moali C, Fichel C, Boulagnon-Rombi C, Callewaert M, Andry MC, Diesis E, Delolme F, Rioult D, Dedieu S
Cancers 2021 Oct 7;13(19)
Cancers 2021 Oct 7;13(19)
Mechanism of a COVID-19 nanoparticle vaccine candidate that elicits a broadly neutralizing antibody response to SARS-CoV-2 variants.
Zhang YN, Paynter J, Sou C, Fourfouris T, Wang Y, Abraham C, Ngo T, Zhang Y, He L, Zhu J
Science advances 2021 Oct 22;7(43):eabj3107
Science advances 2021 Oct 22;7(43):eabj3107
Impaired HA-specific T follicular helper cell and antibody responses to influenza vaccination are linked to inflammation in humans.
Hill DL, Whyte CE, Innocentin S, Lee JL, Dooley J, Wang J, James EA, Lee JC, Kwok WW, Zand MS, Liston A, Carr EJ, Linterman MA
eLife 2021 Nov 2;10
eLife 2021 Nov 2;10
Hypoxia-induced miR-210 modulates the inflammatory response and fibrosis upon acute ischemia.
Zaccagnini G, Greco S, Longo M, Maimone B, Voellenkle C, Fuschi P, Carrara M, Creo P, Maselli D, Tirone M, Mazzone M, Gaetano C, Spinetti G, Martelli F
Cell death & disease 2021 May 1;12(5):435
Cell death & disease 2021 May 1;12(5):435
Monocyte-derived dendritic cells link localized secretory IgA deficiency to adaptive immune activation in COPD.
Richmond BW, Mansouri S, Serezani A, Novitskiy S, Blackburn JB, Du RH, Fuseini H, Gutor S, Han W, Schaff J, Vasiukov G, Xin MK, Newcomb DC, Jin L, Blackwell TS, Polosukhin VV
Mucosal immunology 2021 Mar;14(2):431-442
Mucosal immunology 2021 Mar;14(2):431-442
The folate cycle enzyme MTHFD2 induces cancer immune evasion through PD-L1 up-regulation.
Shang M, Yang H, Yang R, Chen T, Fu Y, Li Y, Fang X, Zhang K, Zhang J, Li H, Cao X, Gu J, Xiao J, Zhang Q, Liu X, Yu Q, Wang T
Nature communications 2021 Mar 29;12(1):1940
Nature communications 2021 Mar 29;12(1):1940
Murine myeloid cell MCPIP1 suppresses autoimmunity by regulating B-cell expansion and differentiation.
Dobosz E, Lorenz G, Ribeiro A, Würf V, Wadowska M, Kotlinowski J, Schmaderer C, Potempa J, Fu M, Koziel J, Lech M
Disease models & mechanisms 2021 Mar 18;14(3)
Disease models & mechanisms 2021 Mar 18;14(3)
Ibrutinib does not prevent kidney fibrosis following acute and chronic injury.
Belliere J, Casemayou A, Colliou E, El Hachem H, Kounde C, Piedrafita A, Feuillet G, Schanstra JP, Faguer S
Scientific reports 2021 Jun 7;11(1):11985
Scientific reports 2021 Jun 7;11(1):11985
Aged hematopoietic stem cells are refractory to bloodborne systemic rejuvenation interventions.
Ho TT, Dellorusso PV, Verovskaya EV, Bakker ST, Flach J, Smith LK, Ventura PB, Lansinger OM, Hérault A, Zhang SY, Kang YA, Mitchell CA, Villeda SA, Passegué E
The Journal of experimental medicine 2021 Jul 5;218(7)
The Journal of experimental medicine 2021 Jul 5;218(7)
TNF-α-induced alterations in stromal progenitors enhance leukemic stem cell growth via CXCR2 signaling.
Agarwal P, Li H, Choi K, Hueneman K, He J, Welner RS, Starczynowski DT, Bhatia R
Cell reports 2021 Jul 13;36(2):109386
Cell reports 2021 Jul 13;36(2):109386
Effects of signaling pathway inhibitors on hematopoietic stem cells.
Jiang Y, Xu Z, Ma N, Yin L, Hao C, Li J
Molecular medicine reports 2021 Jan;23(1)
Molecular medicine reports 2021 Jan;23(1)
Defining the Mechanistic Correlates of Protection Conferred by Whole-Cell Vaccination against Pseudomonas aeruginosa Acute Murine Pneumonia.
Sen-Kilic E, Blackwood CB, Huckaby AB, Horspool AM, Weaver KL, Malkowski AC, Witt WT, Bevere JR, Damron FH, Barbier M
Infection and immunity 2021 Jan 19;89(2)
Infection and immunity 2021 Jan 19;89(2)
Bone marrow adipogenic lineage precursors promote osteoclastogenesis in bone remodeling and pathologic bone loss.
Yu W, Zhong L, Yao L, Wei Y, Gui T, Li Z, Kim H, Holdreith N, Jiang X, Tong W, Dyment N, Liu XS, Yang S, Choi Y, Ahn J, Qin L
The Journal of clinical investigation 2021 Jan 19;131(2)
The Journal of clinical investigation 2021 Jan 19;131(2)
Proteostasis in dendritic cells is controlled by the PERK signaling axis independently of ATF4.
Mendes A, Gigan JP, Rodriguez Rodrigues C, Choteau SA, Sanseau D, Barros D, Almeida C, Camosseto V, Chasson L, Paton AW, Paton JC, Argüello RJ, Lennon-Duménil AM, Gatti E, Pierre P
Life science alliance 2021 Feb;4(2)
Life science alliance 2021 Feb;4(2)
Histone deacetylase 3 represses cholesterol efflux during CD4(+) T-cell activation.
Wilfahrt D, Philips RL, Lama J, Kizerwetter M, Shapiro MJ, McCue SA, Kennedy MM, Rajcula MJ, Zeng H, Shapiro VS
eLife 2021 Dec 2;10
eLife 2021 Dec 2;10
MDMX acts as a pervasive preleukemic-to-acute myeloid leukemia transition mechanism.
Ueda K, Kumari R, Schwenger E, Wheat JC, Bohorquez O, Narayanagari SR, Taylor SJ, Carvajal LA, Pradhan K, Bartholdy B, Todorova TI, Goto H, Sun D, Chen J, Shan J, Song Y, Montagna C, Xiong S, Lozano G, Pellagatti A, Boultwood J, Verma A, Steidl U
Cancer cell 2021 Apr 12;39(4):529-547.e7
Cancer cell 2021 Apr 12;39(4):529-547.e7
CD71(+) Erythroid Cells in Human Neonates Exhibit Immunosuppressive Properties and Compromise Immune Response Against Systemic Infection in Neonatal Mice.
Elahi S, Vega-López MA, Herman-Miguel V, Ramírez-Estudillo C, Mancilla-Ramírez J, Motyka B, West L, Oyegbami O
Frontiers in immunology 2020;11:597433
Frontiers in immunology 2020;11:597433
Myeloid Cell CK2 Regulates Inflammation and Resistance to Bacterial Infection.
Larson SR, Bortell N, Illies A, Crisler WJ, Matsuda JL, Lenz LL
Frontiers in immunology 2020;11:590266
Frontiers in immunology 2020;11:590266
Shp1 Loss Enhances Macrophage Effector Function and Promotes Anti-Tumor Immunity.
Myers DR, Abram CL, Wildes D, Belwafa A, Welsh AMN, Schulze CJ, Choy TJ, Nguyen T, Omaque N, Hu Y, Singh M, Hansen R, Goldsmith MA, Quintana E, Smith JAM, Lowell CA
Frontiers in immunology 2020;11:576310
Frontiers in immunology 2020;11:576310
Ischemia Reperfusion Injury Triggers CXCL13 Release and B-Cell Recruitment After Allogenic Kidney Transplantation.
Kreimann K, Jang MS, Rong S, Greite R, von Vietinghoff S, Schmitt R, Bräsen JH, Schiffer L, Gerstenberg J, Vijayan V, Dittrich-Breiholz O, Wang L, Karsten CM, Gwinner W, Haller H, Immenschuh S, Gueler F
Frontiers in immunology 2020;11:1204
Frontiers in immunology 2020;11:1204
Pituitary Adenylate Cyclase-Activating Polypeptide Alleviates Intestinal, Extra-Intestinal and Systemic Inflammatory Responses during Acute Campylobacter jejuni-induced Enterocolitis in Mice.
Heimesaat MM, Mousavi S, Kløve S, Genger C, Weschka D, Tamas A, Reglodi D, Bereswill S
Pathogens (Basel, Switzerland) 2020 Sep 30;9(10)
Pathogens (Basel, Switzerland) 2020 Sep 30;9(10)
The Host-Specific Intestinal Microbiota Composition Impacts Campylobacter coli Infection in a Clinical Mouse Model of Campylobacteriosis.
Heimesaat MM, Genger C, Klove S, Weschka D, Mousavi S, Bereswill S
Pathogens (Basel, Switzerland) 2020 Sep 29;9(10)
Pathogens (Basel, Switzerland) 2020 Sep 29;9(10)
The lysophospholipase D enzyme Gdpd3 is required to maintain chronic myelogenous leukaemia stem cells.
Naka K, Ochiai R, Matsubara E, Kondo C, Yang KM, Hoshii T, Araki M, Araki K, Sotomaru Y, Sasaki K, Mitani K, Kim DW, Ooshima A, Kim SJ
Nature communications 2020 Sep 17;11(1):4681
Nature communications 2020 Sep 17;11(1):4681
Aging-Affected MSC Functions and Severity of Periodontal Tissue Destruction in a Ligature-Induced Mouse Periodontitis Model.
Aung KT, Akiyama K, Kunitomo M, Mun AY, Tosa I, Nguyen HTT, Zhang J, Kohno T, Ono M, Hara ES, Kuboki T
International journal of molecular sciences 2020 Oct 30;21(21)
International journal of molecular sciences 2020 Oct 30;21(21)
Lysosomal Acid Lipase Is Required for Donor T Cells to Induce Graft-versus-Host Disease.
Nguyen HD, Ticer T, Bastian D, Kuril S, Li H, Du H, Yan C, Yu XZ
Cell reports 2020 Oct 27;33(4):108316
Cell reports 2020 Oct 27;33(4):108316
Cep55 overexpression promotes genomic instability and tumorigenesis in mice.
Sinha D, Nag P, Nanayakkara D, Duijf PHG, Burgess A, Raninga P, Smits VAJ, Bain AL, Subramanian G, Wall M, Finnie JW, Kalimutho M, Khanna KK
Communications biology 2020 Oct 21;3(1):593
Communications biology 2020 Oct 21;3(1):593
Critical role of WNK1 in MYC-dependent early mouse thymocyte development.
Köchl R, Vanes L, Llorian Sopena M, Chakravarty P, Hartweger H, Fountain K, White A, Cowan J, Anderson G, Tybulewicz VL
eLife 2020 Oct 14;9
eLife 2020 Oct 14;9
Single cell and tissue-transcriptomic analysis of murine bladders reveals age- and TNFα-dependent but microbiota-independent tertiary lymphoid tissue formation.
Ligon MM, Wang C, DeJong EN, Schulz C, Bowdish DME, Mysorekar IU
Mucosal immunology 2020 Nov;13(6):908-918
Mucosal immunology 2020 Nov;13(6):908-918
BCG vaccination-induced emergency granulopoiesis provides rapid protection from neonatal sepsis.
Brook B, Harbeson DJ, Shannon CP, Cai B, He D, Ben-Othman R, Francis F, Huang J, Varankovich N, Liu A, Bao W, Bjerregaard-Andersen M, Schaltz-Buchholzer F, Sanca L, Golding CN, Larsen KL, Levy O, Kampmann B, EPIC Consortium, Tan R, Charles A, Wynn JL, Shann F, Aaby P, Benn CS, Tebbutt SJ, Kollmann TR, Amenyogbe N
Science translational medicine 2020 May 6;12(542)
Science translational medicine 2020 May 6;12(542)
Methylation of a CGATA element inhibits binding and regulation by GATA-1.
Yang L, Chen Z, Stout ES, Delerue F, Ittner LM, Wilkins MR, Quinlan KGR, Crossley M
Nature communications 2020 May 22;11(1):2560
Nature communications 2020 May 22;11(1):2560
Toll-Like Receptor-4 Dependent Intestinal and Systemic Sequelae Following Peroral Campylobacter coli Infection of IL10 Deficient Mice Harboring a Human Gut Microbiota.
Kløve S, Genger C, Mousavi S, Weschka D, Bereswill S, Heimesaat MM
Pathogens (Basel, Switzerland) 2020 May 18;9(5)
Pathogens (Basel, Switzerland) 2020 May 18;9(5)
Overcoming Immunological Challenges to Helper-Dependent Adenoviral Vector-Mediated Long-Term CFTR Expression in Mouse Airways.
Cao H, Duan R, Hu J
Genes 2020 May 18;11(5)
Genes 2020 May 18;11(5)
Cathepsin S Regulates Antigen Processing and T Cell Activity in Non-Hodgkin Lymphoma.
Dheilly E, Battistello E, Katanayeva N, Sungalee S, Michaux J, Duns G, Wehrle S, Sordet-Dessimoz J, Mina M, Racle J, Farinha P, Coukos G, Gfeller D, Mottok A, Kridel R, Correia BE, Steidl C, Bassani-Sternberg M, Ciriello G, Zoete V, Oricchio E
Cancer cell 2020 May 11;37(5):674-689.e12
Cancer cell 2020 May 11;37(5):674-689.e12
Fucoxanthin Ameliorates Atopic Dermatitis Symptoms by Regulating Keratinocytes and Regulatory Innate Lymphoid Cells.
Natsume C, Aoki N, Aoyama T, Senda K, Matsui M, Ikegami A, Tanaka K, Azuma YT, Fujita T
International journal of molecular sciences 2020 Mar 22;21(6)
International journal of molecular sciences 2020 Mar 22;21(6)
Deregulated Notch and Wnt signaling activates early-stage myeloid regeneration pathways in leukemia.
Kang YA, Pietras EM, Passegué E
The Journal of experimental medicine 2020 Mar 2;217(3)
The Journal of experimental medicine 2020 Mar 2;217(3)
Synergistic factors control kinase-phosphatase organization in B-cells engaged with supported bilayers.
Núñez MF, Wisser K, Veatch SL
Molecular biology of the cell 2020 Mar 19;31(7):667-682
Molecular biology of the cell 2020 Mar 19;31(7):667-682
Analysis of Myeloid Cells in Mouse Tissues with Flow Cytometry.
Liu Z, Gu Y, Shin A, Zhang S, Ginhoux F
STAR protocols 2020 Jun 19;1(1):100029
STAR protocols 2020 Jun 19;1(1):100029
Th2 cells promote eosinophil-independent pathology in a murine model of allergic bronchopulmonary aspergillosis.
Dietschmann A, Schruefer S, Krappmann S, Voehringer D
European journal of immunology 2020 Jul;50(7):1044-1056
European journal of immunology 2020 Jul;50(7):1044-1056
Requirements for the differentiation of innate T-bet(high) memory-phenotype CD4(+) T lymphocytes under steady state.
Kawabe T, Yi J, Kawajiri A, Hilligan K, Fang D, Ishii N, Yamane H, Zhu J, Jankovic D, Kim KS, Trinchieri G, Sher A
Nature communications 2020 Jul 6;11(1):3366
Nature communications 2020 Jul 6;11(1):3366
RNA Demethylase ALKBH5 Selectively Promotes Tumorigenesis and Cancer Stem Cell Self-Renewal in Acute Myeloid Leukemia.
Shen C, Sheng Y, Zhu AC, Robinson S, Jiang X, Dong L, Chen H, Su R, Yin Z, Li W, Deng X, Chen Y, Hu YC, Weng H, Huang H, Prince E, Cogle CR, Sun M, Zhang B, Chen CW, Marcucci G, He C, Qian Z, Chen J
Cell stem cell 2020 Jul 2;27(1):64-80.e9
Cell stem cell 2020 Jul 2;27(1):64-80.e9
Long-term ex vivo expansion of mouse hematopoietic stem cells.
Wilkinson AC, Ishida R, Nakauchi H, Yamazaki S
Nature protocols 2020 Feb;15(2):628-648
Nature protocols 2020 Feb;15(2):628-648
SARS-CoV-2 mRNA Vaccines Foster Potent Antigen-Specific Germinal Center Responses Associated with Neutralizing Antibody Generation.
Lederer K, Castaño D, Gómez Atria D, Oguin TH 3rd, Wang S, Manzoni TB, Muramatsu H, Hogan MJ, Amanat F, Cherubin P, Lundgreen KA, Tam YK, Fan SHY, Eisenlohr LC, Maillard I, Weissman D, Bates P, Krammer F, Sempowski GD, Pardi N, Locci M
Immunity 2020 Dec 15;53(6):1281-1295.e5
Immunity 2020 Dec 15;53(6):1281-1295.e5
Osterix-Cre marks distinct subsets of CD45- and CD45+ stromal populations in extra-skeletal tumors with pro-tumorigenic characteristics.
Ricci B, Tycksen E, Celik H, Belle JI, Fontana F, Civitelli R, Faccio R
eLife 2020 Aug 5;9
eLife 2020 Aug 5;9
Micro-environmental sensing by bone marrow stroma identifies IL-6 and TGFβ1 as regulators of hematopoietic ageing.
Valletta S, Thomas A, Meng Y, Ren X, Drissen R, Sengül H, Di Genua C, Nerlov C
Nature communications 2020 Aug 14;11(1):4075
Nature communications 2020 Aug 14;11(1):4075
Single cell transcriptomics identifies a unique adipose lineage cell population that regulates bone marrow environment.
Zhong L, Yao L, Tower RJ, Wei Y, Miao Z, Park J, Shrestha R, Wang L, Yu W, Holdreith N, Huang X, Zhang Y, Tong W, Gong Y, Ahn J, Susztak K, Dyment N, Li M, Long F, Chen C, Seale P, Qin L
eLife 2020 Apr 14;9
eLife 2020 Apr 14;9
Tpl2 Protects Against Fulminant Hepatitis Through Mobilization of Myeloid-Derived Suppressor Cells.
Xu J, Pei S, Wang Y, Liu J, Qian Y, Huang M, Zhang Y, Xiao Y
Frontiers in immunology 2019;10:1980
Frontiers in immunology 2019;10:1980
Mesenchymal Niche-Specific Expression of Cxcl12 Controls Quiescence of Treatment-Resistant Leukemia Stem Cells.
Agarwal P, Isringhausen S, Li H, Paterson AJ, He J, Gomariz Á, Nagasawa T, Nombela-Arrieta C, Bhatia R
Cell stem cell 2019 May 2;24(5):769-784.e6
Cell stem cell 2019 May 2;24(5):769-784.e6
Bacteroides fragilis polysaccharide A induces IL-10 secreting B and T cells that prevent viral encephalitis.
Ramakrishna C, Kujawski M, Chu H, Li L, Mazmanian SK, Cantin EM
Nature communications 2019 May 14;10(1):2153
Nature communications 2019 May 14;10(1):2153
SIRT1 regulates metabolism and leukemogenic potential in CML stem cells.
Abraham A, Qiu S, Chacko BK, Li H, Paterson A, He J, Agarwal P, Shah M, Welner R, Darley-Usmar VM, Bhatia R
The Journal of clinical investigation 2019 Jun 10;129(7):2685-2701
The Journal of clinical investigation 2019 Jun 10;129(7):2685-2701
N-Cadherin-Expressing Bone and Marrow Stromal Progenitor Cells Maintain Reserve Hematopoietic Stem Cells.
Zhao M, Tao F, Venkatraman A, Li Z, Smith SE, Unruh J, Chen S, Ward C, Qian P, Perry JM, Marshall H, Wang J, He XC, Li L
Cell reports 2019 Jan 15;26(3):652-669.e6
Cell reports 2019 Jan 15;26(3):652-669.e6
In Situ Modification of Tissue Stem and Progenitor Cell Genomes.
Goldstein JM, Tabebordbar M, Zhu K, Wang LD, Messemer KA, Peacker B, Ashrafi Kakhki S, Gonzalez-Celeiro M, Shwartz Y, Cheng JKW, Xiao R, Barungi T, Albright C, Hsu YC, Vandenberghe LH, Wagers AJ
Cell reports 2019 Apr 23;27(4):1254-1264.e7
Cell reports 2019 Apr 23;27(4):1254-1264.e7
Metabolic Imaging Reveals a Unique Preference of Symmetric Cell Division and Homing of Leukemia-Initiating Cells in an Endosteal Niche.
Hao X, Gu H, Chen C, Huang D, Zhao Y, Xie L, Zou Y, Shu HS, Zhang Y, He X, Lai X, Zhang X, Zhou BO, Zhang CC, Chen GQ, Yu Z, Yang Y, Zheng J
Cell metabolism 2019 Apr 2;29(4):950-965.e6
Cell metabolism 2019 Apr 2;29(4):950-965.e6
The Hematopoietic Oxidase NOX2 Regulates Self-Renewal of Leukemic Stem Cells.
Adane B, Ye H, Khan N, Pei S, Minhajuddin M, Stevens BM, Jones CL, D'Alessandro A, Reisz JA, Zaberezhnyy V, Gasparetto M, Ho TC, Kelly KK, Myers JR, Ashton JM, Siegenthaler J, Kume T, Campbell EL, Pollyea DA, Becker MW, Jordan CT
Cell reports 2019 Apr 2;27(1):238-254.e6
Cell reports 2019 Apr 2;27(1):238-254.e6
Anti-commensal IgG Drives Intestinal Inflammation and Type 17 Immunity in Ulcerative Colitis.
Castro-Dopico T, Dennison TW, Ferdinand JR, Mathews RJ, Fleming A, Clift D, Stewart BJ, Jing C, Strongili K, Labzin LI, Monk EJM, Saeb-Parsy K, Bryant CE, Clare S, Parkes M, Clatworthy MR
Immunity 2019 Apr 16;50(4):1099-1114.e10
Immunity 2019 Apr 16;50(4):1099-1114.e10
Proapoptotic BIM Impacts B Lymphoid Homeostasis by Limiting the Survival of Mature B Cells in a Cell-Autonomous Manner.
Liu R, King A, Bouillet P, Tarlinton DM, Strasser A, Heierhorst J
Frontiers in immunology 2018;9:592
Frontiers in immunology 2018;9:592
Dysregulated TRAF3 and BCL2 Expression Promotes Multiple Classes of Mature Non-hodgkin B Cell Lymphoma in Mice.
Perez-Chacon G, Adrados M, Vallejo-Cremades MT, Lefebvre S, Reed JC, Zapata JM
Frontiers in immunology 2018;9:3114
Frontiers in immunology 2018;9:3114
ATF3 Sustains IL-22-Induced STAT3 Phosphorylation to Maintain Mucosal Immunity Through Inhibiting Phosphatases.
Glal D, Sudhakar JN, Lu HH, Liu MC, Chiang HY, Liu YC, Cheng CF, Shui JW
Frontiers in immunology 2018;9:2522
Frontiers in immunology 2018;9:2522
The orphan nuclear receptor EAR-2 (NR2F6) inhibits hematopoietic cell differentiation and induces myeloid dysplasia in vivo.
Ichim CV, Dervovic DD, Chan LSA, Robertson CJ, Chesney A, Reis MD, Wells RA
Biomarker research 2018;6:36
Biomarker research 2018;6:36
LaminA/C regulates epigenetic and chromatin architecture changes upon aging of hematopoietic stem cells.
Grigoryan A, Guidi N, Senger K, Liehr T, Soller K, Marka G, Vollmer A, Markaki Y, Leonhardt H, Buske C, Lipka DB, Plass C, Zheng Y, Mulaw MA, Geiger H, Florian MC
Genome biology 2018 Nov 7;19(1):189
Genome biology 2018 Nov 7;19(1):189
A stochastic epigenetic switch controls the dynamics of T-cell lineage commitment.
Ng KK, Yui MA, Mehta A, Siu S, Irwin B, Pease S, Hirose S, Elowitz MB, Rothenberg EV, Kueh HY
eLife 2018 Nov 20;7
eLife 2018 Nov 20;7
Bone marrow niche trafficking of miR-126 controls the self-renewal of leukemia stem cells in chronic myelogenous leukemia.
Zhang B, Nguyen LXT, Li L, Zhao D, Kumar B, Wu H, Lin A, Pellicano F, Hopcroft L, Su YL, Copland M, Holyoake TL, Kuo CJ, Bhatia R, Snyder DS, Ali H, Stein AS, Brewer C, Wang H, McDonald T, Swiderski P, Troadec E, Chen CC, Dorrance A, Pullarkat V, Yuan YC, Perrotti D, Carlesso N, Forman SJ, Kortylewski M, Kuo YH, Marcucci G
Nature medicine 2018 May;24(4):450-462
Nature medicine 2018 May;24(4):450-462
Microbial symbionts regulate the primary Ig repertoire.
Chen Y, Chaudhary N, Yang N, Granato A, Turner JA, Howard SL, Devereaux C, Zuo T, Shrestha A, Goel RR, Neuberg D, Wesemann DR
The Journal of experimental medicine 2018 May 7;215(5):1397-1415
The Journal of experimental medicine 2018 May 7;215(5):1397-1415
Spred1 Safeguards Hematopoietic Homeostasis against Diet-Induced Systemic Stress.
Tadokoro Y, Hoshii T, Yamazaki S, Eto K, Ema H, Kobayashi M, Ueno M, Ohta K, Arai Y, Hara E, Harada K, Oshima M, Oshima H, Arai F, Yoshimura A, Nakauchi H, Hirao A
Cell stem cell 2018 May 3;22(5):713-725.e8
Cell stem cell 2018 May 3;22(5):713-725.e8
Hematopoietic stem cells can differentiate into restricted myeloid progenitors before cell division in mice.
Grinenko T, Eugster A, Thielecke L, Ramasz B, Krüger A, Dietz S, Glauche I, Gerbaulet A, von Bonin M, Basak O, Clevers H, Chavakis T, Wielockx B
Nature communications 2018 May 15;9(1):1898
Nature communications 2018 May 15;9(1):1898
Loss of DEK induces radioresistance of murine restricted hematopoietic progenitors.
Serrano-Lopez J, Nattamai K, Pease NA, Shephard MS, Wellendorf AM, Sertorio M, Smith EA, Geiger H, Wells SI, Cancelas JA, Privette Vinnedge LM
Experimental hematology 2018 Mar;59:40-50.e3
Experimental hematology 2018 Mar;59:40-50.e3
Host Tumor Suppressor p18(INK4c) Functions as a Potent Cell-Intrinsic Inhibitor of Murine Gammaherpesvirus 68 Reactivation and Pathogenesis.
Niemeyer BF, Oko LM, Medina EM, Oldenburg DG, White DW, Cool CD, Clambey ET, van Dyk LF
Journal of virology 2018 Mar 15;92(6)
Journal of virology 2018 Mar 15;92(6)
Adrenergic nerve degeneration in bone marrow drives aging of the hematopoietic stem cell niche.
Maryanovich M, Zahalka AH, Pierce H, Pinho S, Nakahara F, Asada N, Wei Q, Wang X, Ciero P, Xu J, Leftin A, Frenette PS
Nature medicine 2018 Jun;24(6):782-791
Nature medicine 2018 Jun;24(6):782-791
IL1RAP potentiates multiple oncogenic signaling pathways in AML.
Mitchell K, Barreyro L, Todorova TI, Taylor SJ, Antony-Debré I, Narayanagari SR, Carvajal LA, Leite J, Piperdi Z, Pendurti G, Mantzaris I, Paietta E, Verma A, Gritsman K, Steidl U
The Journal of experimental medicine 2018 Jun 4;215(6):1709-1727
The Journal of experimental medicine 2018 Jun 4;215(6):1709-1727
Mitophagy in Intestinal Epithelial Cells Triggers Adaptive Immunity during Tumorigenesis.
Ziegler PK, Bollrath J, Pallangyo CK, Matsutani T, Canli Ö, De Oliveira T, Diamanti MA, Müller N, Gamrekelashvili J, Putoczki T, Horst D, Mankan AK, Öner MG, Müller S, Müller-Höcker J, Kirchner T, Slotta-Huspenina J, Taketo MM, Reinheckel T, Dröse S, Larner AC, Wels WS, Ernst M, Greten TF, Arkan MC, Korn T, Wirth D, Greten FR
Cell 2018 Jun 28;174(1):88-101.e16
Cell 2018 Jun 28;174(1):88-101.e16
Anti-inflammatory Effects of the Octapeptide NAP in Human Microbiota-Associated Mice Suffering from Subacute Ileitis.
Escher U, Giladi E, Dunay IR, Bereswill S, Gozes I, Heimesaat MM
European journal of microbiology & immunology 2018 Jun 25;8(2):34-40
European journal of microbiology & immunology 2018 Jun 25;8(2):34-40
miR-143/145 differentially regulate hematopoietic stem and progenitor activity through suppression of canonical TGFβ signaling.
Lam J, van den Bosch M, Wegrzyn J, Parker J, Ibrahim R, Slowski K, Chang L, Martinez-Høyer S, Condorelli G, Boldin M, Deng Y, Umlandt P, Fuller M, Karsan A
Nature communications 2018 Jun 20;9(1):2418
Nature communications 2018 Jun 20;9(1):2418
TGF-β1 Negatively Regulates the Number and Function of Hematopoietic Stem Cells.
Wang X, Dong F, Zhang S, Yang W, Yu W, Wang Z, Zhang S, Wang J, Ma S, Wu P, Gao Y, Dong J, Tang F, Cheng T, Ema H
Stem cell reports 2018 Jul 10;11(1):274-287
Stem cell reports 2018 Jul 10;11(1):274-287
Oxysterol Sensing through the Receptor GPR183 Promotes the Lymphoid-Tissue-Inducing Function of Innate Lymphoid Cells and Colonic Inflammation.
Emgård J, Kammoun H, García-Cassani B, Chesné J, Parigi SM, Jacob JM, Cheng HW, Evren E, Das S, Czarnewski P, Sleiers N, Melo-Gonzalez F, Kvedaraite E, Svensson M, Scandella E, Hepworth MR, Huber S, Ludewig B, Peduto L, Villablanca EJ, Veiga-Fernandes H, Pereira JP, Flavell RA, Willinger T
Immunity 2018 Jan 16;48(1):120-132.e8
Immunity 2018 Jan 16;48(1):120-132.e8
Tanshinone IIA and Astragaloside IV promote the angiogenesis of mesenchymal stem cell-derived endothelial cell-like cells via upregulation of Cx37, Cx40 and Cx43.
Li Z, Zhang S, Cao L, Li W, Ye YC, Shi ZX, Wang ZR, Sun LX, Wang JW, Jia LT, Wang W
Experimental and therapeutic medicine 2018 Feb;15(2):1847-1854
Experimental and therapeutic medicine 2018 Feb;15(2):1847-1854
Age-specific biological and molecular profiling distinguishes paediatric from adult acute myeloid leukaemias.
Chaudhury S, O'Connor C, Cañete A, Bittencourt-Silvestre J, Sarrou E, Prendergast Á, Choi J, Johnston P, Wells CA, Gibson B, Keeshan K
Nature communications 2018 Dec 11;9(1):5280
Nature communications 2018 Dec 11;9(1):5280
Inactivation of mTORC1 Signaling in Osterix-Expressing Cells Impairs B-cell Differentiation.
Wang Y, Xiao M, Tao C, Chen J, Wang Z, Yang J, Chen Z, Zou Z, Liu A, Cai D, Jiang Y, Ding C, Li M, Bai X
Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research 2018 Apr;33(4):732-742
Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research 2018 Apr;33(4):732-742
Protection by and maintenance of CD4 effector memory and effector T cell subsets in persistent malaria infection.
Opata MM, Ibitokou SA, Carpio VH, Marshall KM, Dillon BE, Carl JC, Wilson KD, Arcari CM, Stephens R
PLoS pathogens 2018 Apr;14(4):e1006960
PLoS pathogens 2018 Apr;14(4):e1006960
Bruton's Tyrosine Kinase Is Not Essential for B Cell Survival beyond Early Developmental Stages.
Nyhoff LE, Clark ES, Barron BL, Bonami RH, Khan WN, Kendall PL
Journal of immunology (Baltimore, Md. : 1950) 2018 Apr 1;200(7):2352-2361
Journal of immunology (Baltimore, Md. : 1950) 2018 Apr 1;200(7):2352-2361
The Interleukin (IL)-1R1 pathway is a critical negative regulator of PyMT-mediated mammary tumorigenesis and pulmonary metastasis.
Dagenais M, Dupaul-Chicoine J, Douglas T, Champagne C, Morizot A, Saleh M
Oncoimmunology 2017;6(3):e1287247
Oncoimmunology 2017;6(3):e1287247
Multiple functional therapeutic effects of TnP: A small stable synthetic peptide derived from fish venom in a mouse model of multiple sclerosis.
Komegae EN, Souza TA, Grund LZ, Lima C, Lopes-Ferreira M
PloS one 2017;12(2):e0171796
PloS one 2017;12(2):e0171796
Non-coding Transcription Instructs Chromatin Folding and Compartmentalization to Dictate Enhancer-Promoter Communication and T Cell Fate.
Isoda T, Moore AJ, He Z, Chandra V, Aida M, Denholtz M, Piet van Hamburg J, Fisch KM, Chang AN, Fahl SP, Wiest DL, Murre C
Cell 2017 Sep 21;171(1):103-119.e18
Cell 2017 Sep 21;171(1):103-119.e18
DNA-binding of the Tet-transactivator curtails antigen-induced lymphocyte activation in mice.
Ottina E, Peperzak V, Schoeler K, Carrington E, Sgonc R, Pellegrini M, Preston S, Herold MJ, Strasser A, Villunger A
Nature communications 2017 Oct 18;8(1):1028
Nature communications 2017 Oct 18;8(1):1028
EZH2 enables germinal centre formation through epigenetic silencing of CDKN1A and an Rb-E2F1 feedback loop.
Béguelin W, Rivas MA, Calvo Fernández MT, Teater M, Purwada A, Redmond D, Shen H, Challman MF, Elemento O, Singh A, Melnick AM
Nature communications 2017 Oct 12;8(1):877
Nature communications 2017 Oct 12;8(1):877
Vitamin A-Retinoic Acid Signaling Regulates Hematopoietic Stem Cell Dormancy.
Cabezas-Wallscheid N, Buettner F, Sommerkamp P, Klimmeck D, Ladel L, Thalheimer FB, Pastor-Flores D, Roma LP, Renders S, Zeisberger P, Przybylla A, Schönberger K, Scognamiglio R, Altamura S, Florian CM, Fawaz M, Vonficht D, Tesio M, Collier P, Pavlinic D, Geiger H, Schroeder T, Benes V, Dick TP, Rieger MA, Stegle O, Trumpp A
Cell 2017 May 18;169(5):807-823.e19
Cell 2017 May 18;169(5):807-823.e19
Pre/pro-B cells generate macrophage populations during homeostasis and inflammation.
Audzevich T, Bashford-Rogers R, Mabbott NA, Frampton D, Freeman TC, Potocnik A, Kellam P, Gilroy DW
Proceedings of the National Academy of Sciences of the United States of America 2017 May 16;114(20):E3954-E3963
Proceedings of the National Academy of Sciences of the United States of America 2017 May 16;114(20):E3954-E3963
Chronic Plasmodium chabaudi Infection Generates CD4 Memory T Cells with Increased T Cell Receptor Sensitivity but Poor Secondary Expansion and Increased Apoptosis.
Opata MM, Stephens R
Infection and immunity 2017 Mar;85(3)
Infection and immunity 2017 Mar;85(3)
Differential cytokine contributions of perivascular haematopoietic stem cell niches.
Asada N, Kunisaki Y, Pierce H, Wang Z, Fernandez NF, Birbrair A, Ma'ayan A, Frenette PS
Nature cell biology 2017 Mar;19(3):214-223
Nature cell biology 2017 Mar;19(3):214-223
Understanding Hematopoietic Stem Cell Development through Functional Correlation of Their Proliferative Status with the Intra-aortic Cluster Architecture.
Batsivari A, Rybtsov S, Souilhol C, Binagui-Casas A, Hills D, Zhao S, Travers P, Medvinsky A
Stem cell reports 2017 Jun 6;8(6):1549-1562
Stem cell reports 2017 Jun 6;8(6):1549-1562
Mutant U2AF1-expressing cells are sensitive to pharmacological modulation of the spliceosome.
Shirai CL, White BS, Tripathi M, Tapia R, Ley JN, Ndonwi M, Kim S, Shao J, Carver A, Saez B, Fulton RS, Fronick C, O'Laughlin M, Lagisetti C, Webb TR, Graubert TA, Walter MJ
Nature communications 2017 Jan 9;8:14060
Nature communications 2017 Jan 9;8:14060
AMP-Activated Protein Kinase α2 in Neutrophils Regulates Vascular Repair via Hypoxia-Inducible Factor-1α and a Network of Proteins Affecting Metabolism and Apoptosis.
Abdel Malik R, Zippel N, Frömel T, Heidler J, Zukunft S, Walzog B, Ansari N, Pampaloni F, Wingert S, Rieger MA, Wittig I, Fisslthaler B, Fleming I
Circulation research 2017 Jan 6;120(1):99-109
Circulation research 2017 Jan 6;120(1):99-109
Irgm1 coordinately regulates autoimmunity and host defense at select mucosal surfaces.
Azzam KM, Madenspacher JH, Cain DW, Lai L, Gowdy KM, Rai P, Janardhan K, Clayton N, Cunningham W, Jensen H, Patel PS, Kearney JF, Taylor GA, Fessler MB
JCI insight 2017 Aug 17;2(16)
JCI insight 2017 Aug 17;2(16)
Epithelial Fli1 deficiency drives systemic autoimmunity and fibrosis: Possible roles in scleroderma.
Takahashi T, Asano Y, Sugawara K, Yamashita T, Nakamura K, Saigusa R, Ichimura Y, Toyama T, Taniguchi T, Akamata K, Noda S, Yoshizaki A, Tsuruta D, Trojanowska M, Sato S
The Journal of experimental medicine 2017 Apr 3;214(4):1129-1151
The Journal of experimental medicine 2017 Apr 3;214(4):1129-1151
Combined antiangiogenic and anti-PD-L1 therapy stimulates tumor immunity through HEV formation.
Allen E, Jabouille A, Rivera LB, Lodewijckx I, Missiaen R, Steri V, Feyen K, Tawney J, Hanahan D, Michael IP, Bergers G
Science translational medicine 2017 Apr 12;9(385)
Science translational medicine 2017 Apr 12;9(385)
Induction of Suppressor Cells and Increased Tumor Growth following Chronic Psychosocial Stress in Male Mice.
Schmidt D, Peterlik D, Reber SO, Lechner A, Männel DN
PloS one 2016;11(7):e0159059
PloS one 2016;11(7):e0159059
IL-23 induced in keratinocytes by endogenous TLR4 ligands polarizes dendritic cells to drive IL-22 responses to skin immunization.
Yoon J, Leyva-Castillo JM, Wang G, Galand C, Oyoshi MK, Kumar L, Hoff S, He R, Chervonsky A, Oppenheim JJ, Kuchroo VK, van den Brink MR, Malefyt Rde W, Tessier PA, Fuhlbrigge R, Rosenstiel P, Terhorst C, Murphy G, Geha RS
The Journal of experimental medicine 2016 Sep 19;213(10):2147-66
The Journal of experimental medicine 2016 Sep 19;213(10):2147-66
p38 MAPK Inhibitor Insufficiently Attenuates HSC Senescence Administered Long-Term after 6 Gy Total Body Irradiation in Mice.
Lu L, Wang YY, Zhang JL, Li DG, Meng AM
International journal of molecular sciences 2016 Jun 8;17(6)
International journal of molecular sciences 2016 Jun 8;17(6)
Bmp signaling in colonic mesenchyme regulates stromal microenvironment and protects from polyposis initiation.
Allaire JM, Roy SA, Ouellet C, Lemieux É, Jones C, Paquet M, Boudreau F, Perreault N
International journal of cancer 2016 Jun 1;138(11):2700-12
International journal of cancer 2016 Jun 1;138(11):2700-12
Affinity and dose of TCR engagement yield proportional enhancer and gene activity in CD4+ T cells.
Allison KA, Sajti E, Collier JG, Gosselin D, Troutman TD, Stone EL, Hedrick SM, Glass CK
eLife 2016 Jul 4;5
eLife 2016 Jul 4;5
Postnatal lethality and abnormal development of foregut and spleen in Ndrg4 mutant mice.
Qu X, Li J, Baldwin HS
Biochemical and biophysical research communications 2016 Feb 12;470(3):613-619
Biochemical and biophysical research communications 2016 Feb 12;470(3):613-619
CD8(+) T cells drive autoimmune hematopoietic stem cell dysfunction and bone marrow failure.
Gravano DM, Al-Kuhlani M, Davini D, Sanders PD, Manilay JO, Hoyer KK
Journal of autoimmunity 2016 Dec;75:58-67
Journal of autoimmunity 2016 Dec;75:58-67
Murine iPSC-Derived Macrophages as a Tool for Disease Modeling of Hereditary Pulmonary Alveolar Proteinosis due to Csf2rb Deficiency.
Mucci A, Kunkiel J, Suzuki T, Brennig S, Glage S, Kühnel MP, Ackermann M, Happle C, Kuhn A, Schambach A, Trapnell BC, Hansen G, Moritz T, Lachmann N
Stem cell reports 2016 Aug 9;7(2):292-305
Stem cell reports 2016 Aug 9;7(2):292-305
Resident T Cells Are Unable To Control Herpes Simplex Virus-1 Activity in the Brain Ependymal Region during Latency.
Menendez CM, Jinkins JK, Carr DJ
Journal of immunology (Baltimore, Md. : 1950) 2016 Aug 15;197(4):1262-75
Journal of immunology (Baltimore, Md. : 1950) 2016 Aug 15;197(4):1262-75
The immunosenescence-related gene Zizimin2 is associated with early bone marrow B cell development and marginal zone B cell formation.
Matsuda T, Yanase S, Takaoka A, Maruyama M
Immunity & ageing : I & A 2015;12:1
Immunity & ageing : I & A 2015;12:1
Disease severity and mortality can be independently regulated in a mouse model of experimental graft versus host disease.
Galvani RG, Lemos R, Areal RB, Salvador PA, Zamboni DS, Wanderley JL, Bonomo A
PloS one 2015;10(2):e0118079
PloS one 2015;10(2):e0118079
IFN-γ and IL-21 Double Producing T Cells Are Bcl6-Independent and Survive into the Memory Phase in Plasmodium chabaudi Infection.
Carpio VH, Opata MM, Montañez ME, Banerjee PP, Dent AL, Stephens R
PloS one 2015;10(12):e0144654
PloS one 2015;10(12):e0144654
Mitochondrial ATP transporter Ant2 depletion impairs erythropoiesis and B lymphopoiesis.
Cho J, Seo J, Lim CH, Yang L, Shiratsuchi T, Lee MH, Chowdhury RR, Kasahara H, Kim JS, Oh SP, Lee YJ, Terada N
Cell death and differentiation 2015 Sep;22(9):1437-50
Cell death and differentiation 2015 Sep;22(9):1437-50
Distinct germinal center selection at local sites shapes memory B cell response to viral escape.
Adachi Y, Onodera T, Yamada Y, Daio R, Tsuiji M, Inoue T, Kobayashi K, Kurosaki T, Ato M, Takahashi Y
The Journal of experimental medicine 2015 Sep 21;212(10):1709-23
The Journal of experimental medicine 2015 Sep 21;212(10):1709-23
Frizzled-6 Regulates Hematopoietic Stem/Progenitor Cell Survival and Self-Renewal.
Abidin BM, Owusu Kwarteng E, Heinonen KM
Journal of immunology (Baltimore, Md. : 1950) 2015 Sep 1;195(5):2168-76
Journal of immunology (Baltimore, Md. : 1950) 2015 Sep 1;195(5):2168-76
Imaging Macrophage and Hematopoietic Progenitor Proliferation in Atherosclerosis.
Ye YX, Calcagno C, Binderup T, Courties G, Keliher EJ, Wojtkiewicz GR, Iwamoto Y, Tang J, Pérez-Medina C, Mani V, Ishino S, Johnbeck CB, Knigge U, Fayad ZA, Libby P, Weissleder R, Tawakol A, Dubey S, Belanger AP, Di Carli MF, Swirski FK, Kjaer A, Mulder WJ, Nahrendorf M
Circulation research 2015 Oct 23;117(10):835-45
Circulation research 2015 Oct 23;117(10):835-45
Endothelial Gata5 transcription factor regulates blood pressure.
Messaoudi S, He Y, Gutsol A, Wight A, Hébert RL, Vilmundarson RO, Makrigiannis AP, Chalmers J, Hamet P, Tremblay J, McPherson R, Stewart AFR, Touyz RM, Nemer M
Nature communications 2015 Nov 30;6:8835
Nature communications 2015 Nov 30;6:8835
Limited miR-17-92 overexpression drives hematologic malignancies.
Danielson LS, Reavie L, Coussens M, Davalos V, Castillo-Martin M, Guijarro MV, Coffre M, Cordon-Cardo C, Aifantis I, Ibrahim S, Liu C, Koralov SB, Hernando E
Leukemia research 2015 Mar;39(3):335-41
Leukemia research 2015 Mar;39(3):335-41
Disruption of p21-activated kinase 1 gene diminishes atherosclerosis in apolipoprotein E-deficient mice.
Singh NK, Kotla S, Dyukova E, Traylor JG Jr, Orr AW, Chernoff J, Marion TN, Rao GN
Nature communications 2015 Jun 24;6:7450
Nature communications 2015 Jun 24;6:7450
Inhibition of the CXCL12/CXCR4 chemokine axis with AMD3100, a CXCR4 small molecule inhibitor, worsens murine hepatic injury.
Saiman Y, Jiao J, Fiel MI, Friedman SL, Aloman C, Bansal MB
Hepatology research : the official journal of the Japan Society of Hepatology 2015 Jul;45(7):794-803
Hepatology research : the official journal of the Japan Society of Hepatology 2015 Jul;45(7):794-803
Comparison of tamoxifen and letrozole response in mammary preneoplasia of ER and aromatase overexpressing mice defines an immune-associated gene signature linked to tamoxifen resistance.
Dabydeen SA, Kang K, Díaz-Cruz ES, Alamri A, Axelrod ML, Bouker KB, Al-Kharboosh R, Clarke R, Hennighausen L, Furth PA
Carcinogenesis 2015 Jan;36(1):122-32
Carcinogenesis 2015 Jan;36(1):122-32
DGCR14 induces Il17a gene expression through the RORγ/BAZ1B/RSKS2 complex.
Takada I
Molecular and cellular biology 2015 Jan;35(2):344-55
Molecular and cellular biology 2015 Jan;35(2):344-55
CCR6-dependent positioning of memory B cells is essential for their ability to mount a recall response to antigen.
Elgueta R, Marks E, Nowak E, Menezes S, Benson M, Raman VS, Ortiz C, O'Connell S, Hess H, Lord GM, Noelle R
Journal of immunology (Baltimore, Md. : 1950) 2015 Jan 15;194(2):505-13
Journal of immunology (Baltimore, Md. : 1950) 2015 Jan 15;194(2):505-13
Aging-associated inflammation promotes selection for adaptive oncogenic events in B cell progenitors.
Henry CJ, Casás-Selves M, Kim J, Zaberezhnyy V, Aghili L, Daniel AE, Jimenez L, Azam T, McNamee EN, Clambey ET, Klawitter J, Serkova NJ, Tan AC, Dinarello CA, DeGregori J
The Journal of clinical investigation 2015 Dec;125(12):4666-80
The Journal of clinical investigation 2015 Dec;125(12):4666-80
MHC-mismatched mixed chimerism augments thymic regulatory T-cell production and prevents relapse of EAE in mice.
Wu L, Li N, Zhang M, Xue SL, Cassady K, Lin Q, Riggs AD, Zeng D
Proceedings of the National Academy of Sciences of the United States of America 2015 Dec 29;112(52):15994-9
Proceedings of the National Academy of Sciences of the United States of America 2015 Dec 29;112(52):15994-9
B-cell-intrinsic hepatitis C virus expression leads to B-cell-lymphomagenesis and induction of NF-κB signalling.
Kasama Y, Mizukami T, Kusunoki H, Peveling-Oberhag J, Nishito Y, Ozawa M, Kohara M, Mizuochi T, Tsukiyama-Kohara K
PloS one 2014;9(3):e91373
PloS one 2014;9(3):e91373
Gene targeting study reveals unexpected expression of brain-expressed X-linked 2 in endocrine and tissue stem/progenitor cells in mice.
Ito K, Yamazaki S, Yamamoto R, Tajima Y, Yanagida A, Kobayashi T, Kato-Itoh M, Kakuta S, Iwakura Y, Nakauchi H, Kamiya A
The Journal of biological chemistry 2014 Oct 24;289(43):29892-911
The Journal of biological chemistry 2014 Oct 24;289(43):29892-911
Quantitative assessment of the robustness of next-generation sequencing of antibody variable gene repertoires from immunized mice.
Greiff V, Menzel U, Haessler U, Cook SC, Friedensohn S, Khan TA, Pogson M, Hellmann I, Reddy ST
BMC immunology 2014 Oct 16;15:40
BMC immunology 2014 Oct 16;15:40
Transcription elongation factor ELL2 drives Ig secretory-specific mRNA production and the unfolded protein response.
Park KS, Bayles I, Szlachta-McGinn A, Paul J, Boiko J, Santos P, Liu J, Wang Z, Borghesi L, Milcarek C
Journal of immunology (Baltimore, Md. : 1950) 2014 Nov 1;193(9):4663-74
Journal of immunology (Baltimore, Md. : 1950) 2014 Nov 1;193(9):4663-74
Combined MEK and JAK inhibition abrogates murine myeloproliferative neoplasm.
Kong G, Wunderlich M, Yang D, Ranheim EA, Young KH, Wang J, Chang YI, Du J, Liu Y, Tey SR, Zhang X, Juckett M, Mattison R, Damnernsawad A, Zhang J, Mulloy JC, Zhang J
The Journal of clinical investigation 2014 Jun;124(6):2762-73
The Journal of clinical investigation 2014 Jun;124(6):2762-73
Infection mobilizes hematopoietic stem cells through cooperative NOD-like receptor and Toll-like receptor signaling.
Burberry A, Zeng MY, Ding L, Wicks I, Inohara N, Morrison SJ, Núñez G
Cell host & microbe 2014 Jun 11;15(6):779-91
Cell host & microbe 2014 Jun 11;15(6):779-91
Bronchial epithelial injury in the context of alloimmunity promotes lymphocytic bronchiolitis through hyaluronan expression.
Stober VP, Szczesniak C, Childress Q, Heise RL, Bortner C, Hollingsworth JW, Neuringer IP, Palmer SM, Garantziotis S
American journal of physiology. Lung cellular and molecular physiology 2014 Jun 1;306(11):L1045-55
American journal of physiology. Lung cellular and molecular physiology 2014 Jun 1;306(11):L1045-55
Surface plasmon resonance measurements of plasma antibody avidity during primary and secondary responses to anthrax protective antigen.
Lynch HE, Stewart SM, Kepler TB, Sempowski GD, Alam SM
Journal of immunological methods 2014 Feb;404:1-12
Journal of immunological methods 2014 Feb;404:1-12
Rhof promotes murine marginal zone B cell development.
Kishimoto M, Matsuda T, Yanase S, Katsumi A, Suzuki N, Ikejiri M, Takagi A, Ikawa M, Kojima T, Kunishima S, Kiyoi H, Naoe T, Matsushita T, Maruyama M
Nagoya journal of medical science 2014 Aug;76(3-4):293-305
Nagoya journal of medical science 2014 Aug;76(3-4):293-305
IκBε is a key regulator of B cell expansion by providing negative feedback on cRel and RelA in a stimulus-specific manner.
Alves BN, Tsui R, Almaden J, Shokhirev MN, Davis-Turak J, Fujimoto J, Birnbaum H, Ponomarenko J, Hoffmann A
Journal of immunology (Baltimore, Md. : 1950) 2014 Apr 1;192(7):3121-32
Journal of immunology (Baltimore, Md. : 1950) 2014 Apr 1;192(7):3121-32
TDP2-dependent non-homologous end-joining protects against topoisomerase II-induced DNA breaks and genome instability in cells and in vivo.
Gómez-Herreros F, Romero-Granados R, Zeng Z, Alvarez-Quilón A, Quintero C, Ju L, Umans L, Vermeire L, Huylebroeck D, Caldecott KW, Cortés-Ledesma F
PLoS genetics 2013;9(3):e1003226
PLoS genetics 2013;9(3):e1003226
Properties of immature myeloid progenitors with nitric-oxide-dependent immunosuppressive activity isolated from bone marrow of tumor-free mice.
Forghani P, Harris W, Giver CR, Mirshafiey A, Galipeau J, Waller EK
PloS one 2013;8(7):e64837
PloS one 2013;8(7):e64837
MiR-210 is induced by Oct-2, regulates B cells, and inhibits autoantibody production.
Mok Y, Schwierzeck V, Thomas DC, Vigorito E, Rayner TF, Jarvis LB, Prosser HM, Bradley A, Withers DR, Mårtensson IL, Corcoran LM, Blenkiron C, Miska EA, Lyons PA, Smith KGC
Journal of immunology (Baltimore, Md. : 1950) 2013 Sep 15;191(6):3037-3048
Journal of immunology (Baltimore, Md. : 1950) 2013 Sep 15;191(6):3037-3048
Arteriolar niches maintain haematopoietic stem cell quiescence.
Kunisaki Y, Bruns I, Scheiermann C, Ahmed J, Pinho S, Zhang D, Mizoguchi T, Wei Q, Lucas D, Ito K, Mar JC, Bergman A, Frenette PS
Nature 2013 Oct 31;502(7473):637-43
Nature 2013 Oct 31;502(7473):637-43
A component of the mir-17-92 polycistronic oncomir promotes oncogene-dependent apoptosis.
Olive V, Sabio E, Bennett MJ, De Jong CS, Biton A, McGann JC, Greaney SK, Sodir NM, Zhou AY, Balakrishnan A, Foth M, Luftig MA, Goga A, Speed TP, Xuan Z, Evan GI, Wan Y, Minella AC, He L
eLife 2013 Oct 15;2:e00822
eLife 2013 Oct 15;2:e00822
Neuronal and nonneuronal cholinergic structures in the mouse gastrointestinal tract and spleen.
Gautron L, Rutkowski JM, Burton MD, Wei W, Wan Y, Elmquist JK
The Journal of comparative neurology 2013 Nov;521(16):3741-67
The Journal of comparative neurology 2013 Nov;521(16):3741-67
Natural IgG antibodies provide innate protection against ficolin-opsonized bacteria.
Panda S, Zhang J, Tan NS, Ho B, Ding JL
The EMBO journal 2013 Nov 13;32(22):2905-19
The EMBO journal 2013 Nov 13;32(22):2905-19
Sialyltransferase ST3Gal-III regulates Siglec-F ligand formation and eosinophilic lung inflammation in mice.
Suzukawa M, Miller M, Rosenthal P, Cho JY, Doherty TA, Varki A, Broide D
Journal of immunology (Baltimore, Md. : 1950) 2013 Jun 15;190(12):5939-48
Journal of immunology (Baltimore, Md. : 1950) 2013 Jun 15;190(12):5939-48
Reciprocal effects of rab7 deletion in activated and neglected T cells.
Roy SG, Stevens MW, So L, Edinger AL
Autophagy 2013 Jul;9(7):1009-23
Autophagy 2013 Jul;9(7):1009-23
Inhibiting TGFβ1 has a protective effect on mouse bone marrow suppression following ionizing radiation exposure in vitro.
Zhang H, Wang YA, Meng A, Yan H, Wang X, Niu J, Li J, Wang H
Journal of radiation research 2013 Jul 1;54(4):630-6
Journal of radiation research 2013 Jul 1;54(4):630-6
Flow cytometry analysis of murine hematopoietic stem cells.
Mayle A, Luo M, Jeong M, Goodell MA
Cytometry. Part A : the journal of the International Society for Analytical Cytology 2013 Jan;83(1):27-37
Cytometry. Part A : the journal of the International Society for Analytical Cytology 2013 Jan;83(1):27-37
Antigen-loaded pH-sensitive hydrogel microparticles are taken up by dendritic cells with no requirement for targeting antibodies.
Ruff LE, Mahmoud EA, Sankaranarayanan J, Morachis JM, Katayama CD, Corr M, Hedrick SM, Almutairi A
Integrative biology : quantitative biosciences from nano to macro 2013 Jan;5(1):195-203
Integrative biology : quantitative biosciences from nano to macro 2013 Jan;5(1):195-203
Scmh1 has E3 ubiquitin ligase activity for geminin and histone H2A and regulates geminin stability directly or indirectly via transcriptional repression of Hoxa9 and Hoxb4.
Yasunaga S, Ohtsubo M, Ohno Y, Saeki K, Kurogi T, Tanaka-Okamoto M, Ishizaki H, Shirai M, Mihara K, Brock HW, Miyoshi J, Takihara Y
Molecular and cellular biology 2013 Feb;33(4):644-60
Molecular and cellular biology 2013 Feb;33(4):644-60
Cbx4 regulates the proliferation of thymic epithelial cells and thymus function.
Liu B, Liu YF, Du YR, Mardaryev AN, Yang W, Chen H, Xu ZM, Xu CQ, Zhang XR, Botchkarev VA, Zhang Y, Xu GL
Development (Cambridge, England) 2013 Feb;140(4):780-8
Development (Cambridge, England) 2013 Feb;140(4):780-8
Focal adhesion kinase regulates the localization and retention of pro-B cells in bone marrow microenvironments.
Park SY, Wolfram P, Canty K, Harley B, Nombela-Arrieta C, Pivarnik G, Manis J, Beggs HE, Silberstein LE
Journal of immunology (Baltimore, Md. : 1950) 2013 Feb 1;190(3):1094-102
Journal of immunology (Baltimore, Md. : 1950) 2013 Feb 1;190(3):1094-102
Enhancing T lineage production in aged mice: a novel function of Foxn1 in the bone marrow niche.
Zook EC, Zhang S, Gerstein RM, Witte PL, Le PT
Journal of immunology (Baltimore, Md. : 1950) 2013 Dec 1;191(11):5583-93
Journal of immunology (Baltimore, Md. : 1950) 2013 Dec 1;191(11):5583-93
Activation-induced cytidine deaminase-initiated off-target DNA breaks are detected and resolved during S phase.
Hasham MG, Snow KJ, Donghia NM, Branca JA, Lessard MD, Stavnezer J, Shopland LS, Mills KD
Journal of immunology (Baltimore, Md. : 1950) 2012 Sep 1;189(5):2374-82
Journal of immunology (Baltimore, Md. : 1950) 2012 Sep 1;189(5):2374-82
T-cell trafficking facilitated by high endothelial venules is required for tumor control after regulatory T-cell depletion.
Hindley JP, Jones E, Smart K, Bridgeman H, Lauder SN, Ondondo B, Cutting S, Ladell K, Wynn KK, Withers D, Price DA, Ager A, Godkin AJ, Gallimore AM
Cancer research 2012 Nov 1;72(21):5473-82
Cancer research 2012 Nov 1;72(21):5473-82
Biphenotypic B-lymphoid/myeloid cells expressing low levels of Pax5: potential targets of BAL development.
Simmons S, Knoll M, Drewell C, Wolf I, Mollenkopf HJ, Bouquet C, Melchers F
Blood 2012 Nov 1;120(18):3688-98
Blood 2012 Nov 1;120(18):3688-98
Molecular imaging of very late antigen-4 (α4β1 integrin) in the premetastatic niche.
Shokeen M, Zheleznyak A, Wilson JM, Jiang M, Liu R, Ferdani R, Lam KS, Schwarz JK, Anderson CJ
Journal of nuclear medicine : official publication, Society of Nuclear Medicine 2012 May;53(5):779-86
Journal of nuclear medicine : official publication, Society of Nuclear Medicine 2012 May;53(5):779-86
Differential requirements for IRF-2 in generation of CD1d-independent T cells bearing NK cell receptors.
Notake T, Horisawa S, Sanjo H, Miyagawa S, Hida S, Taki S
Journal of immunology (Baltimore, Md. : 1950) 2012 May 15;188(10):4838-45
Journal of immunology (Baltimore, Md. : 1950) 2012 May 15;188(10):4838-45
Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages.
Satpathy AT, KC W, Albring JC, Edelson BT, Kretzer NM, Bhattacharya D, Murphy TL, Murphy KM
The Journal of experimental medicine 2012 Jun 4;209(6):1135-52
The Journal of experimental medicine 2012 Jun 4;209(6):1135-52
Critical role of B cell lymphoma 10 in BAFF-regulated NF-κB activation and survival of anergic B cells.
Yu M, Chen Y, He Y, Podd A, Fu G, Wright JA, Kleiman E, Khan WN, Wen R, Wang D
Journal of immunology (Baltimore, Md. : 1950) 2012 Dec 1;189(11):5185-93
Journal of immunology (Baltimore, Md. : 1950) 2012 Dec 1;189(11):5185-93
Notch, Id2, and RORγt sequentially orchestrate the fetal development of lymphoid tissue inducer cells.
Cherrier M, Sawa S, Eberl G
The Journal of experimental medicine 2012 Apr 9;209(4):729-40
The Journal of experimental medicine 2012 Apr 9;209(4):729-40
PAD4-mediated neutrophil extracellular trap formation is not required for immunity against influenza infection.
Hemmers S, Teijaro JR, Arandjelovic S, Mowen KA
PloS one 2011;6(7):e22043
PloS one 2011;6(7):e22043
Chronic IFN-γ production in mice induces anemia by reducing erythrocyte life span and inhibiting erythropoiesis through an IRF-1/PU.1 axis.
Libregts SF, Gutiérrez L, de Bruin AM, Wensveen FM, Papadopoulos P, van Ijcken W, Ozgür Z, Philipsen S, Nolte MA
Blood 2011 Sep 1;118(9):2578-88
Blood 2011 Sep 1;118(9):2578-88
The central role of CD30L/CD30 interactions in allergic rhinitis pathogenesis in mice.
Fuchiwaki T, Sun X, Fujimura K, Yamada H, Shibata K, Muta H, Podack ER, Kawauchi H, Yoshikai Y
European journal of immunology 2011 Oct;41(10):2947-54
European journal of immunology 2011 Oct;41(10):2947-54
Defective hematopoietic stem cell and lymphoid progenitor development in the Ts65Dn mouse model of Down syndrome: potential role of oxidative stress.
Lorenzo LP, Chen H, Shatynski KE, Clark S, Yuan R, Harrison DE, Yarowsky PJ, Williams MS
Antioxidants & redox signaling 2011 Oct 15;15(8):2083-94
Antioxidants & redox signaling 2011 Oct 15;15(8):2083-94
IL-1β and TNFα-initiated IL-6-STAT3 pathway is critical in mediating inflammatory cytokines and RANKL expression in inflammatory arthritis.
Mori T, Miyamoto T, Yoshida H, Asakawa M, Kawasumi M, Kobayashi T, Morioka H, Chiba K, Toyama Y, Yoshimura A
International immunology 2011 Nov;23(11):701-12
International immunology 2011 Nov;23(11):701-12
Online nanoflow multidimensional fractionation for high efficiency phosphopeptide analysis.
Ficarro SB, Zhang Y, Carrasco-Alfonso MJ, Garg B, Adelmant G, Webber JT, Luckey CJ, Marto JA
Molecular & cellular proteomics : MCP 2011 Nov;10(11):O111.011064
Molecular & cellular proteomics : MCP 2011 Nov;10(11):O111.011064
Transcription factor Smad-independent T helper 17 cell induction by transforming-growth factor-β is mediated by suppression of eomesodermin.
Ichiyama K, Sekiya T, Inoue N, Tamiya T, Kashiwagi I, Kimura A, Morita R, Muto G, Shichita T, Takahashi R, Yoshimura A
Immunity 2011 May 27;34(5):741-54
Immunity 2011 May 27;34(5):741-54
Hepatic stellate cells function as regulatory bystanders.
Ichikawa S, Mucida D, Tyznik AJ, Kronenberg M, Cheroutre H
Journal of immunology (Baltimore, Md. : 1950) 2011 May 15;186(10):5549-55
Journal of immunology (Baltimore, Md. : 1950) 2011 May 15;186(10):5549-55
Activation of the aryl hydrocarbon receptor during pregnancy in the mouse alters mammary development through direct effects on stromal and epithelial tissues.
Lew BJ, Manickam R, Lawrence BP
Biology of reproduction 2011 Jun;84(6):1094-102
Biology of reproduction 2011 Jun;84(6):1094-102
Involvement of twisted gastrulation in T cell-independent plasma cell production.
Tsalavos S, Segklia K, Passa O, Petryk A, O'Connor MB, Graf D
Journal of immunology (Baltimore, Md. : 1950) 2011 Jun 15;186(12):6860-70
Journal of immunology (Baltimore, Md. : 1950) 2011 Jun 15;186(12):6860-70
Cellular competition independent of BAFF/B lymphocyte stimulator results in low frequency of an autoreactive clonotype in mature polyclonal B cell compartments.
Nikbakht N, Migone TS, Ward CP, Manser T
Journal of immunology (Baltimore, Md. : 1950) 2011 Jul 1;187(1):37-46
Journal of immunology (Baltimore, Md. : 1950) 2011 Jul 1;187(1):37-46
Nuclear export of the NF-κB inhibitor IκBα is required for proper B cell and secondary lymphoid tissue formation.
Wuerzberger-Davis SM, Chen Y, Yang DT, Kearns JD, Bates PW, Lynch C, Ladell NC, Yu M, Podd A, Zeng H, Huang TT, Wen R, Hoffmann A, Wang D, Miyamoto S
Immunity 2011 Feb 25;34(2):188-200
Immunity 2011 Feb 25;34(2):188-200
Emergency granulopoiesis promotes neutrophil-dendritic cell encounters that prevent mouse lung allograft acceptance.
Kreisel D, Sugimoto S, Zhu J, Nava R, Li W, Okazaki M, Yamamoto S, Ibrahim M, Huang HJ, Toth KA, Ritter JH, Krupnick AS, Miller MJ, Gelman AE
Blood 2011 Dec 1;118(23):6172-82
Blood 2011 Dec 1;118(23):6172-82
Abrogation of CD30 and OX40 signals prevents autoimmune disease in FoxP3-deficient mice.
Gaspal F, Withers D, Saini M, Bekiaris V, McConnell FM, White A, Khan M, Yagita H, Walker LS, Anderson G, Lane PJ
The Journal of experimental medicine 2011 Aug 1;208(8):1579-84
The Journal of experimental medicine 2011 Aug 1;208(8):1579-84
Impaired apoptotic cell clearance in the germinal center by Mer-deficient tingible body macrophages leads to enhanced antibody-forming cell and germinal center responses.
Rahman ZS, Shao WH, Khan TN, Zhen Y, Cohen PL
Journal of immunology (Baltimore, Md. : 1950) 2010 Nov 15;185(10):5859-68
Journal of immunology (Baltimore, Md. : 1950) 2010 Nov 15;185(10):5859-68
Dendritic cell (DC)-specific targeting reveals Stat3 as a negative regulator of DC function.
Melillo JA, Song L, Bhagat G, Blazquez AB, Plumlee CR, Lee C, Berin C, Reizis B, Schindler C
Journal of immunology (Baltimore, Md. : 1950) 2010 Mar 1;184(5):2638-45
Journal of immunology (Baltimore, Md. : 1950) 2010 Mar 1;184(5):2638-45
The sensing of environmental stimuli by follicular dendritic cells promotes immunoglobulin A generation in the gut.
Suzuki K, Maruya M, Kawamoto S, Sitnik K, Kitamura H, Agace WW, Fagarasan S
Immunity 2010 Jul 23;33(1):71-83
Immunity 2010 Jul 23;33(1):71-83
Deletion of the RNA-binding proteins ZFP36L1 and ZFP36L2 leads to perturbed thymic development and T lymphoblastic leukemia.
Hodson DJ, Janas ML, Galloway A, Bell SE, Andrews S, Li CM, Pannell R, Siebel CW, MacDonald HR, De Keersmaecker K, Ferrando AA, Grutz G, Turner M
Nature immunology 2010 Aug;11(8):717-24
Nature immunology 2010 Aug;11(8):717-24
Peripheral CD103+ dendritic cells form a unified subset developmentally related to CD8alpha+ conventional dendritic cells.
Edelson BT, KC W, Juang R, Kohyama M, Benoit LA, Klekotka PA, Moon C, Albring JC, Ise W, Michael DG, Bhattacharya D, Stappenbeck TS, Holtzman MJ, Sung SS, Murphy TL, Hildner K, Murphy KM
The Journal of experimental medicine 2010 Apr 12;207(4):823-36
The Journal of experimental medicine 2010 Apr 12;207(4):823-36
Mucosal addressin cell-adhesion molecule-1 controls plasma-cell migration and function in the small intestine of mice.
Schippers A, Leuker C, Pabst O, Kochut A, Prochnow B, Gruber AD, Leung E, Krissansen GW, Wagner N, Müller W
Gastroenterology 2009 Sep;137(3):924-33
Gastroenterology 2009 Sep;137(3):924-33
The transcription factors STAT5A/B regulate GM-CSF-mediated granulopoiesis.
Kimura A, Rieger MA, Simone JM, Chen W, Wickre MC, Zhu BM, Hoppe PS, O'Shea JJ, Schroeder T, Hennighausen L
Blood 2009 Nov 19;114(21):4721-8
Blood 2009 Nov 19;114(21):4721-8
A critical role of TAK1 in B-cell receptor-mediated nuclear factor kappaB activation.
Schuman J, Chen Y, Podd A, Yu M, Liu HH, Wen R, Chen ZJ, Wang D
Blood 2009 May 7;113(19):4566-74
Blood 2009 May 7;113(19):4566-74
Inflammation recapitulates the ontogeny of lymphoid stromal cells.
Peduto L, Dulauroy S, Lochner M, Späth GF, Morales MA, Cumano A, Eberl G
Journal of immunology (Baltimore, Md. : 1950) 2009 May 1;182(9):5789-99
Journal of immunology (Baltimore, Md. : 1950) 2009 May 1;182(9):5789-99
Lymphoid-tissue-specific homing of bone-marrow-derived dendritic cells.
Creusot RJ, Yaghoubi SS, Chang P, Chia J, Contag CH, Gambhir SS, Fathman CG
Blood 2009 Jun 25;113(26):6638-47
Blood 2009 Jun 25;113(26):6638-47
Enhanced development of CD4+ gammadelta T cells in the absence of Itk results in elevated IgE production.
Qi Q, Xia M, Hu J, Hicks E, Iyer A, Xiong N, August A
Blood 2009 Jul 16;114(3):564-71
Blood 2009 Jul 16;114(3):564-71
Oncogenic Kras-induced leukemogeneis: hematopoietic stem cells as the initial target and lineage-specific progenitors as the potential targets for final leukemic transformation.
Zhang J, Wang J, Liu Y, Sidik H, Young KH, Lodish HF, Fleming MD
Blood 2009 Feb 5;113(6):1304-14
Blood 2009 Feb 5;113(6):1304-14
E47 controls the developmental integrity and cell cycle quiescence of multipotential hematopoietic progenitors.
Yang Q, Kardava L, St Leger A, Martincic K, Varnum-Finney B, Bernstein ID, Milcarek C, Borghesi L
Journal of immunology (Baltimore, Md. : 1950) 2008 Nov 1;181(9):5885-94
Journal of immunology (Baltimore, Md. : 1950) 2008 Nov 1;181(9):5885-94
E47 controls the developmental integrity and cell cycle quiescence of multipotential hematopoietic progenitors.
Yang Q, Kardava L, St Leger A, Martincic K, Varnum-Finney B, Bernstein ID, Milcarek C, Borghesi L
Journal of immunology (Baltimore, Md. : 1950) 2008 Nov 1;181(9):5885-94
Journal of immunology (Baltimore, Md. : 1950) 2008 Nov 1;181(9):5885-94
Evidence that CD8+ dendritic cells enable the development of gammadelta T cells that modulate airway hyperresponsiveness.
Cook L, Miyahara N, Jin N, Wands JM, Taube C, Roark CL, Potter TA, Gelfand EW, O'Brien RL, Born WK
Journal of immunology (Baltimore, Md. : 1950) 2008 Jul 1;181(1):309-19
Journal of immunology (Baltimore, Md. : 1950) 2008 Jul 1;181(1):309-19
Evidence that CD8+ dendritic cells enable the development of gammadelta T cells that modulate airway hyperresponsiveness.
Cook L, Miyahara N, Jin N, Wands JM, Taube C, Roark CL, Potter TA, Gelfand EW, O'Brien RL, Born WK
Journal of immunology (Baltimore, Md. : 1950) 2008 Jul 1;181(1):309-19
Journal of immunology (Baltimore, Md. : 1950) 2008 Jul 1;181(1):309-19
Requirement for lymphoid tissue-inducer cells in isolated follicle formation and T cell-independent immunoglobulin A generation in the gut.
Tsuji M, Suzuki K, Kitamura H, Maruya M, Kinoshita K, Ivanov II, Itoh K, Littman DR, Fagarasan S
Immunity 2008 Aug 15;29(2):261-71
Immunity 2008 Aug 15;29(2):261-71
Vaccinia virus infection modulates the hematopoietic cell compartments in the bone marrow.
Singh P, Yao Y, Weliver A, Broxmeyer HE, Hong SC, Chang CH
Stem cells (Dayton, Ohio) 2008 Apr;26(4):1009-16
Stem cells (Dayton, Ohio) 2008 Apr;26(4):1009-16
p27 deficiency cooperates with Bcl-2 but not Bax to promote T-cell lymphoma.
Cheng N, van de Wetering CI, Knudson CM
PloS one 2008 Apr 2;3(4):e1911
PloS one 2008 Apr 2;3(4):e1911
Phospholipase Cgamma2 contributes to light-chain gene activation and receptor editing.
Bai L, Chen Y, He Y, Dai X, Lin X, Wen R, Wang D
Molecular and cellular biology 2007 Sep;27(17):5957-67
Molecular and cellular biology 2007 Sep;27(17):5957-67
Immature hematopoietic cells display selective requirements for adhesion- and degranulation-promoting adaptor protein in development and homeostatsis.
Dluzniewska J, Zou L, Harmon IR, Ellingson MT, Peterson EJ
European journal of immunology 2007 Nov;37(11):3208-19
European journal of immunology 2007 Nov;37(11):3208-19
Msx2-interacting nuclear target protein (Mint) deficiency reveals negative regulation of early thymocyte differentiation by Notch/RBP-J signaling.
Tsuji M, Shinkura R, Kuroda K, Yabe D, Honjo T
Proceedings of the National Academy of Sciences of the United States of America 2007 Jan 30;104(5):1610-5
Proceedings of the National Academy of Sciences of the United States of America 2007 Jan 30;104(5):1610-5
Essential role of phospholipase C gamma 2 in early B-cell development and Myc-mediated lymphomagenesis.
Wen R, Chen Y, Bai L, Fu G, Schuman J, Dai X, Zeng H, Yang C, Stephan RP, Cleveland JL, Wang D
Molecular and cellular biology 2006 Dec;26(24):9364-76
Molecular and cellular biology 2006 Dec;26(24):9364-76
A role for brain-derived neurotrophic factor in B cell development.
Schuhmann B, Dietrich A, Sel S, Hahn C, Klingenspor M, Lommatzsch M, Gudermann T, Braun A, Renz H, Nockher WA
Journal of neuroimmunology 2005 Jun;163(1-2):15-23
Journal of neuroimmunology 2005 Jun;163(1-2):15-23
Basophils play a critical role in the development of IgE-mediated chronic allergic inflammation independently of T cells and mast cells.
Mukai K, Matsuoka K, Taya C, Suzuki H, Yokozeki H, Nishioka K, Hirokawa K, Etori M, Yamashita M, Kubota T, Minegishi Y, Yonekawa H, Karasuyama H
Immunity 2005 Aug;23(2):191-202
Immunity 2005 Aug;23(2):191-202
Impaired immune responses and B-cell proliferation in mice lacking the Id3 gene.
Pan L, Sato S, Frederick JP, Sun XH, Zhuang Y
Molecular and cellular biology 1999 Sep;19(9):5969-80
Molecular and cellular biology 1999 Sep;19(9):5969-80
Identification of monoclonal antibodies for immunohistochemical staining of feline B lymphocytes in frozen and formalin-fixed paraffin-embedded tissues.
Monteith CE, Chelack BJ, Davis WC, Haines DM
Canadian journal of veterinary research = Revue canadienne de recherche veterinaire 1996 Jul;60(3):193-8
Canadian journal of veterinary research = Revue canadienne de recherche veterinaire 1996 Jul;60(3):193-8
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- Staining of BALB/c splenocytes with 0.06 µg of Rat IgG2a kappa Isotype Control Biotin (Product # 13-4321-82) (open histogram) or 0.06 µg of Anti-Human/Mouse CD45R (B220) Biotin (filled histogram) followed by Streptavidin PE (Product # 12-4317-87). Total viable cells were used for analysis.
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- Figure 4 Double immunofluorescence localisation of B220 (Green) and NF-kappaB p65 (Red) in HCV-Tg mice and the fractionation analysis of mouse tissues. A : Co-localisation of NF-kappaB p65 immunoreactivity with B220 is indicated by arrows. (a-b) Cells double-positive for B220 and NF-kappaB in the control mouse (CD19cre). (c-d) Cells double-positive for B220 and NF-kappaB in the asymptomatic HCV-Tg mouse (RzCD19cre). (e-f) Cells double-positive for B220 and NF-kappaB in the lymphomatous HCV-Tg mouse (RzCD19cre). B : Quantitative analysis of the ratio of double-positive cells among B220-positive cells in each HCV-Tg mouse. Bar graph indicates the percentage of cells with NF-kappaB p65 nuclear translocation in B220-positive cells. C : Bar graph shows the ratio of double-positive cells within the B220-positive cells in normal, asymptomatic and lymphomatous HCV-Tg mice. Ho: Hoechst33342 Data are presented as means +- S.E., * P
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- Figure 7 Marginal zone B cell regions were narrowed in Ziz2 KO mice. (A) Spleen sections were stained with anti-B220 (Red) and anti-CD169 (Green) antibodies for the MZ B cell region (B220-positive region outside CD169-positive cells). All mice were 10 weeks old. Scale bars: 100 mum. (B) MZ B cell regions were narrower in Ziz2 and Ziz3 KO mice than in wild type mice. (C) The proliferative activity of MZ B cells in response to LPS was not altered in both KO mice. Three mice per group were used. Data from three independent experiments (one mouse per group per experiment was used) were summarized. (D) The migratory activity of MZ B cells was analyzed using a transwell and flow cytometry. Activity against BLC or SDF1 (SDF) was not altered in both KO mice. Four mice per group were used. Each plot indicates data from one mouse. Data from four independent experiments (one mouse per group per experiment was used) were summarized. 2KO: Ziz2 KO. 3KO: Ziz3 KO. ***: P < 0.0001.
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- Figure 3 GPR183 and 7alpha,25-OHC Promote ILC3 Localization to CPs and ILFs (A) Distribution of Gpr183 +/+ and Gpr183 -deficient hematopoietic cells in the colon of mixed bone marrow chimeras. Bone marrow cells from Gpr183 +/+ or Gpr183 -/- mice (CD45.2 + ) were mixed 9:1 with B6 cells (CD45.1 + ) and injected into irradiated Rag1 -/- recipients (CD45.1 + ) for the generation of bone marrow chimeras. Sections were stained for detection of Gpr183 +/+ and Gpr183 -/- cells (CD45.2, red) or B6 cells (CD45.1, green). Nuclei were visualized by DAPI staining (blue). Scale bars on the right (white) represent 100 mum. (B) Distribution of Gpr183 +/+ and Gpr183 -deficient ILCs in the colon of mixed bone marrow chimeras. Bone marrow cells from Gpr183 +/+ or Gpr183 -/- mice (CD90.2 + ) were mixed 9:1 with B6 cells (CD90.1 + ) and injected into irradiated B6 recipients (CD90.1 + ) for the generation of bone marrow chimeras. Colon sections were stained for detection of Gpr183 +/+ and Gpr183 -/- (CD90.2, red) or B6 (CD90.1, green) ILCs. Scale bars (red) represent 100 mum. The lower panel shows the number of clusters in Gpr183 +/+ -B6 and Gpr183 -/- -B6 chimeras consisting of CD90.2 + (red) or CD90.1 + (green) ILCs. Data are represented as means +- SEM. p value by two-way ANOVA. (C and D) Distribution of donor-derived ILC3s (RORgammat-GFP + , green) in the colon (C) and small intestine (D) of bone marrow chimeras. Bone marrow cells from Rag1 -deficient Rorc(gamma
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- Figure 3. Localization of intestinal IgD + B Cells. (A) Representative photomicrographs of small intestinal sections stained with DAPI- and fluorophore-conjugated Ab for IgD (FITC), IgA (PE), and B220 (APC) as indicated from GF ( n = 4) and conventionalized SW littermates (Col, n = 4). Photomicrographs shown are representative of one of two independent experiments. (B) Dot plot showing the number of LP IgA + cells and IgD + B220 + cells per high power field (200x) per GF ( n = 4; 10 fields/mouse) and conventionalized SW littermates (Col; n = 4; 11 fields/mouse) described as in A. (C) Dot plots showing the perpendicular distance (see Materials and methods) between individual LP IgA + cells ( n = 85 for GF; n = 971 for Col), IgD + B220 + cells ( n = 59 for GF; n = 108 for Col), and the serosal surface from GF ( n = 4) and colonized SW littermates (Col, n = 4) described as in A. (D) Representative photomicrographs of small intestinal sections stained as in A from SPF SW mice at the age of postnatal day 21 ( n = 3), 42 ( n = 3), and 120 ( n = 3). Negative control uMT mice ( n = 2) are also shown. White arrows indicate IgD + B220 + cells. Bars, 60 um. Photomicrographs are representative images from one of three independent experiments for each time point and two independent experiments for uMT mice. (E) Dot plot showing the number of IgA + cells and IgD + B220 + cells per high power field (200x) from SPF SW mice and uMT mice described as
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- Fig. 1 Gdpd3 is implicated in CML disease initiation in vivo. a Diagram of pathways of lysophospholipid biosynthesis. G3P is converted into LPAs, and LPAs are then converted into phospholipids by the addition of polar bases via the Kennedy (de novo) pathway. The Lands'' cycle (remodelling pathway) generates lysophospholipids of distinct composition by substituting fatty acid ester and polar base groups of phospholipids. Lysophospholipase D Gdpd3 converts lysophospholipids back into LPAs by catalysing hydrolysis (magenta dotted line). (PC Phosphatidylcholine, PS Phosphatidylserine, PE Phosphatidylethanolamine, PI Phosphatidylinositol, LPC Lysophosphatidylcholine, LPS Lysophosphatidylserine, LPE Lysophosphatidylethanolamine, LPI Lysophosphatidylinositol). b qRT-PCR determination of Gdpd3 mRNA expression in LT-stem (LT), CD48, MPP, and LK cells (see Supplementary Fig.2) isolated from Gdpd3 +/+ tet-CML-affected (SCL-tTA + TRE-BCR-ABL1 + ) mice (one male, six females) or normal littermate (SCL-tTA + ) mice (four males, four females). Data are the mean ratio +- s.d. of transcript levels normalised to Actb ( n = 3 biologically independent samples) ( P -value, unpaired two-sided Student''s t -test). c Quantitation of the colony-forming capacity of Gdpd3 +/+ CML-LSK cells that were transduced with/without Cy3-labelled siRNA targetting mouse Gdpd3 mRNA (mGdpd3 siRNA #1 or #3). Cy3 + and Cy3 - CML-LSK cells were purified at 3 days post-transduction and plated in semi-solid methylcellulo
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- Fig. 7 Lgr4/Gpr48 is involved in CML stem cell self-renewal in vivo. a RNA-Seq determinations of mRNA levels of the indicated GPCR family genes in LT-CML stem cells isolated from Gdpd3 +/+ tet-CML-affected mice (22 males, 12 females) and Gdpd3 -/- tet-CML-affected mice (five males, five females). Results are expressed as FPKM (see Methods). Data are the mean FPKM +- s.d. ( n = 3 biologically independent samples) ( P -value, unpaired two-sided Student''s t -test). Results of the MA-plot and GO term enrichment analyses for these RNA-Seq data are shown in Supplementary Fig. 11a, b . b Quantitation of the colony-forming capacity of Gdpd3 +/+ CML-LSK cells that were transduced with/without Cy3-labelled siRNA targetting mouse Lgr4/Gpr48 mRNA (mLgr4 #3 or Lgr4 #4). Cy3 + and Cy3 - CML-LSK cells were purified at 3 days post-transduction and plated in a semi-solid methylcellulose medium. Data are the mean colony number +- s.d. ( n = 3) and are representative of three biologically independent experiments. ( P -value compared with control, unpaired two-sided Student''s t -test). The relevant FACS data are shown in Supplementary Fig. 12 . c Absolute numbers of LT-CML stem cells isolated from BM of the two hind limbs of Lgr4 +/+ tet-CML-affected mice (four males, one female) and Lgr4 Gt/Gt tet-CML-affected mice (five females) ( n = 5 biologically independent samples). Data are the mean absolute numbers +- s.d. of LT-CML stem cells ( P -value, unpaired two-sided Student''s t -test). (See S
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- Figure 4 Lung leukocyte infiltration during influenza infection is comparable between PAD4 WT and KO mice. Experimental setup as described in Figure 2 . (A-C) Five mice per group were analyzed at d3 or d7 post infection. Leukocytes were isolated from infected lungs. (A) Total cell numbers of lung-infiltrating leukocytes at d3 and d7 p.i. Each symbol represents an individual mouse, filled squares represent PAD4 WT, open squares depict PAD4 KO mice. (B+C) The subsets of infiltrating leukocytes were enumerated by flow cytometry both at d3 p.i. (B) and d7 p.i. (C). Gated populations are indicated at the bottom of the graph. Total numbers of infiltrating cells are shown. WT mice are depicted in white bars, KO mice as grey bars. Bars represent mean + SEM. (D) Lungs for histological examination were harvested at d8 p.i. (5 mice/group). Leukocyte infiltration was assessed on H&E stained paraffin sections. Sections from two representative mice per group are shown. The scale bar indicates 200 um. Data is representative of two independent experiments.
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- Fig. 4 Analysis of B cell development in bone marrow and spleen. A. FACS analysis of BM B cells. BM cells from WT and RhoF KO mice (6-7 weeks old, n = 5, male: 40%) were stained with antibodies against CD43, B220, BP1, and CD24 and analyzed by flow cytometry. The number shows the percentage (mean +- standard deviation) of the indicated subpopulation within the parent population; Fraction A (germline pro-B cells), fraction B (DJ-rearranged pro-B cells), fraction C (Early pre-B cells), fraction D (Late pre-B cells), fraction E (newly formed B cells), and fraction F (follicular-type recirculating B cells). The figures are representatives of three independent experiments. B. FACS analysis of B cells from the spleen. Splenocytes from WT and RhoF KO mice (6-7 weeks old, n = 6, male: 33%) were stained with antibodies against CD23, CD21, and IgM and analyzed by flow cytometry. The number shows the percentage (mean +- standard deviation) of the indicated subpopulation within the parent population; T1 (Transitional 1), T2 (Transitional 2), Fo (mature follicular B cells), and MZ (MZ B cells). C. The number of B cell subsets in BM was calculated by multiplying the total number of viable (trypan blue negative) BM cells by the fraction of the target population in viable (7AAD negative) cells. The data are shown as mean +- standard deviation (6-7 weeks old, n = 5, male: 40%). White bars: WT. Black bars: RhoF KO. D. The number of B cell subsets in the spleen was also calculated by multiplyin
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- Figure 2 Loss of Gata5 from renal endothelial cells leads to renal alterations. ( a ) GATA5 is expressed in the kidney as assessed by western blot performed on total kidney extracts. ( b ) Gata5 is essentially expressed in the glomeruli as assessed by qPCR on isolated glomeruli (Glo) and microdissected tubules (Tub) from Wt mice kidneys. ( n =3-5 per group). The results are reported as mean+-s.e.m. * P
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- Figure 5 NG2-cre, but not NG2-cre ERTM , targeted cells are the source of Scf in the bone marrow (a) Whole-mount sternum from NG2-cre/ iTdTomato/ Scf-GFP mice, anti-VE-cadherin. Representative images from 3 mice. Scale bars, 20 mum. (b) Representative FACS plot showing percentage of NG2-cre/ iTdTomato + cells within CD45 - TER119 - CD31 - Scf-GFP + cells. n=3 mice. (c-e) Analyses of LepR-cre/ Scf fl/- mice. (c) Numbers of HSCs (left) in BM and LSK cells in spleen (right). n=4 mice for cre (-), n=3 mice for cre (+). (d) FACS analyses of HSC (CD150 + CD48 - LSK) cell cycle with Ki-67 and Hoechst 33342 staining. n=5 mice for cre (-), n=6 mice for cre (+). (e) HSC localization relative to arterioles. Error bars: n=3 mice. P value has been calculated using n=272 HSCs for cre (-), 293 HSCs for cre (+) pooled from 3 mice per group. P =0.3402. (f-i) Analyses of NG2-cre/ Scf fl/- mice. (f) Numbers of total BM cells (left) and CD150 + CD48 - LSK HSCs (right) in BM. n=5 mice for cre (-), n=7 mice for cre (+). (g) Percentages of donor-derived cells after competitive reconstitution. n=5 mice for cre (-), n=7 mice for cre (+). (h) FACS analyses of HSC cell cycle with Ki-67 and Hoechst 33342 staining. n=6 mice for cre (-), n=7 mice for cre (+). (i) HSC localization relative to arterioles. Error bars: n=3 mice. P value has been calculated using n=224 HSCs for cre (-), 274 HSCs for cre (+) pooled from 3 mice per group. P =0.2872. (j-l) Analyses of NG2-cre ERTM / Scf fl/- mice. (j) Absolute nu
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- Figure 2 Splenic T cell hyperplasia and T cell size in p27 -/- Lck-Bcl-2 mice. A) Total splenic cells from mice of the indicated genotypes were isolated and stained with anti-B220-PE and anti-CD3-FITC antibodies as described in the Materials and Methods . The percentage of CD3-positive cells and the total number of splenic T cells (total # of splenic cells X %CD3) is shown. The data are representative of at least three mice from each genotype. B) The Mean Forward Scatter of CD3 positive splenic T cells was determined by staining with an anti-CD3 antibody as described in the Materials and Methods . The Mean+-SD of at least 5 mice is shown for the genotypes indicated. * P
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- Figure 7. NOX2 and FOXC1 Are Important for the Growth of Primary Human Myeloid Leukemia Cells (A) The Cancer Genome Atlas (TCGA) database for AML was used to analyze the expression levels of several NADPH-dependent oxidases (NOX1-NOX5), accessory subunits (NCF1, NCF2, NCF4, NOXA1, NOXO1, p22Phox, RAC1, and RAC2) as well as related oxido-reductase enzymes (dual-oxidases 1,2, A2). The reads per kilobase of transcript per million mapped reads (RPKM) values for each gene in a total of 188 AMLs are shown. (B) RNA-seq analysis was performed on functionally validated leukemic stem cells isolated from human primary AMLs. The RPKM value for each gene is shown. Unpublished data are used with permission. Additional supporting data are shown in Figure S7A . (C) Equal numbers of control or shNOX2-transduced primary AML cells were cultured in vitro in the presence of 10 ng/mL of IL-3, SCF, and FL3, and the relative percent expansion is reported for each specimen. n = 3, mean +- SD. *p < 0.05; **p < 0.01. (D) Control and shNOX2 primary AML cells were purified and cultured in vitro for 12 days. Annexin V, DAPI staining was performed to evaluate the degree of apoptotic cell death. A representative flow plot (left) and quantitation of 3 technical triplicates (right) are shown. Additional data are shown in Figure S7B . (E) The relative expression level of NOX2 , CEBP epsilon, Elane , and CTSG is shown in AML specimens in which NOX2 was knocked down using shRNAs. Additional supporting data are p
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- Figure 6 The characterization of Il-2 producers regulated by FX and TAC. FX stimulated Il-2 production in CD45R + CD25 + ILCregs. Some Il-2 + CD45R + CD25 + ILCregs were observed in TAC treated skin and others were CD45R - CD25 - cells. The panel is focused on the dermis.
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- Fig. 4. Macrophage-derived MCPIP1 regulates B-lymphocyte expansion in lymphoid organs. (A-D) Spleen sections were stained with anti-mouse IRF4, BLIMP1, CD95 and B220 antibodies and quantified by Adobe Photoshop software as percentage of positively stained high-power field (HPF) from eight mice per group; *** P
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- Fig. 1 Ubiquitous miR-210 over-expression attenuates the inflammatory response after hindlimb ischemia. A Representative immunofluorescence staining for CD45 (green), a common leukocyte marker expressed in all nucleated hematopoietic cells, of gastrocnemius muscle sections of Wt and Tg-210 mice, 7 days after ischemia. Nuclei were stained by Hoechst (blue). Images are presented as merge. Magnification x400. Calibration bar 50 um. B Quantification of CD45-positive cells/mm 2 ( n = 5, test T * P < 0.03). C Representative immunofluorescence staining for F4/80 (green), a pan-macrophage marker, in gastrocnemius muscle sections of Wt, and Tg-210 mice, 7 days after ischemia. Nuclei were stained by Hoechst (Blue). Images are presented as merge. Magnification 63 x 0.5. Calibration bar 50 um. D Quantification of F4/80-positive macrophages/mm 2 ( n = 6-7, ** P < 0.009). In both A , C insets show magnification of the indicated areas.
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- Figure 6 Assessments of organ damage and mouse metabolites during HLSA or recovery from HLSA. A , upper left panel , MMP-1, IL-1beta, and CRP levels in plasma had no significant change between the control group, HLSA group, and R-HLSA group. Upper right panel , CK-MB as a marker of heart injury in the plasma had no significant change between the control group, HLSA group, and R-HLSA group. Lower left panel , creatinine and BUN as markers of kidney injury in the plasma slightly increased in the HLSA group and returned to normal level after recovery from HLSA. Lower right panel , AST and ALT as markers of liver injury in the plasma showed no change between the control group, HLSA group, and R-HLSA group. Data were presented as mean +- SD (N = 6; ANOVA: ** p < 0.01). B , upper panel , food consumption and water consumption 3 days before and 3 days after a single ATP-induced HLSA depicted no change. Data were presented as mean +- SD (N = 6; ANOVA: p > 0.05). Lower panel , metabolomics analysis of scores plot from PCA analysis based on 1 H NMR data from the plasma, brain, liver, and kidney of the control group, HLSA group, and R-HLSA group. The PCA score showcased clusters correspond to metabolic patterns in different groups, with each point representing one sample. Circles represent 95% confidence interval for each score in each group (see also Figs. S5-S8 ). C , draining lymph nodes of mice that underwent HLSA once a day for 10 consecutive days were analyzed with FACS. CD44 and
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- Figure 5 CD4 surface expression of CD45RB and global glycosylation are altered in SLE123 mice. ( A and B ) Cell surface expression of CD45RB and total CD45 were measured by flow cytometry on CD4 + T cells. SLE123 demonstrated a downregulation of CD45RB on the cell surface as compared with B6 CD4 + T cells. There was no difference in pan-CD45 expression. Quantified in B . ( C ) CD45 is composed of an intracellular region that controls cytoskeletal binding and its phosphatase activity. The extracellular domain is composed of a region with fibronectin repeats that is heavily N-glycosylated. An alternatively spliced region is heavily O-glycosylated, and this region imparts unique functions to each CD45 isoform. Additionally, a sialic acid residue on the B portion of this region is essential for the binding of therapeutic aCD45RB. ( D and E ) We utilized lectins to detect the level of alpha-2,3-linked sialylation (MALII), O-linked glycosylation (Jacalin), and N-linked glycosylation (PHA-L) in CD4 + T cells from B6 and SLE123 mice. We determined SLE123 CD4 + T cells had reduced levels of alpha-2,3-linked sialic acids and O-glycosylation and an increase in N-glycosylation. Quantified in E . ( F ) Utilizing an antibody that detects a desialylated form of anti-CD45RB, we determined SLE123 CD4 + T cells possessed increased binding of this antibody compared with B6. ( G and H ) To determine the binding of therapeutic aCD45RB to B6 and SLE123 CD4 + T cells, we incubated splenocytes from
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- Figure 2. pIgR -/- mice spontaneously develop COPD-like lung pathology and adaptive immune activation. ( A ) Representative image of emphysema in an 18-month-old pIgR -/- and age-matched WT mouse (hematoxylin and eosin, scale bar = 50 mum). ( B ) Measurement of mean linear intercept (MLI), a morphometric measurement of emphysema, in WT and pIgR -/- mice at the indicated ages. ( C ) Representative image of small airway wall thickening in an 18-month-old pIgR -/- and age-matched WT mouse (Masson's trichrome, scale bar = 50 mum). ( D ) Measurement of VV airway , a morphometric measurement of small airway wall thickness, in WT and pIgR -/- mice at the indicated ages. ( E ) Example of a tertiary lymphoid structure (TLS) in an 18-month-old pIgR -/- mouse as indicated by immunostaining for B220. Scale bar = 50 mum. ( F ) Morphometric analysis of TLS area in lungs of WT or pIgR -/- mice at the indicated ages. ( G-J ) Quantification of total, CD45 + , CD19 + , CD3 + , CD4 + , and CD8 + cells in the lungs of 18-month-old WT and pIgR -/- mice by flow cytometry. ( B and D ) * = p
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- Fig. 7 Upregulation of PD-L1 by MTHFD2 is required for tumorigenesis. a - b A total of 2 x 10 6 ( a ) or 5 x 10 6 ( b ) Pan02 cells stably infected with lentivirus carrying indicated shRNAs or exogenous expressed PD-L1, were subcutaneously injected into athymic nude mice ( a ) or C57 mice ( b ), tumor volume was calculated every 7 days. Tumor xenografts at the 28th day in nude mice ( a ) or the 21th day in C57 mice ( b ) were shown. Data represent the means +- s.e.m ( n = 8 mice per group); p value (Student's t test, two-sided) with control is presented. c , PD-L1 mRNA levels in tumor tissues in C57 mice were analyzed by real-time PCR. The values are presented as mean +- s.e.m ( n = 3); p values (Student's t test, two-sided) with control or the indicated groups are presented. d The lysates of 8 pooled tumor tissues in C57 mice were subjected to immunoblotting analyses using the indicated antibodies. e Immunohistochemical staining was performed on tumor sections in C57 mice with anti-CD8 antibody. Representative images are shown. Scale bars, 50 mum. Histological semi-quantification was performed. f Cells digested from indicate tumor tissues in C57 mice were stained with anti-CD45 antibody and subjected to flow cytometric analyses (also see Supplementary Fig. 7b ). Representative images (1 out of 3 experiments) are shown. g A schematic model showing the role of MTHFD2 in tumor immune evasion. MTHFD2 promotes PD-L1 mediated tumor immune evasion through the folate-cycle-UTP-UDP-G
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- Figure 6 Colonic innate and adaptive immune cell responses following peroral C. coli infection of human microbiota-associated TLR4-deficient IL10 -/- mice. IL10 -/- mice (open symbols) and TLR4-deficient IL10 -/- mice (TLR4 -/- IL10 -/- ; closed symbols) with a human gut microbiota were either perorally infected with C. coli (circles) or received vehicle (mock; diamonds) on days 0 and 1 by gavage. Upon necropsy on day 21 post-infection, the average counts of ( A ) macrophages and monocytes (F4/80 + ), ( B ) T lymphocytes (CD3 + ), ( C ) regulatory T cells (FOXP3+) and ( D ) B lymphocytes (B220+) were microscopically determined in six high power fields (HPF, 400 times magnification) per mouse in immunohistochemically stained colonic paraffin sections. Medians (black bars) and numbers of examined mice (in parentheses), as well as levels of significance ( p -values) determined by the one-way ANOVA test and Tukey's post-correction or the Kruskal-Wallis test and Dunn's post-correction, are shown. Data were pooled from three independent experiments.
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- Figure 6 Serum CXCL13 levels in mouse ktx. Post ktx levels of serum CXCL13 at day 1 were significantly increased compared to baseline. A higher increase was observed in longer cold ischemia time (30 vs. 60 min cold ischemia time). Isogenic ktx with prolonged cold ischemia time of 60 min had significantly lower CXCL13 levels compared to allogenic ktx (A) . PAS stain at day 7 revealed enhanced cell infiltration in allogenic compared to isogenic ktx (B) . Double staining for CD3+ T-lymphocytes (green) and CD45R+ B-cells (red) was performed at day 7. More interstitial CD3+ T-lymphocytes were observed in allografts compared to isografts. Allografts exhibited scattered B-cells in interstitial tissue, but also clusters of CD45R+ cells. Isografts showed only few B cells in the interstitium at day 7 (B) (bar: 100 mum, n = 6 per group, one-way ANOVA * p < 0.05; ** p < 0.01; *** p < 0.001). BL, baseline.
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- Figure 7 Colonic immune cell responses upon oral C. coli infection of microbiota-depleted IL-10 -/- mice that had been challenged with human or murine fecal microbiota transplantations. On days -7, -6, and -5, mice were subjected to murine (open symbols) or human (closed symbols) fecal microbiota transplantations and challenged with a C. coli patient isolate (circles) or vehicle as mock controls (diamonds) on days 0 and 1 by gavage. On day 21 post-infection, the average numbers of ( A ) macrophages and monocytes (F4/80+), ( B ) T lymphocytes (CD3+), ( C ) regulatory T cells (FOXP3+), and ( D ) B lymphocytes (B220+) were determined in the large intestinal mucosa and lamina propria out of 6 high-power fields (HPF, 400x magnification) per mouse. Medians (black bars), significance levels ( p -values calculated by the Kruskal-Wallis test and Dunn's post-correction), and total numbers of mice under investigation (in parentheses) are shown. Results from four experiments were pooled.
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- Figure 5 Innate and adaptive immune cell responses in the colon following PACAP treatment of C. jejuni infected secondary abiotic IL-10 -/- mice. Mice were perorally infected with C. jejuni strain 81-176 by gavage on day (d) 0 and d1, and subjected to intraperitoneal treatment with either synthetic PACAP or vehicle (mock) from d2 until d5 post-infection. On d6 the average numbers of ( A ) macrophages and monocytes (F4/80 + ), ( B ) T lymphocytes (CD3 + ), ( C ) regulatory T cells (FOXP3 + ) and ( D ) B lymphocytes (B220 + ) were quantitated in six high power fields (HPF) of colonic paraffin sections applying immunohistochemistry. Naive mice were used as negative controls. Box plots indicate the 75th and 25th percentiles of the median (black bar within boxes). The total range, the significance levels ( p values calculated by the one-way ANOVA test followed by the Tukey post-correction test for multiple comparisons) and the total numbers of mice under investigation (in parentheses) are indicated. Results pooled from four independent experiments are shown.
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- Figure 1 Ibrutinib promotes renal fibrosis after unilateral ureteric obstruction (UUO). ( A ) Design of the study. ( B - E ) Representatives images and quantifications of Fibronectin ( B ), Sirius Red ( C ), B220 ( D ) and F4/80 ( E ) staining in sham and UUO mice receiving ibrutinib (Ibru) or vehicle (Veh). Data are represented as means +- SEM. *p < 0.05 (Mann-Whitney test; n = 6 mice per group); ns, not significant.
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- Figure 3 Ibrutinib promotes rhabdomyolysis-induced renal fibrosis. ( A ) Design of the study. ( B ) Kaplan-Meier survival curves after glycerol injection in mice receiving ibrutinib (Ibru) or vehicle (Veh) from day 3. ( C ) Blood urea nitrogen (BUN) 20 days after glycerol injection. ( D - G ) Representatives images and quantification of Sirius Red ( D ), Fibronectin ( E ), F4/80 ( F ) and B220 ( G ) staining 20 days after glycerol injection in mice receiving ibrutinib (Ibru) or vehicle (Veh) from day 3. Values are expressed as mean +- SEM. * p < 0.05, compared with the vehicle group (Mann-Whitney test, n = 5-10 mice); ns, not significant.
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- Fig. 2 Generating immuno-CRISPR (iCR) mice and evaluating the CRISPR-mediated modifications by sequencing. ( A ) Model describing the experimental setup where CD45.1 + Lin- BM cells were modified by CRISPR targeting Zap70 and grafted into irradiated CD45.2 + recipients. ( B ) Flow cytometry analysis of cells in the blood of Zap70 iCR mice and WT control mice eight weeks post transplantation. Cells gated on viable, CD45.1+, single lymphocytes. ( C ) Quantification of B and T cells in the blood of WT and Zap70 iCR mice in (B). ( D ) Analysis of the level of mutations in the sgRNA targeted Zap70 region in the BM cells used for transplantation, total cells from the blood, as well as in B and T cells sorted from the spleen of Zap70 iCR mice and WT control mice 8 weeks after engraftment. ( E ) Model describing the experimental setup where a secondary transplantation was used to amplify the population of successfully modified mice. ( F ) Analysis of the level of mutations in the sgRNA targeted GFP region in blood cells of the GFP iCR mice four weeks after transplantation, in an experiment with low efficiency. One mouse showed good knockout efficiency (labeled in orange) and was used as BM donor for secondary transplantation. ( G ) Kinetics of the level of mutations of GFP in the secondary iCR mice. ( H ) As examples, representative flow cytometry plots and ( I ) GFP + cell population percentage of alveolar macrophages, B1 cells, neutrophils and germinal center B cells from secondary
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- Figure 4 Proof-of-mechanism study for TAX2 use as an anti-tumor immunomodulatory drug. The effects of TAX2 peptide treatment on the activation of an anti-tumor immune response were investigated in two syngeneic models of epithelial ovarian carcinoma. We inoculated 5 x 10 6 ID8 cells either subcutaneously or intraperitoneally to C57BL/6JRj mice in order to mimic primary tumor growth ( a - h ) and metastatic dissemination (peritoneal carcinosis, i - l ), respectively. TAX2 treatments (30 mg * kg -1 BW) vs. vehicle injections (0.9% NaCl) were performed thrice weekly for 4 and 8 weeks for the s.c. and i.p. ID8 models, respectively ( n = 11 per group for both models). ( a - h ) IHC staining of s.c. ovarian carcinoma allografts for the analysis of the vascular/lymphovascular features, as well as immune-cell-infiltration profile. ( a ) Representative microphotograph for CD31 immunostaining of intra-tumor vascular structures. Histogram displays results of automated quantification for the percent of CD31-positive pixels across the whole tumor section (mean +- SEM, Mann-Whitney U test; n.s., not significant). ( b ) Lymphatic vessel density analysis. Microscopic views are shown, while histogram displays the number of Lyve-1-positive functional lymphatic vessels in 5 high power fields (HPF), as determined by a pathologist who was blinded to the treatment (mean +- SEM, Mann-Whitney U test, * p < 0.05). ( c - f ) Macroscopic views (x20 magnification) of s.c. tumor allograft sections after
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- Figure 8. Increased IL-2 production impairs T follicular helper (Tfh) cell formation and the germinal centre response. Assessment of the Tfh cell and germinal centre response in Il2 cre/+ ; Rosa26 stop-flox-Il2/+ transgenic mice that do not switch off IL-2 production, and Il2 cre/+ ; Rosa26 +/+ control mice 12 days after influenza A infection. Flow cytometric contour plots ( A ) and quantification of the percentage of CXCR5 high PD-1 high Foxp3 - CD4 + Tfh cells in the mediastinal lymph node ( B ) and spleen ( C ). Flow cytometric contour plots ( D ) and quantification of the percentage of Bcl6 + Ki67 + B220 + germinal centre B cells in the mediastinal lymph node ( E ) and spleen ( F ). The height of the bars indicates the median, each symbol represents one mouse, data are pooled from two independent experiments. p-Values calculated between genotype groups by Mann-Whitney U test.
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- Fig. 2. Effect of different PVA hydrolysis rates and molecular weights on ex vivo cultured human cord blood CD34 + hematopoietic stem and progenitor cells. a , Human cord blood CD34 + cells were cultured in PVA media and cell numbers were counted at day 14. Three independent experiments were performed with cord blood CD34 + cells derived from different donors. Cell cultures were started from 7 x 10 3 (Exp.1) or 5 x 10 3 (Exp. 2 and 3) CD34 + cells. Mean +- S.D is shown. Statistical significance was calculated using ANOVA followed by Tukey-Kramer; *p < 0.05, **p < 0.01. b , Proliferation of the two different CD34 + cell fractions after 7-day culture in PVA-containing media. Fifty cells were sorted into four wells in a 96-well plate and cell numbers in each well were counted at 7-day. Statistical significance was calculated using ANOVA and Tukey-Kramer. **p < 0.01.
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- Figure 8 Establishment of adaptive immunity in the infected lungs of WT and CXCL5 -/- mice. (A) Lung lobe sections from WT and CXCL5 -/- mice were stained at 10 d.p.i. with an anti-B220 antibody and hematoxylin (x30 magnification). (B) The positively stained area (iBALT structure) in each lung lobe section was calculated using CaseViewer software (3DHISTECH). The total area of iBALT per lung section was calculated from 4 mice per group (3 lung lobe sections per mouse). (C) Lung sections were stained with anti-B220 (red) and anti-CD4 (yellow) antibodies for immunofluorescence detection. The immunofluorescence sections were counterstained with DAPI (blue). (D) GO functional analysis of upregulated genes in the infected lungs of CXCL5 -/- mice compared to WT mice at 7 and 10 d.p.i. The methods and criteria for filtration of differentially expressed genes are described in the MATERIALS AND METHODS section. (E) Mice were infected with H1N1 or H3N2 (3000 CCID 50 ), and the body weight loss (n=12) of the mice was monitored until 2 weeks post infection. WT-1 H1N1: WT mice infected with H1N1; WT-1 H3N2: WT mice infected with H3N2; CXCL5 -/- 1 H1N1: CXCL5 -/- mice infected with H1N1; CXCL5 -/- 1 H3N2: CXCL5 -/- mice infected with H3N2; WT-2 H1N1: WT mice recovered from H1N1 infection and infected with H1N1; WT-2 H3N2: WT mice recovered from H1N1 infection and infected with H3N2; CXCL5 -/- 2 H1N1: CXCL5 -/- mice recovered from H1N1 infection and infected with H1N1; CXCL5 -/- 2 H3N2: CXC
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- Figure 3. Histone deacetylase 3 (HDAC3)-deficient CD4 + T cells are capable of differentiation, but produce fewer cells than wild-type (WT). ( a ) In vitro differentiation assays were performed to examine differentiation into the T h 1, T h 2, T h 17, and T reg lineages characterized by transcription factor expression. Splenocytes were harvested and magnetically enriched for naive (CD44 - ) CD4 + T cells by negative selection. Cells in all assays were stimulated with 2 ug/ml plate-bound alphaCD3 and 0.5 ug/ml alphaCD28 for 4 days. For T h 1 differentiation, 1 ug/ml alphaIL-4 antibody and 10 ng/ml of IL-12 were added to the media. For T h 2 differentiation, 1 ug/ml of each alphaIFNgamma and alphaIL-12 antibody, as well as 10 ng/ml of IL-4 was added to the media. For T h 17 differentiation, media was supplemented with 10 ug/ml of alphaIFNgamma and alphaIL-4 antibody as well as 10 ng/ml of rIL-23, 5 ng/ml TGF-beta1, and 20 ng/ml IL-6. For T reg differentiation, media was supplemented with 10 ug/ml alphaIFNgamma and alphaIL-4 antibody as well as 2 ng/ml TGF-beta1, and 2 ng/ml interleukin-2 (IL-2). Unstimulated control samples did not receive alphaCD3/alphaCD28 stimulation, but did receive 10 ng/ml IL-7 to maintain cell survival during culture. Bar plots on the right show % of cells from the total culture that are positive for the transcription factor +- standard deviation (SD), total cell number +- SD, and geometric mean of expression +- SD ( n = 2-4 mice/group from two to three
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- Figure 6 MALP ablation blocks bone marrow recovery after radiation. ( A ) Representative fluorescence images of Td + cells, Perilipin + LiLAs, and CD45 + hematopoietic cells in femoral bone marrow of Adipoq/Td/DTR mice after receiving 2 weeks of vehicle (Veh) or DT injections with or without prior radiation. Scale bar: 20 mum (top), 100 mum (middle), and 20 mum (bottom). ( B ) Quantification of CD45 + cells per bone marrow area. n = 3-6 mice/group. ( C ) Bone marrow cells were flushed from femurs and counted. n = 3-8 mice/group. ( D ) Cell counts of hematopoietic lineage cells in the bone marrow. n = 3-11 mice/group. B cells = B220 + , T cells = CD3 + , myeloid cells = Gr1 + and/or Mac1 + . ( E ) Cell counts of HSPCs. n = 3-11 mice/group. LK, Lineage - cKit + , LSK, Lineage - Sca1 + cKit + , SLAM LSK, Lineage - Sca1 + cKit + CD48 - CD150 + , MPP, Lineage - Sca1 + cKit + CD48 + CD150 - . ( F ) Representative fluorescence images of Adipoq/Td/DTR femoral bone marrow with Emcn staining (vessels). Arrows point to Td + pericytes. Scale bar: 20 mum. ( G ) Quantification of bone marrow vessel diameter, density, and area. ( H ) The number of pericytes per vessel length (VL) was measured. n = 3-4 mice/group. ( I ) The percentage of Emcn + endothelial cells in bone marrow was measured by flow cytometry. n = 3-4 mice/group. ( J ) qRT-PCR analysis of hematopoietic and angiogenic factors in sorted Td - and Td + cells from bone marrow before and after radiation. n = 4 mice/group. Statistica
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- Figure 2. The miR-92 deficient mir-17-92 cooperates with c-Myc to promote highly aggressive B-lymphomas. ( A ) The percentage of IgM positive and IgM negative B-lymphomas was calculated for each genotype ( Emu-myc/MSCV, n = 10 ; Emu-myc/17-92, n = 9; Emu-myc/17-92Delta92, n = 10; Emu-myc/17-92Mut92, n = 10). ( B ) The Emu-myc/17-92Mut92 and Emu-myc/17-92Delta92 mice developed high grade B-lymphomas that were frequently disseminated into the liver. When compared to Emu-myc/MSCV and Emu-myc/17-92 mice, Emu-myc/17-92Mut92 and Emu-myc/17-92Delta92 lymphomas gave rise to more liver dissemination, as indicated by H&E and B220 staining. ( C ) Emu-myc/17-92Mut92 and Emu-myc/17-92Delta92 lymphomas exhibited a decreased apoptosis compared to Emu-myc/MSCV or Emu-myc/17-92 lymphomas. Representative lymphomas were stained for H&E, cleaved caspase-3 and PCNA. Arrow, 'starry sky' feature of apoptotic lymphoma cells; arrowhead, apoptotic cells with positive staining for cleaved caspase-3; scale bar, 50 mum. ( D and E ) Apoptosis was quantitatively measured in representative lymphomas of each genotype using the 'starry sky' features ( D ) and cleaved caspase-3 staining ( E ). *p < 0.05, **p < 0.01, ***p < 0.001. DOI: http://dx.doi.org/
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- Lenvatinib insignificantly affects the immune microenvironment in NPC in humanized NSG mice. A Schematic diagram of the establishment of humanized NSG mice. B Representative FACS analysis of human CD45 + cells in mouse peripheral blood. Human CD45 + cell percentage greater than 25% was considered successful in modeling. C - E Tumor growth ( C ), tumor weights ( D ) were measured in vehicle-, anti-VEGF-, and lenvatinib-treated NPC tumors. The tumor inhibition ratio were calculated ( E ) ( n = 3 samples per group). F Representative micrographs of Ki67 + proliferative cells and cleaved caspase-3 + apoptotic cells in vehicle-, anti-VEGF-, and lenvatinib-treated NPC tumors. Scale bar = 50 mum. Quantification of Ki67 + , cleaved caspase-3 + signals, and PA index in vehicle-, anti-VEGF-, and lenvatinib-treated NPC tumors. ( n = 8 random fields per group) G Representative micrographs of CD31 + microvessels and CA9 + hypoxic areas in vehicle-, anti-VEGF-, and lenvatinib-treated NPC tumors. Scale bar in upper panel = 100 mum, scale bar in lower panel = 50 mum. Quantification of CD31 + tumor vessel parameters and CA9 + signals in vehicle-, anti-VEGF-, and lenvatinib-treated NPC tumors ( n = 8 random fields per group). H Quantification of hCD45 + hCD14 + population, hCD45 + hCD19 + population, hCD45 + hCD3 + population, and hCD45 + hCD56 + population in the NPC TME ( n = 3 samples per group). I Quantification of mCD45 + mCD11b + mF4/80 + population, mCD45 + mB220 + population, mCD45 + mC
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- Figure 6 Disease Modeling of herPAP Using miPAP iPSCs (A) Number of CD41 + progenitor-derived colonies in methylcellulose-based clonogenic assays employing complete (IL-6, erythropoietin, SCF, IL-3, and supplemented with 20 ng/ml human G-CSF + 20 ng/ml murine GM-CSF) or basic medium (50 ng/ml murine GM-CSF only; independent experiments, n = 3 miPAP1 and 2, n = 2 CD45.1 iPSC, mean +- SD) and representative pictures of colonies. Scale bars, 500 mum. (B) GM-CSF clearance assay comparing miPAP-Mphi with CD45.1(10.3) iPSC-Mphi, BMlin - -Mphi, and no cells incubated with 2 ng/ml GM-CSF: at indicated time points (0, 4, 10, 24, and 30 hr) GM-CSF concentrations in supernatants were analyzed by ELISA, normalized to 0 hr (independent experiments, n = 3 BMlin - and CD45.1 iPSC, n = 2 miPAP1 and 2, mean +- SD). (C and D) Flow cytometry plots of STAT5 phosphorylation levels upon stimulation with mGM-CSF (C) and (D) summary of mean fluorescence intensity (MFI) data (independent experiments, n = 3 BMlin - and CD45.1 iPSC, n = 2 miPAP1 and 2, mean +- SD). ns, not significant; ** p
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- Fig 6 Tn P acts systemically during the induction phase modulating DCs and induces regulatory cells. Splenocytes from EAE mice treated with vehicle or Tn P (n = 5/group) were isolated at day 7, and analyzed. A ) The MFI of MHC class II, CD40, CD80, CD86 in cDC (CD11c+CD11b+) and B ) MFI of PDL-1 and PDL-2 in pDC (CD11c+B220 low ) were analyzed by flow cytometry (50,000 events). C ) The percentage of CD4+ cells, D ) and the MFI of CD18, CD40L, and CD69 in the CD4+ gate were analyzed by flow cytometry. E , F , G ) The percentages of FOXP3-positive CD4+CD25+ Treg, IL-4-positive CD4 Th2 cells and CD5-positive CD19+CD1d+ Breg cells were analyzed by flow cytometry. Values in the bar graphs are the mean +- SEM. * p < 0.05 and ** p < 0.01 compared with vehicle-treated EAE-mice.
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- Fig. 1 In vivo depletion of Cdkn1a rescues GC formation in Ezh2 -/- mice. Ezh2 fl/fl , Cdkn1a -/- , Ezh2 fl/fl ;Cgamma1-cre and Ezh2 fl/fl ;Cgamma1-cre; Cdkn1a -/- littermate mice were immunized with SRBC to induce germinal center (GC) formation and were killed 10 days later. a Flow cytometry plot of one representative mouse spleen per group. The gated area shows the percentage of GC B cells (GL7 + FAS + ) within live B cells (B220 + DAPI-, see Supplementary Fig. 2A for gating strategy). b Average of GC B populations of each group of mice quantified by flow cytometry as in a ( n = 7 mice per group). c Formalin fixed paraffin embedded splenic tissue was stained for PNA, Ki67, EZH2, and B220. One representative picture of three spleens analyzed per group is shown. d - f Quantification of PNA staining from c ( n = 3 spleens per group). d ""#GC/spleen section"" is the count of all GC per spleen section. e ""GC area/total spleen area"" is the quantified area of each individual GC divided by the total area of the spleen section. f ""Total GC area/total spleen area"" is the sum of all GC quantified areas in a certain section divided by the total area of that spleen section. g Splenocytes were permeabilized and stained for GC B and EZH2 using a fluorochrome-conjugated anti EZH2 antibody. The gated area shows the percentage of GC B cells (GL7 + FAS + ) within live B cells (B220 + DAPI-, see Supplementary Fig. 2A for gating strategy) that are EZH2 positive. The flow plot shown is repre
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- Fig. 3 Characterization of a 3D B cell follicular organoid to model the GC reaction. a Scheme of 3D B cell follicular organoid fabrication. Splenic B cells are co-encapsulated with 40LB stromal cells and IL4 into an RGD-presenting nanocomposite hydrogel that contain gelatin ionically cross-linked with synthetic silicate nanoparticles. b Representative fluorescence pictures of splenic GFP B cells in 3D organoid culture. c Flow cytometry plot of a 3D B cell follicular organoid. The gated area on the top shows the live B cells (B220 + DAPI-) and on the bottom plot, the organoid GC B cells (GL7 + FAS + ) within live B cells. d Average of GC B populations of organoids quantified as in c . e Average of percentage of proliferating organoid GC B populations, quantified as indicated in Supplementary Fig. 4B . f MFI of proliferation dye from e . g Flow cytometry plot of GC B cells stained with annexinV. h Average of percentage of apoptotic GC B cells quantified as in g . i RNA-seq profiles of organoid GC B cells after 4 and 6 days in culture (organoid GCB d4, n = 4 spleens, and d6, n = 3 spleens) were projected into the principal component space defined by GC B cells sorted from immunized mice (in vivo GCB, n = 6 mice), CD138 + plasma cells (in vivo PC, n = 6 mice) and FAS-GL7-IgD + B220 + naive B cells (NB, n = 3 mice). j , k Heat maps of gene expression level of GC B cells showed in i , represented as log2 ratio relative to mean naive B cells j and to mean plasma cells k . PC1/2 = pr
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- Fig. 4 CDKN1A repression by EZH2 is required for GC B cell cycle progression. a - f Organoids were generated using B cells isolated from Ezh2 fl/fl ;Cgamma1-cre, Cdkn1a -/- , Ezh2 fl/fl ;Cgamma1-cre; Cdkn1a -/- and Ezh2 fl/fl control mice ( n = 3 mice per group) and were harvested for flow cytometry analysis after 4 days in culture. a Flow cytometry plots of representative organoids from each genotype. The gated area shows the percentage of organoid GC B cells (GL7 + FAS + ) within live B cells (B220 + DAPI-). b Average of percentage of organoid GC B populations quantified by flow cytometry as in a ( n = 3 biological replicates per group). c Organoids received a BrdU pulse of 2 h before harvest. Cell cycle was analyzed by BrdU staining and 7AAD to measure DNA content. The representative gated area shows the percentage of organoid GC B cells (GL7 + FAS + B220 + DAPI-) that are in S phase (BrdU + ). d Average of percentage of organoid GC B populations in S phase of each group of genotype quantified by flow cytometry as in c ( n = 3 biological replicates per group). e Organoid cells were permeabilized and stained for EZH2 and GC markers GL7, FAS, and B220 to identify organoid GC B cells. The flow cytometry plot shows one representative sample per genotype group. f MFI of EZH2 in organoid GC B cells ( n = 3) quantified by flow cytometry as in e . g - m Organoids were generated using B cells isolated from 3 Cdkn1a +/+ and 3 Cdkn1a -/- mice. g Scheme of EZH2 inhibitor GSK343 and Br
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- Figure 1. VEGF and bFGF promote the differentiation of MSCs into EC-like cells. (A) Expression of MSC surface markers was confirmed using flow cytometry. (B) Morphological features of isolated MSCs and MSC-derived EC-like cells following induction as observed under an inverted microscope. The red and white arrows indicate spindle-shaped and polygon-shaped cells, respectively. Magnification, x20. (C) Factor VIII expression was detected in MSC-derived EC-like cells via immunohistochemistry and light microscopy with brown staining indicating the positive signal. VEGF, vascular endothelial growth factor; bFGF, basic fibroblast growth factor; MSCs, mesenchymal stem cells; EC, endothelial cell; Ctrl, control; CD, cluster of differentiation.
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- Fig. 1 Loss of miR-143/145 results in reduced LT-HSC frequency. a Frequency of long-term-HSC (LT-HSC, CD45 + EPCR + CD48 - CD150 + ), LSK/short-term HSC (Lin - Sca1 + c-Kit + ), common myeloid progenitors (CMP, Lin - Sca1 - c-Kit + CD34 + CD16/32 lo ), granulocyte-macrophage progenitors (GMP, Lin - Sca1 - c-Kit + CD34 + CD16/32 hi ), and megakaryocyte-erythrocyte progenitors (MEPs, Lin - Sca1 - c-Kit + CD34 - CD16/32 lo ) in the marrow of 8-12-week- old wild-type (WT), miR-143/145 +/- , and miR-143/145 -/- mice, as analyzed by flow cytometry (median +- 1.5 IQR, WT n = 11, 143/145 +/- n = 9, 143/145 -/- n = 8). b Marrow cellularity (2 femurs and 2 tibias) (WT n = 3, 143/145 +/- n = 4, 143/145 -/- n = 8). c Colony-forming unit (CFU) assay of marrow cells from WT and miR-143/145 -/- mice (mean +- SEM, WT n = 11, 143/145 -/- n = 10). d Primary CFU cells were replated in equal proportions per condition, normalized to the number of input cells, to generate secondary CFUs (mean +- SEM, WT n = 9, 143/145 -/- n = 7). e Estimate of HSC frequency in WT and miR-143/145 -/- mice by limiting dilution assay. Shown is a log-fraction plot of the limiting dilution model. The slope of the line is the log-active cell fraction. The dotted lines give the 95% CI
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- Figure 1. Intestinal immune cell responses upon NAP treatment of human microbiota-associated mice suffering from subacute ileitis. Subacute ileitis was induced in human microbiota-associated (hma) mice on day 0 by peroral low-dose T. gondii infection as described in Materials and Methods section. Hma mice were then treated with synthetic NAP (crossed circles) or placebo (PLC; black circles) from day 1 until day 8 postinfection (p.i.). At day 9 p.i., the average numbers of (A) ileal and (B) colonic T lymphocytes (positive for CD3) and of (C) colonic B lymphocytes (positive for B220) were determined microscopically in immunohistochemically stained intestinal paraffin sections from six high power fields (HPF, 400x magnification) per animal. Naive mice (i.e., without ileitis and without treatment; white circles) served as negative controls. Numbers of animals (in parentheses), means, and significance levels ( p values) determined by Mann-Whitney U test are indicated. Data shown were pooled from four independent experiments
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- Figure 4 Surgical denervation of young bone marrow induces premature HSC and niche aging (a) Schematic illustration of surgical denervation experiment. The sciatic and femoral nerves were transected in young (2 months old) C57BL/6 mice and the mice were analyzed 4 months post surgery, at 6 months of age. (b) Absolute numbers of HSCs (lineage - Sca-1 + c-Kit + CD48 - CD150 + ) isolated from Sham and Denervated (Den) femurs (n=7 mice). (c, d) Total peripheral blood (CD45.2 + ), blood myeloid (Mac-1 + CD45.2 + ) and blood B cell (B220 + CD45.2 + ) donor chimerism at the indicated time points post transplantation (c) and bone marrow donor chimerism (Total CD45.2 + (BM); Myeloid (My), Mac-1 + CD45.2 + ; B cell (B), B220 + CD45.2 +; and T cell (T), CD4 + /CD8 + CD45.2 + ) 5 months after primary transplantation of 200 HSCs derived from either sham or denervated (Den) femurs and transplanted in competition with young BM competitor cells (n=4 sham, 6 denervated mice) (left) and 5 months after secondary transplantation of 3 x 10 6 bone marrow from primary recipients (right) (d). (e) Left, representative confocal z -stack projections of HSCs sorted from sham or denervated femurs and stained with Cdc42, Tubulin and DAPI. Scale bar, 10 mum. Right, quantification of the percentage of Cdc42 and Tubulin polarized HSCs out of total HSCs scored (total of 356 sham and 353 denervated HSCs isolated from 4 mice per group). (f) Left, representative confocal z -stack pro
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- Figure 1 ATF3 maintains intestinal homeostasis. (A) Comparison of colon length between naive mice as indicated. (B) Colon crypts from mice were isolated by shaking colon fragments in EDTA and counted under light microscopy. (C) Flow cytometry analysis of Ki67 and CD24 expression in ileum crypts, gated on the CD45 - EpCAM + populations, from the indicated naive mice. (D) Representative micrographs showing intestinal organoids derived from naive mice. (E) Quantitative real-time PCR analysis of cell cycle genes in naive ileum organoids at day 6 of culture (""n"" indicates organoids derived from 4 mice each group). (F) Representative confocal images of whole mount tissues with co-immunofluorescence staining of UEA-1 and WGA in naive ileum villi. Results were from at least two independent experiments and ""n"" refers to the number of mice unless indicated otherwise. All mice were at the age of 2~3 months old when analyzed. Statistical analysis was done using Multiple T -test on Prism software. * P < 0.05, ** P < 0.005, *** P < 0.0005.
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- Figure 7 ATF3 promotes IL-22-induced STAT3 phosphorylation by suppressing phosphatases. (A) Freshly isolated ileum crypts, or (B) ileum organoids at day 6 of culture, were stimulated with IL-22, followed by fixation and intracellular staining of phospho-STAT3, and analyzed by flow cytometry. Western blot analysis of (C) IL-22-stimulated CMT93 cells, or (D) IL-22-stimuated colon fragments isolated from the indicated mice, for the expression of the indicated proteins. (E) Quantitative real-time PCR analysis of IL-22R1 and IL-10R2 mRNA levels in freshly isolated ileum crypts from mice. (F) Flow cytometry analysis of IL-22R1 in freshly isolated ileum crypt cells gated on the CD45 - EpCAM + population. (G,H) Western blot analysis of unstimulated or IL-22-stimulated CMT93 cells for the indicated proteins. ATF3 -/- CMT93 cells with SHP2 knockdown (ATF3 -/- SHP2 KD ) were indicated. Images were representative of four independent experiments (G-H) . Results were from two independent experiments (A-F) . ""n"" refers to the number of mice analyzed (A,B,E,F) . Statistical analysis was done by multiple comparison in Two-way ANOVA test using Prism software. * P < 0.05, ** P < 0.005, *** P < 0.0005.
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- Figure 2 Tpl2 didn't affect peripheral immune activation during FH pathogenesis. The splenic cells or peripheral blood immune cells were isolated from P. acnes -primed WT and Tpl2 -KO mice at day 3, 5, and 7 as described in Materials and methods ( n = 4 mice/group), and subjected for flow cytometry analysis. (A-F) Flow cytometry analysis of the frequencies and absolute numbers of CD4 + T cells, CD8 + T cells, B220 + B cells, CD11c + dendritic cells (A,B) , CD4 + Foxp3 + Treg cells (C,D) , and IFN-gamma- and TNF-alpha-producing pathogenic Th1 cells (E,F) in the spleens of WT and Tpl2 -KO mice at day 7 after P. acnes priming. Data are presented as representative plots of the frequencies of immune cell subpopulations (A,C,E) and a summary graph of the cell frequencies or absolute cell numbers (B,D,F) . (G-J) Flow cytometry analysis of the frequencies and absolute numbers of CD4 + T cells in the spleens (G,H) or peripheral blood (I,J) of WT and Tpl2 -KO mice at day 3, 5, and 7 after P. acnes priming. Data are presented as representative plots of the frequencies of immune cell subpopulations (G,I) and a summary graph of the cell frequencies or absolute cell numbers (H,J) . Results are mean +- SD from three independent experiments.
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- Figure 3 Tpl2 reduced liver infiltration of pathogenic CD4 + T cells. Liver-infiltrating immune cells were isolated from P. acnes -primed WT and Tpl2 -KO mice at day 3, 5, and 7 as described in Materials and methods ( n = 4 mice/group). (A-G) Flow cytometry analysis of the frequencies and absolute numbers of CD4 + and CD8 + T cells, B220 + B cell, CD11c + dendritic cells (A-C) , CD4 + Foxp3 + Treg cells (D,E) , and IFN-gamma- and TNF-alpha-producing pathogenic Th1 cells (F,G) in the livers of WT and Tpl2 -KO mice at day 7 after P. acnes priming. Data are presented as representative plots of the frequencies of immune cell subpopulations (A,D,F) and a summary graph of the frequencies and absolute cell numbers (B,C,E,G) . (H,I) Flow cytometry analysis of the frequencies and absolute numbers of CD4 + T cells in the livers of WT and Tpl2 -KO mice at day 3, 5, and 7 after P. acnes priming. Data are presented as representative plots of the frequencies of immune cell subpopulations (H) and a summary graph of the absolute cell numbers (I) . Results are mean +- SD from three independent experiments. Two-tailed Student's t -tests were performed. * P < 0.05; ** P < 0.01.
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- Figure 5 MNP FcgammaR A:I Ratio Modulates Intestinal Inflammation (A) Weight loss in co-housed sex-matched WT (black circles, n = 8) and Fcgr2b -/- (red circles, n = 9) mice after a single 6-day course of 2% DSS. Means +- SEM are indicated. Data are representative of 3 independent experiments. (B) Confocal microscopy of colonic CD45 + leukocytes in mice treated as in (A). Data are representative of 2 independent experiments. (C) Flow-cytometric quantification of colonic neutrophil frequency (top) and absolute neutrophil counts (bottom) in WT and Fcgr2b -/- colons at day 25 after aDSS (n = 5-7 per group) or in healthy controls (day 0) (n = 3-5 per group). Medians are indicated. Data are representative of 3 independent experiments. (D) Pro-IL-1beta expression by colonic CD11b + CX3CR1 + MNPs at day 25 after aDSS (n = 5-7 per group). (E) Frequency of pro-IL-1beta expression within the Ly6C hi MHC-II - monocyte and Ly6C + MHC-II int macrophage populations as shown in aDSS (n = 5-7 per group) versus controls (day 0) (n = 3-5 per group). Medians are indicated. Data are representative of 3 independent experiments. (F) Chemokine mRNA levels in flow-sorted Ly6C lo MHC-II hi colonic macrophages at day 21 after aDSS (n = 4-5 per group). Data normalized to WT mRNA levels. Medians are indicated. (G and H) Weight loss (G) and clinical colonic and lymphoid organ features (H) of co-housed sex-matched M-TG (green circles, n = 5 or 6) and N-TG littermate controls (black circles, n = 6) after a
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- Fig. 6 TLR2 + macrophages, pDCs, and PB in the small intestine bind PSA and induce IL-10 secretion. Gating strategy for mononuclear cells isolated from a duodenum (Duod) and b ileum (Ile) of WT and Rag mice analyzed for binding of fluorescent A488-conjugated PSA (left two plots). CD45 - intra-epithelial cells (CD45 - IEC: middle histogram) and CD45 + gated intra-epithelial leukocytes (CD45 + IEL: second right histogram) isolated from the a Duod and b Ile of WT (red) and Rag (blue) mice were analyzed for reactivity to PSA-A488. CD45 + CD11c - B220 + B cells, PDCA1 + B220 + CD11c + pDCs and CD138 + B220 + PB and B220 low PC isolated from a Duod and b Ile of WT mice were analyzed for PSA reactivity (right histogram). Flow cytometry plots show CD11c + PDCA1 - cDC, PDCA1 + B220 + pDC, and B220 + CD19 + B cells isolated from spleen, MLN, PP, IEL, or LP of WT mice were stimulated with c PSA or d LTA-SA (TLR2 agonist) and analyzed for IL-10 expression. e Plots summarize data from c and d and show % IL-10 + B cells (left), cDCs (middle), and pDCs (right) from spleen, MLN, PP, IEL, and LP stimulated with PSA or TLR2 (LTA-SA) ( n = 3 mice). All data show mean +- SEM
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- Figure 2 Analysis of the B lymphocyte populations expanded in TRAF3/BCL2 double-tg mice with lymphoid dyscrasias. Three-color flow-cytometry analysis was performed to determine the phenotype of expanded B lymphocyte populations. Gating of the expanded population was based on the CD45R/B220 and FSC plot of each sample analyzed and is indicated in the figure. The surface molecules analyzed are indicated in the plots, as well as the percentage of cells found in each quadrant. The quadrants settings were selected based on the staining of isotype-controls (not shown). The tissue source where the analyzed lymphocytes were extracted from and the type of B cell malignancy developed by the TRAF3/BCL2 double-tg mice, according to the flow-cytometry and immunohistochemical analysis, is indicated in the figure.
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- Figure 4 Ptpn6 deletion drives robust anti-tumor immunity in two immune-rich syngeneic tumor lines. (A) Flow cytometric analysis of live CD45 + cells from B16F10 melanoma tumors isolated from tamoxifen-treated Ptpn6 fl/fl and Ptpn6 fl/fl ERT2-cre mice at day 14 post tumor implantation. (B) B16F10 tumor volume measurements in tamoxifen-treated Ptpn6 fl/fl ERT2-cre and Ptpn6 fl/fl mice. Each data point represents the average tumor volume of all mice in a given group. Data is representative of three independent experiments with 5-7 mice/group. (C) Shp1 protein relative to total Erk2 protein in peripheral blood cells from indicated mice 14 days after initial tamoxifen dose (200 mg/kg bid for 4 days) and 7 days after B16F10 tumor cells were implanted. Data is representative of at least three independent experiments with 5-7 mice per group. (D) Flow cytometric analysis of live CD45 + cells from E0771 tumors isolated from tamoxifen-treated Ptpn6 fl/fl and Ptpn6 fl/fl ERT2-cre mice at day 19 post tumor implantation. (E) E0771 tumor volume measurements in tamoxifen-treated Ptpn6 fl/fl ERT2-cre and Ptpn6 fl/fl mice. Each data point represents the average tumor volume of all mice in a given group. Data is representative of three independent experiments with 4-5 mice per group. Statistical significance was calculated at each time point using an unpaired t -test. (F) Shp1 protein relative to total Erk2 protein in peripheral blood cells from indicated mice 14 days after initial tamoxifen d
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- Figure 4. K14Cre;fl/fl mice develop esophageal fibrosis and ILD. (A) Masson-Trichrome staining of the lower esophagus of 3-mo-old fl/fl and K14Cre; fl/fl mice. (Bottom) Higher magnification images of the regions indicated by squares in the top panels. Bars: (top) 500 um; (bottom) 200 um. (B) The lower esophagi were cut along the longitudinal direction, spread on sheets, fixed in formalin, and embedded in the paraffin. Masson-Trichrome staining was performed, and the thickness of the lamina propria was evaluated at the ages of 1, 2, and 3 mo. Vertical bars represent lamina propria thickness. Bars, 50 um. (C) The thickness of lamina propria at upper (thoracic) esophagus was evaluated at the age of 3 mo. (D) The thickness of the circular muscle layer was evaluated in the sections of 3-mo-old mice. (E) Hydroxyproline contents of the lower esophagus were compared between these two strains of mice at the age of 3 mo. (F) mRNA levels of type I collagen, cytokines, chemokines, and growth factors in the lower esophagi of 3-mo-old mice were assessed. (G) The lower esophagus sections from 3-mo-old mice were immunohistochemically stained for IL-1beta. Bars, 50 um. (Right) The graph shows the result of semiquantitative scoring of the staining intensity. (H) H&E staining of the lungs from 1-, 2-, and 3-mo-old fl/fl and K14Cre;fl/fl mice. Arrows indicate the peribronchial lymphocyte aggregates. Bars, 200 um. (I) Infiltrating inflammatory cells were immunohistochemically stained for CD3 and
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- Figure 5. K14Cre;fl/fl mice exhibit prominent autoimmunity with Th2/Th17 cell polarization and abnormal B cell activation leading to autoantibody production. (A) A representative image of the gross appearance of spleens and inguinal lymph nodes from 3-mo-old fl/fl and K14Cre;fl/fl mice. (B) The number of splenocytes in 3-mo-old fl/fl and K14Cre;fl/fl mice was counted. n = 4 per each group. (C) Lymphocytes isolated from inguinal lymph nodes were stained for CD3 and CD4 and intracellularly stained for IL-4, IL-17A, and IFN-gamma. (Top) Representative two-dimensional plots for IL-4 and IL-17A in CD3 + CD4 + cells. (Bottom) The percentages of cells positive for IL-4, IL-17A, and IFN-gamma are summarized. n = 7 mice per each group. (D) Splenocytes from 3-mo-old fl/fl and K14Cre;fl/fl mice were stained for B220 and CD19. B220 + CD19 + cells were analyzed for CD19 expression. A representative histogram of mean fluorescence intensity (MFI; top) and the comparison of mean fluorescence intensities (bottom) are shown. n = 4 mice per genotype. (E) Sera from 3- and 8-mo-old mice were analyzed for the concentrations of total IgG, IgM, and IgA. n = 5-7 mice per genotype. Note that the results are shown with log scale. (F) Sera from 1-, 2-, 3-, and 8-mo-old mice were analyzed for the concentration of IL-6. n = 6-7 mice per genotype. (G) B cells were isolated from splenocytes of 3-mo-old mice and cultured for 48 h, either unstimulated or stimulated with anti-CD40 antibody (alphaCD40Ab). The c
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- Figure 4 Host humoral immune responses to vector delivery. ( a ) The titer of anti-adenoviral antibodies in mouse bronchoalveolar lavage fluid (BALF). The total anti-Ad antibodies (IgA, IgE, IgGs, IgM) were detected with ELISA in all groups. Data were presented as mean +- SD (standard deviation). ( b ) Neutralizing antibody in mouse BALF. n = 5, #: p < 0.05; **: p < 0.01. ( c ) B-cell presence in mouse lungs. B-cells were detected in mouse lungs with antibodies against B220 by immunohistochemistry staining. The positive cells are shown in brown color. ns, no significant difference.
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- Figure 1 Development of myeloid cell populations is not detectably altered in MphCK2alpha -/- mice. (A) Schematic of Csnk2a targeting vector. (B) Immunoblots of lysates from BMDMs, splenocytes, or peritoneal cavity cells of LysM cre or LysM cre CK2alpha fl/fl (MphCK2alpha - / - ) mice were probed for CK2alpha or beta-actin as a loading control. n = 2. (C) Splenic myeloid cell populations were stained and analyzed by flow cytometry. Plots depict gating for representative F4/80+ macrophages, Ly6C+ monocytes, and neutrophils (also Ly6G+). (D) Cells from spleen were stained for flow cytometry to enumerate immune cell populations. Data are from pooled experiments, n = 4-12 mice/group. (E) Cells from bone marrow were stained for flow cytometry to evaluate bone marrow precursor populations including common myeloid progenitors (CMPs), granulocyte-monocyte progenitors (GMPs), and megakaryocyte-erythrocyte progenitor (MEP). Cells were pre-gated on Lin-(B220, CD3, CD11b, GR-1 and TER-119), Sca-1-, cKit-. Density plots are representative from two experiments.
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- Figure 1. Steady-state Flt3-L BMDCs and splenic DCs display remarkably high levels of eIF2alpha without inhibition of translation. (A) Immunohistochemistry of mouse spleen with staining for CD11c (red) and p-eIF2alpha (green). Scale bar: 200 mum, magnification: 10x. Single color images are shown and merged picture (right row), high level of p-eIF2alpha staining is mostly found co-localizing in cells positive for CD11c+ (DCs, white arrowheads). (B) Immunohistochemistry of mouse spleen in the white pulp for CD11c (red), p-eIF2alpha (green), CD11b (blue), and B220 (turquoise). Scale bars: 50 mum, magnification: 40x. In the upper panel, magnified areas show p-eIF2 detection in cDC2 (CD11c+/CD11b+) and cDC1 (CD11c+/CD11b-). In the lower panel, magnified areas show p-eIF2 detection in pDCs (B220+/CD11c+) and in B cells (B220+ and CD11c-). (C) Relative p-eIF2alpha levels measured by flow in different mouse spleen populations. Statistical analysis was performed by Mann-Whitney test. ** P < 0.01. (D) Levels of p-eIF2alpha and total eIF2alpha were measured in DC populations by immunoblot. Sorted steady-state Flt3-L BMDCs were compared with MEFs and freshly isolated CD8alpha+ T cells stimulated or not with thapsigargin (Tg) for 2 h (200 nM). Ratio of p-eIF2alpha/eIF2alpha is quantified in the graph of the lower panel. (E) Levels of p-eIF2alpha and total eIF2alpha were measured in bulk Flt3-L BMDCs during different days of BM differentiation in vitro. (F) Levels of protein synthesis were
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- Fig 1 Agriculture (swine) exposure-related Organic Dust Extract (ODE) induced airway inflammation coupled with Collagen Induced Arthritis (CIA) model. ( A ) Line graph depicts mean with SE bars of arthritis inflammatory score at respective time points from treatment groups. Statistical difference versus sham denoted as ""a"" (p
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