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)

Fas (Apo1/CD95) is a member of the tumour necrosis factor/nerve growth factor receptor superfamily and mediates apoptosis in various cell types (for review sec [1]). Although this apoptotic activity has been clearly related to homeostasis in the immune system and pathological situations in non-lymphoid organs, the Fas signaling pathway remains mostly elusive. We and others previously showed that Fas-induced apoptosis of primary culture hepatocytes requires either an inhibitor of translation or a protein kinase inhibitor, suggesting that two distinct pathways of Fas signaling exist in hepatocytes. We report here that activation of ICE-like and CPP32-like cysteine proteases are required for Fas-mediated apoptosis, but that these pathways involve different subclasses of serine proteases and are selectively modulated by inhibitors of protein tyrosine kinases. These results confirm that distinct pathways can lead to Fas-induced apoptosis in hepatocytes. Further understanding of these pathways could facilitate the rational design of anti-apoptotic drugs in liver diseases associated with massive Fas-mediated hepatocyte apoptosis, including fulminant hepatitis.
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PMID:Multiple pathways of Fas-induced apoptosis in primary culture of hepatocytes. 895 79

The Fas/APO-1-receptor associated cysteine protease Mch5 (MACH/FLICE) is believed to be the enzyme responsible for activating a protease cascade after Fas-receptor ligation, leading to cell death. The Fas-apoptotic pathway is potently inhibited by the cowpox serpin CrmA, suggesting that Mch5 could be the target of this serpin. Bacterial expression of proMch5 generated a mature enzyme composed of two subunits, which are derived from the pre-cursor proenzyme by processing at Asp-227, Asp-233, Asp-391, and Asp-401. We demonstrate that recombinant Mch5 is able to process/activate all known ICE/Ced-3-like cysteine proteases and is potently inhibited by CrmA. This contrasts with the observation that Mch4, the second FADD-related cysteine protease that is also able to process/activate all known ICE/Ced-3-like cysteine proteases, is poorly inhibited by CrmA. These data suggest that Mch5 is the most upstream protease that receives the activation signal from the Fas-receptor to initiate the apoptotic protease cascade that leads to activation of ICE-like proteases (TX, ICE, and ICE-relIII), Ced-3-like proteases (CPP32, Mch2, Mch3, Mch4, and Mch6), and the ICH-1 protease. On the other hand, Mch4 could be a second upstream protease that is responsible for activation of the same protease cascade in CrmA-insensitive apoptotic pathways.
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PMID:Molecular ordering of the Fas-apoptotic pathway: the Fas/APO-1 protease Mch5 is a CrmA-inhibitable protease that activates multiple Ced-3/ICE-like cysteine proteases. 896 78

Since mammalian cardiac myocytes essentially rely on aerobic energy metabolism, it has been assumed that cardiocytes die in a catastrophic breakdown of cellular homeostasis (i.e. necrosis), if oxygen supply remains below a critical limit. Recent observations, however, indicate that a process of gene-directed cellular suicide (i.e. apoptosis) is activated in terminally differentiated cardiocytes of the adult mammalian heart by ischemia and reperfusion, and by cardiac overload as well. Apoptosis or programmed cell death is an actively regulated process of cellular self destruction, which requires energy and de novo gene expression, and which is directed by an inborn genetic program. The final result of this program is the fragmentation of nuclear DNA into typical 'nucleosomal ladders', while the functional integrity of the cell membrane and of other cellular organelles is still maintained. The critical step in this regulated apoptotic DNA fragmentation is the proteolytic inactivation of poly-[ADP-ribose]-polymerase (PARP) by a group of cysteine proteases with some structural homologies to interleukin-1 beta-converting enzyme (ICE-related proteases [IRPs] such as apopain, yama and others). PARP catalyzes the ADP-ribosylation of nuclear proteins at the sites of spontaneous DNA strand breaks and thereby facilitates the repair of this DNA damage. IRP-mediated destruction of PARP, the 'supervisor of the genome', can be induced by activation of membrane receptors (e.g. FAS or APOI) and other signals, and is inhibited by activation of 'anti-death genes' (e.g. bcl-2). Overload-triggered myocyte apoptosis appears to contribute to the transition to cardiac failure, which can be prevented by therapeutic hemodynamic unloading. In myocardial ischemia, the activation of the apoptotic program in cardiocytes does not exclude their final destiny to catastrophic necrosis with release of cytosolic enzymes, but might be considered as an adaptive process in hypoperfused ventricular zones, sacrificing some jeopardized myocytes to regulated apoptosis, which may be less arrhythmogenic than necrosis with the primary disturbance of membrane function.
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PMID:Apoptosis in the heart: when and why? 897 66

Recent studies have shown that protein kinase C (PKC) delta is proteolytically activated at the onset of apoptosis induced by DNA-damaging agents, tumor necrosis factor, and anti-Fas antibody. However, the relationship of PKC delta cleavage to induction of apoptosis is unknown. The present studies demonstrate that full-length PKC delta is cleaved at DMQD330N to a catalytically active fragment by the cysteine protease CPP32. The results also demonstrate that overexpression of the catalytic kinase fragment in cells is associated with chromatin condensation, nuclear fragmentation, induction of sub-G1 phase DNA and lethality. By contrast, overexpression of full-length PKC delta or a kinase inactive PKC delta fragment had no detectable effect. The findings suggest that proteolytic activation of PKC delta by a CPP32-like protease contributes to phenotypic changes associated with apoptosis.
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PMID:Proteolytic activation of protein kinase C delta by an ICE/CED 3-like protease induces characteristics of apoptosis. 897 94

Both IL-1beta convertase (ICE) and other members of the ICE-like family of proteases have been reported to play a role in Fas-mediated apoptosis. Con A-stimulated T lymphoblasts generated from splenocytes isolated from ICE-deficient H-2b mice were found to be more susceptible than wild-type lymphoblasts to DNA fragmentation induced by H-2b-specific CTL derived from normal or Fas ligand-deficient gld/gld mice. Trinitrophenyl (TNP)-modified, H-2b target cell-specific CTL were generated from perforin-deficient mice and were found to induce DNA fragmentation only in target cells expressing functional Fas receptors. Similar rates of DNA fragmentation were induced in TNP-modified ICE -/- and ICE +/+ T lymphoblast targets by perforin -/- TNP-modified, H-2b target cell-specific CTL. In addition, anti-Fas Abs induced apoptosis in thymocytes, Con A-stimulated spleen T cells, LPS-stimulated spleen B cells, and thymocytes from ICE -/- mice. However, DNA fragmentation induced by either allospecific FasL-defective CTL, or by perforin-deficient, TNP-modified, H-2b target cell-specific CTL was prevented in ICE -/- target cells loaded by electroporation with Ac-DEVD-CHO, an inhibitor of CPP32 and related ICE family proteases. These findings indicate that ICE does not play a requisite role in Fas-dependent or Fas-independent mechanisms of apoptosis induced in peripheral T lymphoblasts by CTL. However, both major pathways of CTL-induced apoptosis appear to be dependent on the enzymatic activity of other ICE family proteases.
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PMID:IL-1 beta convertase (ICE) does not play a requisite role in apoptosis induced in T lymphoblasts by Fas-dependent or Fas-independent CTL effector mechanisms. 897 87

Recent investigations have been suggesting that some neuronal subpopulations may die via programmed cell death after focal ischemic injury. To clarify the possible roles of the genes involved in the cell-death program, this study examined the expression of three members of the interleukin-1 beta converting enzyme (Ice) gene family (Ice, Nedd2, and Yama/CPP32) and two members of the bcl-2 gene family (bcl-2 and bcl-x) in the rat brain after permanent occlusion of the middle cerebral artery. Northern blot analysis revealed a transient induction of Nedd2 mRNA 8 h after the ischemic insult (3.8-fold) and an increase in Yama/CPP32 mRNA 16 to 24 h after the insult (5.8-fold at 24 h), whereas the expression of Ice remained constant. The expression of bcl-2 and bcl-x remained constant after the ischemic insult. Taking into account the key role of the Ice gene family in the execution of programmed cell death, the induction of Ice gene family might play a causative role in apoptotic cell death.
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PMID:Expression of interleukin-1 beta converting enzyme gene family and bcl-2 gene family in the rat brain following permanent occlusion of the middle cerebral artery. 897 82

Physiological levels of shear stress alter the genetic program of cultured endothelial cells and reduce endothelial cell turnover in vivo. To test the hypothesis that shear stress interferes with programmed cell death, apoptosis was induced in human umbilical venous endothelial cells by growth factor withdrawal or incubation with tumor necrosis factor alpha (TNFalpha) for 18 h. Apoptosis was quantified by ELISA specific for histone-associated DNA fragments and confirmed by demonstrating the specific pattern of internucleosomal DNA fragmentation detected by electrophoresis and immunohistochemical staining. The TNFalpha (300 U/ml)-mediated increase in DNA fragmentation was completely abrogated by shear stress. Furthermore, shear stress dose-dependently reduced DNA fragmentation induced by growth factor withdrawal with maximal effect at 45 dyn/cm2. Inhibition of the CPP32-like proteases with Ac-DEVD-CHO (100 microM) revealed similar anti-apoptotic effects. In contrast, CPP32-independent induction of endothelial cell apoptosis by C2-ceramide (50 microM) was not prevented by shear stress. Thus, we propose that shear stress interferes with common cell death signal transduction involving the CPP32-like protease family and may contribute to endothelial cell integrity by inhibition of apoptosis.
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PMID:Shear stress inhibits apoptosis of human endothelial cells. 898 Jan 22

We previously found that retinoblastoma (RB) is cleaved at the initiation of apoptotic execution. Here we report that when an HL-60 cell line resistant to cytosine arabinoside (Ara-C) was exposed to this anticancer drug, neither RB cleavage nor apoptosis was detected. Consistent with that, processing of interleukin 1beta-converting enzyme (ICE) and CPP32 (an ICE-like protease) was also prevented in these cells. In contrast, treatment of the HL-60-Ara-C-resistant cells with etoposide induced all of these apoptotic events. Furthermore, the etoposide-induced RB cleavage was inhibited by a specific tetrapeptide ICE-like inhibitor. Our results demonstrate that activation of the RB cleavage enzyme, an ICE-like protease, is required for overcoming drug resistance.
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PMID:Failure to activate interleukin 1beta-converting enzyme-like proteases and to cleave retinoblastoma protein in drug-resistant cells. 898 Jan 42

Neuronal apoptosis occurs during nervous system development and after pathological insults to the adult nervous system. Inhibition of CED3/ICE-related proteases has been shown to inhibit neuronal apoptosis in vitro and in vivo, indicating a role for these cysteine proteases in neuronal apoptosis. We have studied the activation of the CED3/ICE-related protease CPP32 in two in vitro models of mouse cerebellar granule neuronal cell death: K+/serum deprivation-induced apoptosis and glutamate-induced necrosis. Pretreatment of granule neurons with a selective, irreversible inhibitor of CED3/ICE family proteases, ZVAD-fluoromethylketone, specifically inhibited granule neuron apoptosis but not necrosis, indicating a selective role for CED3/ICE proteases in granule neuron apoptosis. Extracts prepared from apoptotic, but not necrotic, granule neurons contained a protease activity that cleaved the CPP32 substrate Ac-DEVD-aminomethylcoumarin. Induction of the protease activity was prevented by inhibitors of RNA or protein synthesis or by the CED3/ICE protease inhibitor. Affinity labeling of the protease activity with an irreversible CED3/ICE protease inhibitor, ZVK(biotin)D-fluoromethylketone, identified two putative protease subunits, p20 and p18, that were present in apoptotic but not necrotic granule neuron extracts. Western blotting with antibodies to the C terminus of the large subunit of mouse CPP32 (anti-CPP32) identified p20 and p18 as processed subunits of the CPP32 proenzyme. Anti-CPP32 specifically inhibited the DEVD-amc cleaving activity, verifying the presence of active CPP32 protease in the apoptotic granule neuron extracts. Western blotting demonstrated that the CPP32 proenzyme was expressed in granule neurons before induction of apoptosis. These results demonstrate that the CED3/ICE homolog CPP32 is processed and activated during cerebellar granule neuron apoptosis. CPP32 activation requires macromolecular synthesis and CED3/ICE protease activity. The lack of CPP32 activation during granule neuron necrosis suggests that proteolytic processing and activation of CED3/ICE proteases are specific biochemical markers of apoptosis.
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PMID:Activation of the CED3/ICE-related protease CPP32 in cerebellar granule neurons undergoing apoptosis but not necrosis. 898 78

Recent evidence suggests that members of the interleukin-1-beta-converting enzyme (ICE)/Ced-3 family are key mediators of mammalian apoptosis. The known members of the ICE/Ced-3 cysteine protease family are synthesized as proenzymes and require proteolytic processing to produce active, heterodimeric enzymes. The baculovirus protein P35 has recently been shown to inhibit several members of the ICE/Ced-3 cysteine protease family. The importance of ICE/Ced-3 cysteine proteases in programmed cell death prompted us to investigate the role of the apoptotic mediator, CPP32, in the glucocorticoid-mediated cell death pathway. Glucocorticoids induce growth inhibition and apoptosis in sensitive leukemic cell lines, immature thymocytes, and eosinophils. In this report, we demonstrate the enzymatic cleavage of proCPP32 to its active subunits in cells undergoing glucocorticoid-induced apoptotic cell death. Concurrently, in apoptotic cells, PARP, a 116-kilodalton (kDa) human poly(ADP-ribose) polymerase, is proteolytically cleaved to its signature 85-kDa fragment. The proteolytic processing of PARP (the nuclear DNA repair enzyme known to be cleaved in association with apoptosis) is catalyzed by members of the ICE/Ced-3 family. Importantly, stable transfection of the antiapoptotic baculovirus P35 inhibits glucocorticoid-induced apoptotic cell death, proteolytic processing of proCPP32, and cleavage of the 116kDa PARP. We conclude that activation of CPP32 is a critical event in glucocorticoid-induced apoptosis and that this pathway is inhibited at or upstream of CPP32 by baculovirus P35. These data demonstrate that PARP cleavage occurs during glucocorticoid-induced apoptotic cell death and show that this proteolytic process is blocked by the expression of baculovirus P35, supporting a role for activation of the ICE/Ced-3-like cysteine protease during glucocorticoid-induced apoptosis.
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PMID:Baculovirus P35 inhibits the glucocorticoid-mediated pathway of cell death. 898 38


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