ALX-804-242-C100

antibody from Enzo Life Sciences

Targeting: CASP8 Casp-8, FLICE, MACH, MCH5

Provider product page for ALX-804-242-C100

Western blot

Immunocytochemistry

Immunoprecipitation

Immunohistochemistry

Antibody data

Antibody Data
Antigen structure
References [22]
Comments [0]
Validations
Immunocytochemistry [1]

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Product number: ALX-804-242-C100 - Provider product page
Provider: Enzo Life Sciences
Proper citation: Enzo Life Sciences Cat#ALX-804-242-C100, RRID:AB_2050949
Product name: Caspase-8 (human) monoclonal antibody (12F5)
Antibody type: Monoclonal
Antigen: Recombinant full length protein
Description: Protein G-affinity purified.
Reactivity: Human
Host: Mouse
Isotype: IgG
Antibody clone number: 12F5
Vial size: 100 μg
Storage: +4°C
Handling: Avoid freeze/thaw cycles.

CASP8 protein structure - ALX-804-242-C100 shown in red.

Submitted references Cellular IAP proteins and LUBAC differentially regulate necrosome-associated RIP1 ubiquitination.

de Almagro MC, Goncharov T, Newton K, Vucic D
Cell death & disease 2015 Jun 25;6:e1800

Intestinal genetic inactivation of caspase-8 diminishes migration of enterocytes.

Kaemmerer E, Kuhn P, Schneider U, Jeon MK, Klaus C, Schiffer M, Weisner D, Liedtke C, Jäkel J, Kennes LN, Hilgers RD, Wagner N, Gassler N
World journal of gastroenterology 2015 Apr 21;21(15):4499-508

Up-regulation of Bcl-2 during adipogenesis mediates apoptosis resistance in human adipocytes.

Nagel SA, Keuper M, Zagotta I, Enlund E, Ruperez AI, Debatin KM, Wabitsch M, Fischer-Posovszky P
Molecular and cellular endocrinology 2014 Jan 25;382(1):368-76

Prognostic and therapeutic relevance of FLIP and procaspase-8 overexpression in non-small cell lung cancer.

Riley JS, Hutchinson R, McArt DG, Crawford N, Holohan C, Paul I, Van Schaeybroeck S, Salto-Tellez M, Johnston PG, Fennell DA, Gately K, O'Byrne K, Cummins R, Kay E, Hamilton P, Stasik I, Longley DB
Cell death & disease 2013 Dec 5;4:e951

Vorinostat/SAHA-induced apoptosis in malignant mesothelioma is FLIP/caspase 8-dependent and HR23B-independent.

Hurwitz JL, Stasik I, Kerr EM, Holohan C, Redmond KM, McLaughlin KM, Busacca S, Barbone D, Broaddus VC, Gray SG, O'Byrne KJ, Johnston PG, Fennell DA, Longley DB
European journal of cancer (Oxford, England : 1990) 2012 May;48(7):1096-107

Cathepsin D primes caspase-8 activation by multiple intra-chain proteolysis.

Conus S, Pop C, Snipas SJ, Salvesen GS, Simon HU
The Journal of biological chemistry 2012 Jun 15;287(25):21142-51

A novel TNFR1-triggered apoptosis pathway mediated by class IA PI3Ks in neutrophils.

Geering B, Gurzeler U, Federzoni E, Kaufmann T, Simon HU
Blood 2011 Jun 2;117(22):5953-62

GDP-mannose-4,6-dehydratase (GMDS) deficiency renders colon cancer cells resistant to tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) receptor- and CD95-mediated apoptosis by inhibiting complex II formation.

Moriwaki K, Shinzaki S, Miyoshi E
The Journal of biological chemistry 2011 Dec 16;286(50):43123-33

Endogenous Bak inhibitors Mcl-1 and Bcl-xL: differential impact on TRAIL resistance in Bax-deficient carcinoma.

Gillissen B, Wendt J, Richter A, Richter A, Müer A, Overkamp T, Gebhardt N, Preissner R, Belka C, Dörken B, Daniel PT
The Journal of cell biology 2010 Mar 22;188(6):851-62

The antiviral adaptor proteins Cardif and Trif are processed and inactivated by caspases.

Rebsamen M, Meylan E, Curran J, Tschopp J
Cell death and differentiation 2008 Nov;15(11):1804-11

A protective role for the human SMG-1 kinase against tumor necrosis factor-alpha-induced apoptosis.

Oliveira V, Romanow WJ, Geisen C, Otterness DM, Mercurio F, Wang HG, Dalton WS, Abraham RT
The Journal of biological chemistry 2008 May 9;283(19):13174-84

The prevention of spontaneous apoptosis of follicular lymphoma B cells by a follicular dendritic cell line: involvement of caspase-3, caspase-8 and c-FLIP.

Goval JJ, Thielen C, Bourguignon C, Greimers R, Dejardin E, Choi YS, Boniver J, de Leval L
Haematologica 2008 Aug;93(8):1169-77

Constitutive caspase activation and impaired death-inducing signaling complex formation in CD95-resistant, long-term activated, antigen-specific T cells.

Strauss G, Knape I, Melzner I, Debatin KM
Journal of immunology (Baltimore, Md. : 1950) 2003 Aug 1;171(3):1172-82

An inducible pathway for degradation of FLIP protein sensitizes tumor cells to TRAIL-induced apoptosis.

Kim Y, Suh N, Sporn M, Reed JC
The Journal of biological chemistry 2002 Jun 21;277(25):22320-9

Trail-induced apoptosis in Type I leukemic cells is not enhanced by overexpression of bax.

Jia L, Patwari Y, Kelsey SM, Newland AC
Biochemical and biophysical research communications 2001 May 25;283(5):1037-45

Fas-associated death domain protein (FADD) and caspase-8 mediate up-regulation of c-Fos by Fas ligand and tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) via a FLICE inhibitory protein (FLIP)-regulated pathway.

Siegmund D, Mauri D, Peters N, Juo P, Thome M, Reichwein M, Blenis J, Scheurich P, Tschopp J, Wajant H
The Journal of biological chemistry 2001 Aug 31;276(35):32585-90

IL-10 induces apoptosis in human monocytes involving the CD95 receptor/ligand pathway.

Schmidt M, Lügering N, Pauels HG, Schulze-Osthoff K, Domschke W, Kucharzik T
European journal of immunology 2000 Jun;30(6):1769-77

Inhibition of death receptor-mediated gene induction by a cycloheximide-sensitive factor occurs at the level of or upstream of Fas-associated death domain protein (FADD).

Wajant H, Haas E, Schwenzer R, Muhlenbeck F, Kreuz S, Schubert G, Grell M, Smith C, Scheurich P
The Journal of biological chemistry 2000 Aug 11;275(32):24357-66

Anticancer drugs induce caspase-8/FLICE activation and apoptosis in the absence of CD95 receptor/ligand interaction.

Wesselborg S, Engels IH, Rossmann E, Los M, Schulze-Osthoff K
Blood 1999 May 1;93(9):3053-63

P2Z purinoreceptor ligation induces activation of caspases with distinct roles in apoptotic and necrotic alterations of cell death.

Ferrari D, Los M, Bauer MK, Vandenabeele P, Wesselborg S, Schulze-Osthoff K
FEBS letters 1999 Mar 19;447(1):71-5

Sendai virus infection induces apoptosis through activation of caspase-8 (FLICE) and caspase-3 (CPP32).

Bitzer M, Prinz F, Bauer M, Spiegel M, Neubert WJ, Gregor M, Schulze-Osthoff K, Lauer U
Journal of virology 1999 Jan;73(1):702-8

Differential regulation and ATP requirement for caspase-8 and caspase-3 activation during CD95- and anticancer drug-induced apoptosis.

Ferrari D, Stepczynska A, Los M, Wesselborg S, Schulze-Osthoff K
The Journal of experimental medicine 1998 Sep 7;188(5):979-84

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Main image
Experimental details: . (A) Schematic structure of caspase-8 and its cleavage products as detected by anti-caspase-8 (12F5). The antibody is directed against the p18 subunit and detects procaspase-8 (p55/54), the intermediate cleavage products of 43kD and 41kD and the p18 active subunit of caspase-8. (B) Detection of Fas ligand-induced caspase-8 processing and activation in human Jurkat cells. Method: Jurkat cells were treated with Fas ligand (100ng/ml). After the indicated time points cell lysates were prepared and separated on a 12.5% SDS-PAGE (2x10E6 cells/lane) under reducing conditions. Proteins were immunoblotted with anti-caspase-8 12F5 (1µg/ml). Following incubation with peroxidase-conjugated secondary antibodies caspase-8 processing was detected by enhanced chemoluminescent staining. The open arrowhead indicates the two isoforms of procaspase-8 (caspase-8/a and caspase-8/b), which are cleaved into the intermediate forms p43 and p41 and finally processed to the active p18 subunit (filled arrowheads).