| Reactivity | HuSpecies Glossary |
| Applications | Enzyme Activity |
| Format | Carrier-Free |
| Details of Functionality | Measured by its ability to cleave a fluorogenic peptide substrate Ac-IETD-AFC. The specific activity is >1,000 pmol/min/μg, as measured under the described conditions. |
| Source | E. coli-derived human Caspase-8 protein Ser217-Asp384 (Asp285His) (p18 subunit) & Leu385-Asp479 (p10 subunit), with a C-terminal 6-His tag |
| Accession # | |
| N-terminal Sequence | Ser217 (p18 subunit) & Leu385 (p10 subunit) |
| Protein/Peptide Type | Recombinant Enzymes |
| Gene | CASP8 |
| Purity | >95%, by SDS-PAGE under reducing conditions and visualized by silver stain |
| Endotoxin Note | <1.0 EU per 1 μg of the protein by the LAL method. |
| Dilutions |
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| Theoretical MW | 18 kDa & 10 kDa. Disclaimer note: The observed molecular weight of the protein may vary from the listed predicted molecular weight due to post translational modifications, post translation cleavages, relative charges, and other experimental factors. |
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| SDS-PAGE | 18 kDa and 10 kDa, reducing conditions |
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| Publications |
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| Storage | Use a manual defrost freezer and avoid repeated freeze-thaw cycles.
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| Buffer | Supplied as a 0.2 μm filtered solution in HEPES, NaCl, DTT and Sucrose. |
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| Purity | >95%, by SDS-PAGE under reducing conditions and visualized by silver stain |
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| Assay Procedure |
*Adjusted for Substrate Blank
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Caspase-8 (Cysteine-aspartic acid protease 8/Casp8a; also named MCH5, FLICA and MACH alpha 1) is a 28 kDa member of the peptidase C14A family of enzymes (1, 2, 3). It is widely expressed and is considered an initiating caspase for the apoptotic cascade (4). Caspase-8 acts on a wide variety of substrates, including procaspases‑3, 4, 6, 7, 9 and 10, c‑FLIPL and procaspase-8 itself (1, 5 6). Human procaspase‑8a is a 54‑56 kDa, 479 amino acid (aa) protein (4, 7, 8, 9). It contains two N‑terminal death domains (aa 1‑177), followed by a catalytic site that utilizes His317Gly318 plus Cys360. Normally, it is an inactive, cytosolic monomer (1, 10, 11). But following death‑domain (DD) containing receptor oligomerization, Caspase‑8 is recruited to the death-inducing signaling complex (DISC) that forms around the death domains of the oligomerized receptor (12). FADD/CAP-1 is recruited first, followed by procaspase‑8/CAP‑4 and, possibly, c‑FLIPL and procaspase‑10 (12). The recruitment, or concentration, of procaspase-8 induces homodimerization. This act alone is sufficient for activation. However, the activity level is modest at best, and appears to be directed towards either itself, or c‑FLIPL, which is known to form a functional heterodimer with procaspase‑8 (5, 11). When directed towards itself, autocleavage occurs first between Asp374Ser375, generating a 43 kDa (p43) N‑terminal (aa 1‑374) and an 11 kDa C‑terminal (aa 375‑479) fragment. The C‑terminus is further cleaved between Asp384Leu385 to generate a mature p10 subunit (aa 385‑479). The p43 subunit is next cleaved twice, once between Asp216Ser217, and again between Asp210Ser211 to generate a 26 kDa DD‑containing prodomain (aa 1‑210) with an additional 18 kDa mature p18 subunit (aa 217‑374) (12). p18 and p10 noncovalently associate to form a 28 kDa heterodimer, which subsequently associates with another p18:p10 heterodimer to form an active, mature caspase‑8 molecule. This leaves the DISC to act on downstream apoptotic procaspases. In the event procaspase‑8 comes to the DISC complexed with c-FLIPL, c-FLIPL will be cleaved by procaspase‑8, generating a p43 fragment that is analogous to the Caspase‑8 p43 subunit. This fragment, however, appears not to be an intermediate in a proteolytic cascade. Rather, it serves as a functional subunit, interacting with TRAF2 and activating NF kappa B. This may account for many of the nonapoptotic activities associated with Caspase‑8 (5, 6, 13). Mature human and mouse Caspase‑8a heterodimers are 73% aa identical (14).
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The NLRP3 Inflammasome: Macrophage Activator & Pathology Driver By Victoria Osinski, PhDWhat is the NLRP3 Inflammasome?With its critical role in innate immunity, the nucleotide-binding oligomerization domain-like receptor family, pyrin domain containing 3 (NLRP3) inflammasome ... Read full blog post. |
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Pyroptosis: Mechanisms mediating cell death and pro-inflammatory cytokine release By Victoria OsinskiPyroptosis is an inflammatory form of programmed cell death characterized by the release of pro-inflammatory cytokines IL-1 beta and IL-18.1,10 It is a process distinct from apoptosis and necrosis (T... Read full blog post. |
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Caspase-3, The Executioner of Apoptosis The Role of Caspase-3 in ApoptosisCaspase-3 enzyme is a member of the family of endoproteases which regulate inflammation and apoptosis signaling networks. Caspase-3 is known as an executioner caspase in apoptosis because of its role in coordinat... Read full blog post. |
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VPS41 - An important regulator of lysosomal trafficking Membrane fusion is an essential step during the trafficking of endosomes and vesicles throughout the cell. Membrane fusion events are facilitated by multisubunit tethering complexes (MTC) including CORVET and HOPS. These complexes interact with Rab... Read full blog post. |
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Caspase-8 - a pro-apoptotic protein with dynamic roles in normal physiology and pathology Caspases are a family of cysteine-aspartic acid proteases that are responsible for the initiation and execution of apoptosis. Caspase-8 is a 55 kDa protein expressed as an inactive procaspase that resides in the cytosol. Activation of Caspase-8 req... Read full blog post. |
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Caspase 8 - a key mediator of apoptosis Programmed cell death via apoptosis is a key controlled physiological process instigated by the cell death receptor family, their ligands, and the caspase cysteine protease family. All caspases exist in a precursor form that contains a prodomain, a... Read full blog post. |
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