Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The response of eukaryotic cells to ionizing radiation (IR) includes induction of apoptosis. However, the signals that regulate this response are unknown. The present studies demonstrate that IR treatment of U-937 cells is associated with: (i) internucleosomal DNA fragmentation; (ii) cleavage of poly(ADP-ribose) polymerase; (iii) cleavage of protein kinase C delta; and (iv) induction of an Ac-DEVD-p-nitroanilide cleaving activity. Overexpression of the cowpox protein CrmA blocked tumor necrosis factor (TNF)-induced apoptosis but had no effect on IR-induced DNA fragmentation or cleavage of poly(ADP-ribose) polymerase and protein kinase C delta. By contrast, overexpression of the baculovirus p35 protein blocked both IR- and TNF-induced apoptosis. The results further demonstrate that the IR-induced proteolytic activity is directly inhibited by the addition of purified recombinant p35, but not by CrmA. We show that the CPP32 protease is sensitive to p35 and not CrmA. We also show that IR induces activation of CPP32 and that this event, like induction of apoptosis, is sensitive to overexpression of p35 and not CrmA. These findings indicate that IR-induced apoptosis involves activation of CPP32 and that this CrmA-insensitive apoptotic pathway is distinct from those induced by TNF and certain other stimuli.
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PMID:Activation of a CrmA-insensitive, p35-sensitive pathway in ionizing radiation-induced apoptosis. 899 87

Interleukin-1beta-converting enzyme (ICE) is a novel cysteine protease responsible for the cleavage of pre-interleukin-1beta (pre-IL-1beta) to the mature cytokine and a member of a family of related proteases (the caspases) that includes the Caenorhabditis elegans cell death gene product, CED-3. In addition to their sequence homology, these cysteine proteases display an unusual substrate specificity for peptidyl sequences with a P1 aspartate residue. We have examined the kinetics of processing pre-IL-1beta to the mature form by ICE and three of its homologs, TX, CPP-32, and CMH-1. Of the ICE homologs, only TX processes pre-IL-1beta, albeit with a catalytic efficiency 250-fold less than ICE itself. We also investigated the ability of these four proteases to process poly(ADP-ribose) polymerase, a DNA repair enzyme that is cleaved within minutes of the onset of apoptosis. Every caspase examined cleaves PARP, with catalytic efficiencies ranging from 2.3 x 10(6) M-1 s-1 for CPP32 to 1.0 x 10(3) M-1 s-1 for TX. In addition, we report kinetic constants for several reversible inhibitors and irreversible inactivators, which have been used to implicate one or more caspases in the apoptotic proteolysis cascade. Ac-Asp-Glu-Val-Asp aldehyde (DEVD-CHO) is a potent inhibitor of CPP-32 with a Ki value of 0.5 nM, but is also potent as inhibitor of CMH-1 (Ki = 35 nM) and ICE (Ki = 15 nM). The x-ray crystal structure of DEVD-CHO complexed to ICE presented here reveals electrostatic interactions not present in the Ac-YVAD-CHO co-complex structure (Wilson, K. P., Black, J.-A. F., Thomson, J. A., Kim, E. E., Griffith, J. P., Navia, M. A., Murcko, M. A., Chambers, S. P., Aldape, R. A., Raybuck, S. A., and Livingston, D. J. (1994) Nature 370, 270-275), accounting for the surprising potency of this inhibitor against ICE.
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PMID:Substrate and inhibitor specificity of interleukin-1 beta-converting enzyme and related caspases. 905 18

DNA-damaging agents induce apoptosis primarily by a p53-dependent pathway. LTR6 cells containing a temperature-sensitive p53 were used to dissect further the mechanisms of p53-induced apoptosis. Apoptosis was accompanied by the processing and activation of CPP32 and Mch3 alpha, together with the cleavage of poly(ADP-ribose) polymerase and lamin B1. These results demonstrate a critical role for the activation of interleukin-1 beta-converting enzyme-like proteases in p53-induced apoptosis.
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PMID:Activation of CPP32 and Mch3 alpha in wild-type p53-induced apoptosis. 907 37

The interferon-induced double-stranded RNA-dependent protein kinase (PKR) is a serine/threonine kinase which exerts antiviral and anticellular functions. The antiviral effect of PKR is mediated by the phosphorylation of the alpha subunit of the translational initiation factor elF-2 alpha, while it is not known whether the anticellular effect is due to phosphorylation of elF-2 alpha, l kappa B, or other unknown substrates. We have previously shown that activation of PKR during infection of cells with a vaccinia virus recombinant expressing the wild-type kinase resulted in a complete inhibition of viral and cellular protein synthesis and in the induction of apoptosis. Here, we report that expression of the human proto-oncogene bcl-2 blocks PKR-induced apoptosis but not PKR-induced inhibition of translation. In addition, PKR-induced apoptosis resulted in a cleavage of the death substrate poly(ADP-ribose) polymerase (PARP). Moreover, induction of apoptosis by PKR was not observed with a mutant lacking the third basic region (aa 234-272). Taken together, these results suggest that the third basic region of PKR is required for PKR-induced apoptosis, the process is initiated upstream of bcl-2 and involves activation of a cellular protease, CPP32, or its family members that cleave PARP.
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PMID:The apoptosis pathway triggered by the interferon-induced protein kinase PKR requires the third basic domain, initiates upstream of Bcl-2, and involves ICE-like proteases. 914 5

We characterized the activation of interleukin-1beta-converting enzyme (ICE)-like proteases (caspases) in human neuroblastoma cells (SH-SY5Y) following challenge with staurosporine, an established agent known to induce apoptosis. Time course analyses of lactate dehydrogenase release detected a significant increase in cell death as early as 6 h that continued at least until 24 h following staurosporine treatment. Western blot analyses using anti-poly(ADP-ribose) polymerase (anti-PARP) and anti-CPP32 antibodies revealed proteolytic processing of CPP32 (an ICE homologue) as well as fragmentation of PARP as early as 3 h following staurosporine challenge. Furthermore, the hydrolysis of the CPP32 substrate acetyl-DEVD-7-amido-4-methylcoumarin was detected as early as 3 h and became maximal at 6 h after staurosporine challenge, suggesting a delayed and sustained period of CPP32-like activation. In addition, we used the first immunohistochemical examination of CPP32 and PARP in cells following an apoptotic challenge. The localization of CPP32 in untreated SH-SY5Y cells was exclusively restricted to the cytoplasm. Following staurosporine challenge there was a condensing of CPP32 immunofluorescence from the cytoplasm to a region adjacent to the plasma membrane. In contrast, PARP immunofluorescence was evenly distributed in the nucleus in untreated SH-SY5Y cells and on staurosporine challenge was found to be associated with condensed chromatin. It is important that a pan ICE inhibitor [carbobenzoxy-Asp-CH2OC(O)-2,6-dichlorobenzene] was able to attenuate lactate dehydrogenase release and PARP and CPP32 cleavage and altered immunohistochemical staining patterns for PARP and CPP32 following staurosporine challenge.
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PMID:Characterization of CPP32-like protease activity following apoptotic challenge in SH-SY5Y neuroblastoma cells. 916 25

p53-mediated apoptosis in baby rat kidney (BRK) cell lines transformed by E1A and p53(val135) requires a transcriptionally functional p53. Coexpression of the E1B 19K protein in BRK cell lines transformed by E1A and p53(val135) rescues cells from p53-mediated apoptosis, and this is paralleled by the absence of both lamin and poly(ADP-ribose) polymerase cleavage. Therefore, the role of interleukin 1 beta converting enzyme (ICE)-like porteases in p53-mediated, transcriptionally dependent apoptosis was investigated. The ICE-like protease CPP32 was proteolytically activated during p53-mediated apoptosis in BRK cells, and this required a transcriptionally competent p53. Substitution of the p53 transactivation domain with the transactivation domain of herpes simplex virus VP16 (VP16/p53) resulted in accelerated kinetics of both apoptosis and Bax induction. Moreover, apoptosis induced by p53, VP16/p53, and Bax was abrogated by Z-VAD.FMK, an inhibitor of ICE-like proteases. These results indicate that all apoptotic pathways downstream of p53-mediated transcription converge upon the activation of ICE-like proteases.
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PMID:Interleukin 1 beta converting enzyme-like proteases are essential for p53-mediated transcriptionally dependent apoptosis. 918 98

In the granule exocytosis pathway of cell-mediated cytotoxicity, rapid apoptotic nuclear damage in target cells has been unequivocally linked to granzyme B activity. Direct cleavage and activation of caspase-3 and related proteases by granzyme B have been identified as a central event in apoptosis induction by cytotoxic granules. The Bcl-2 oncoprotein has been recently shown to act at the level or upstream of caspase-3 family activation to inhibit apoptosis induced by various stimuli including Fas ligation, an alternative cell-mediated lytic pathway. In this study, we have investigated whether activation of this caspase family by granzyme B, during human NK and lymphokine-activated killer cell granule-mediated apoptosis, could be influenced by Bcl-2 expression. Bcl-2-overexpressing clones were generated from parental K562 and U937 cell lines (K6 and U4 clones, respectively). Bcl-2 expression abrogated early 125I-DNA release and DNA fragmentation, these defects being compensated for by extended incubation times. Cleavage of poly(ADP-ribose) polymerase, a specific caspase-3 family substrate, was detected in parental K562 cells exposed to lymphokine-activated killer effectors but not in K6 targets, indicating that caspase-3 and related proteases function was inhibited by Bcl-2. Functional inhibition of caspase-3 family with benzyloxycarbonyl-Asp-Glu-Val-Asp(OMe) fluoromethylketone led to similar consequences on apoptotic nuclear events as for Bcl-2 expression. Thus, Bcl-2 antagonizes granzyme B-mediated apoptosis by a mechanism that interferes with caspase-3 activity. Finally, Bcl-2 expression or the Asp-Glu-Val-Asp peptide was much less efficient in preventing phosphatidylserine externalization, suggesting that despite impaired nuclear apoptosis, immediate recognition and elimination of Bcl-2-expressing cells by tissue phagocytes should remain partly unaffected.
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PMID:Bcl-2 expression in target cells leads to functional inhibition of caspase-3 protease family in human NK and lymphokine-activated killer cell granule-mediated apoptosis. 920 Apr 47

The prevention of apoptosis by Zn2+ has generally been attributed to its inhibition of an endonuclease acting in the late phase of apoptosis. In this study we investigated the effect of Zn2+ on an earlier event in the apoptotic process, the proteolysis of the "death substrate" poly(ADP-ribose) polymerase (PARP). Pretreatment of intact Molt4 leukemia cells with micromolar concentrations of Zn2+ caused an inhibition of PARP proteolysis induced by the chemotherapeutic agent etoposide. Using a cell-free system consisting of purified bovine PARP as a substrate and an apoptotic extract or recombinant caspase-3 as the PARP protease, Zn2+ inhibited PARP proteolysis in the low micromolar range. To rule out an effect of Zn2+ on PARP, a protein with two zinc finger domains, we used recombinant caspase-3 and a chromogenic tetrapeptide substrate containing the caspase-3 cleavage site. In this system, Zn2+ inhibited caspase-3 with an IC50 of 0.1 microM. These results identify caspase-3 as a novel target of Zn2+ inhibition in apoptosis and suggest a regulatory role for Zn2+ in modulating the upstream apoptotic machinery.
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PMID:Zinc is a potent inhibitor of the apoptotic protease, caspase-3. A novel target for zinc in the inhibition of apoptosis. 922 15

We report the identification of the large subunit of the DNA replication factor, DSEB/RF-C140, as a new substrate for caspase-3 (CPP32/YAMA), or a very closely related protease activated during Fas-induced apoptosis in Jurkat T cells. DSEB/RF-C140 is a multifunctional DNA-binding protein with sequence homology to poly(ADP-ribose) polymerase (PARP). This similarity includes a consensus DEVD/G cleavage site for caspase-3. Cleavage of DSEB/RF-C140 is predicted to occurs between Asp706 and Gly707, generating 87-kDa and 53-kDa fragments. An antiserum raised against the amino-terminal domain of DSEB/RF-C140 detects a new 87-kDa protein in Jurkat T cells in which apoptosis is activated by a monoclonal antibody to Fas. This cleavage occurs shortly after PARP cleavage. In vitro translated DSEB/RF-C140 is specifically cleaved into the predicted fragments when incubated with a cytoplasmic extract from Fas antibody-treated cells. Proteolytic cleavage was prevented by substituting Asp706 by an alanine in the DEVD706/G caspase-3 cleavage site. The cleavage of DSEB/RF-C140 is prevented by iodoacetamide and the specific caspase-3 inhibitor, tetrapeptide aldehyde Ac-DEVD-CHO, but not by the specific ICE (interleukin-1-converting enzyme) inhibitors: CrmA and Ac-YVAD-CHO, indicating that the protease responsible for the cleavage of DSEB/RF-C140 during Fas-induced apoptosis in Jurkat cells is caspase-3, or a closely related protease. This conclusion is reinforced by the fact that recombinant caspase-3 but not caspase-1 reproduced the "in vivo" cleavage. Inasmuch as the cleavage of DSEB/RF-C140 separates its DNA binding from its association domain, required for replication complex formation, we propose that such a cleavage will impair DNA replication. Recent in vitro mutagenesis support this proposal (Uhlmann, F., Cai, J., Gibbs, E., O'Donnel, M., and Hurwitz, J. (1997) J. Biol. Chem. 272, 10058-10064).
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PMID:The large subunit of the DNA replication complex C (DSEB/RF-C140) cleaved and inactivated by caspase-3 (CPP32/YAMA) during Fas-induced apoptosis. 923 61

The Fas/Fas ligand (FasL) pathway is widely involved in apoptotic cell death in lymphoid and nonlymphoid cells. It has recently been postulated that many chemotherapeutic agents also induce cell death by activating the Fas/FasL pathway. In the present study we compared apoptotic pathways induced by anti-Fas or chemotherapeutic agents in the Jurkat human T-cell leukemia line. Immunoblotting showed that treatment of wild-type Jurkat cells with anti-Fas or the topoisomerase II-directed agent etoposide resulted in proteolytic cleavage of precursors for the cysteine-dependent aspartate-directed proteases caspase-3 and caspase-7 and degradation of the caspase substrates poly(ADP-ribose) polymerase (PARP) and lamin B1. Likewise, affinity labeling with N-(N(alpha)-benzyloxycarbonylglutamyl-N(epsilon)-biotinyllysyl+ ++)aspartic acid [(2,6-dimethyl-benzoyl)oxy]methyl ketone [Z-EK(bio)D-amok] labeled the same five active caspase species after each treatment, suggesting that the same downstream apoptotic pathways have been activated by anti-Fas and etoposide. Treatment with ZB4, an antibody that inhibits Fas-mediated cell death, failed to block etoposide-induced apoptosis, raising the possibility that etoposide does not initiate apoptosis through Fas/FasL interactions. To further explore the relationship between Fas- and chemotherapy-induced apoptosis, Fas-resistant Jurkat cells were treated with various chemotherapeutic agents. Multiple independently derived Fas-resistant Jurkat lines underwent apoptosis that was indistinguishable from that of the Fas-sensitive parental cells after treatment with etoposide, doxorubicin, topotecan, cisplatin, methotrexate, staurosporine, or gamma-irradiation. These results indicate that antineoplastic treatments induce apoptosis through a Fas-independent pathway even though Fas- and chemotherapy-induced pathways converge on common downstream apoptotic effector molecules.
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PMID:Comparison of apoptosis in wild-type and Fas-resistant cells: chemotherapy-induced apoptosis is not dependent on Fas/Fas ligand interactions. 924 21


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