Back to Search
Start Over
A New C-Terminal Cleavage Product of Procaspase-8, p30, Defines an Alternative Pathway of Procaspase-8 Activation
- Source :
- Molecular and Cellular Biology. 29:4431-4440
- Publication Year :
- 2009
- Publisher :
- Informa UK Limited, 2009.
-
Abstract
- Apoptosis can be triggered by a number of factors, including UV or γ-irradiation, chemotherapeutic drugs, and signaling from death receptors (11, 12). CD95 (APO-1/Fas) is a member of the death receptor family, a subfamily of the tumor necrosis factor receptor (TNF-R) superfamily (1, 30). Eight members of the death receptor subfamily have been characterized so far: TNF-R1 (DR1, CD120a, p55, p60), CD95 (DR2, APO-1, Fas), DR3 (APO-3, LARD, TRAMP, WSL1), TRAIL-R1 (APO-2, DR4), TRAIL-R2 (DR5, KILLER, TRICK2), DR6, EDA-R, and NGF-R (13). Cross-linking of CD95 by its natural ligand, CD95L (CD178) (29), or by agonistic antibodies induces apoptosis in sensitive cells (31, 36). The death-inducing signaling complex (DISC) is formed within seconds after CD95 stimulation (9). The DISC consists of oligomerized, probably trimerized CD95 receptors, the adaptor molecule FADD, two isoforms of procaspase-8 (procaspase-8a and -8b), procaspase-10, and c-FLIPL/S/R (6, 19, 21, 25, 27). The interactions between molecules at the DISC are based on homotypic contacts. The death domain of the receptor interacts with the death domain of FADD, while the death effector domain (DED) of FADD interacts with the N-terminal tandem DEDs of procaspase-8 and -10 and c-FLIPL/S/R. Two isoforms of procaspase-8 (procaspase-8a and procaspase-8b) were reported to be bound to the DISC (24). Both isoforms possess two tandem DEDs, as well as the catalytic subunits p18 and p10 (see Fig. Fig.1A).1A). Procaspase-8a contains an additional 2-kDa (15-amino-acid [aa]) fragment, which results from the translation of exon 9. This small fragment is located between the second DED and the large catalytic subunit, resulting in different lengths of procaspase-8a and -8b (p55 and p53 kDa), respectively. FIG. 1. A new 30-kDa protein is detected by the anti-caspase-8 MAb C15. (A) Scheme of procaspase-8 and its cleavage products. The binding sites of the anti-caspase-8 MAbs C5 and C15 are indicated. (B) The B-lymphoblastoid cell lines SKW6.4, Raji, and BJAB and ... Activation of procaspase-8 is believed to follow an “induced-proximity” model in which high local concentrations and a favorable mutual orientation of procaspase-8 molecules at the DISC lead to their autoproteolytic processing (2, 3, 20). There is strong evidence from several in vitro studies that autoproteolytic activation of procaspase-8 occurs after oligomerization at the receptor complex (20). Furthermore, it has been shown that homodimers of procaspase-8 have proteolytic activity and that proteolytic processing of procaspase-8 occurs between precursor homodimers (3). Procaspase-8a/b (p55/p53) processing at the DISC has been described to involve two sequential cleavage steps (see Fig. Fig.1A).1A). This process is referred to as the “two-step model” (3, 17). The first cleavage step occurs between the two protease domains, and the second cleavage step takes place between the prodomain and the large protease subunit (see Fig. Fig.1A)1A) (15). During the first cleavage step, the cleavage at Asp374 generates the two subunits p43/p41 and p12. Both cleavage products remain bound to the DISC: p43/p41 by DED interactions and p12 by interactions with the large protease domain of p43/p41. The second cleavage step takes place at Asp216 and Asp384, producing the active enzyme subunits p18, p10, and the prodomain p26/p24. As a result of procaspase-8 processing, the active caspase-8 heterotetramer p182-p102 is formed at the DISC. This heterotetramer is subsequently released into the cytosol, starting the apoptotic signaling cascade (14). Recent studies have shown that processing of procaspase-8 at the DISC is more complicated and can involve additional steps like the generation of a prolonged prodomain of procaspase-8, termed CAP3 (p27), that is quickly converted to p26 (see Fig. Fig.1A)1A) (7). In addition to its central role in death receptor-induced apoptosis, caspase-8 was reported to be required for proliferation of lymphocytes (12, 23). Recently caspase-8 was shown to be an important factor for NF-κB activation following T-cell receptor stimulation (28). The mechanism underlying the dual role of caspase-8 activity and its regulation is largely unknown. In the present study, we show that upon death receptor stimulation, p30 is formed by cleavage at Asp210, a yet-unknown cleavage product of procaspase-8, which comprises the C terminus of procaspase-8. p30 turned out to be a key intermediate product in the course of procaspase-8 processing. Furthermore, we suggest that the p30-mediated activation of procaspase-8 plays an important role in the amplification of the death signal. Taken together, our findings provide a new mechanism of procaspase-8 activation and extend the current two-step cleavage model by an alternative activation pathway.
- Subjects :
- Receptor complex
CASP8 and FADD-Like Apoptosis Regulating Protein
Apoptosis
Biology
Cleavage (embryo)
Jurkat Cells
Humans
fas Receptor
FADD
Molecular Biology
Death domain
Caspase 8
Antibodies, Monoclonal
Receptors, Death Domain
Articles
Cell Biology
Fas receptor
Heterotetramer
Molecular biology
Peptide Fragments
Protein Structure, Tertiary
Cell biology
Enzyme Activation
Caspases
Death-inducing signaling complex
biology.protein
Death effector domain
Signal Transduction
Subjects
Details
- ISSN :
- 10985549
- Volume :
- 29
- Database :
- OpenAIRE
- Journal :
- Molecular and Cellular Biology
- Accession number :
- edsair.doi.dedup.....81202f50671c591ad7d72042a91151e2