EC:3.4.22.56 - FACTA Search

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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 Caenorhabditis elegans death susceptibility gene, ced-3, has a number of homologs in vertebrate species, including interleukin-1 beta (IL-1 beta)-converting enzyme (ICE), Ich-1long, and CPP32. These genes, which encode a family of related proteases, have been shown to induce apoptosis when transfected into eukaryotic cells. However, it remains to be determined whether these proteases are involved in apoptotic cell death under physiological conditions. The purpose of these studies was to examine the role of ICE-related proteases (IRPs) in apoptosis using a physiologically relevant model system, the ovarian follicle. Somatic granulosa cells within ovarian follicles undergo apoptosis during follicular atresia, a process responsible for the depletion of greater than 95% of the follicles established in the postnatal ovary. To accomplish these studies, we cloned partial rat complementary DNAs encoding ICE, Ich-1, and CPP32 and used these complementary DNAs to examine the gonadotropin regulation of ICE, Ich-1, and CPP32 gene expression in the immature rat ovary. We also examined levels of ICE activity in healthy and atretic rat follicles by monitoring the conversion of exogenous pro-IL-1 beta to the active cytokine, and then evaluated the actions of recombinant IL-1 beta on apoptosis in follicles incubated in vitro. Finally, we tested the requirement for IRP activity in granulosa cell apoptosis and follicular atresia by incubating follicles without and with IRP inhibitors. Northern blot analysis of total RNA samples indicated that gonadotropin-promoted follicular survival was associated with reduced ovarian expression of messenger RNAs encoding Ich-1 and CPP32. In contrast, ICE messenger RNA levels were extremely low and were not affected by gonadotropin treatment. We were also unable to detect ICE activity in proteins extracted from either healthy or atretic rat follicles, collectively suggesting that ICE per se may not function in granulosa cell death. As another approach to determine whether ICE is involved in atresia, healthy antral follicles were isolated from ovaries of gonadotropin-primed immature rats and incubated for 24 h in the absence or presence of 100 ng/ml transforming growth factor-alpha (TGF alpha) without and with 100 ng/ml IL-1 beta. Granulosa cells within follicles incubated in medium alone exhibited extensive levels of apoptosis, and this onset of apoptosis was prevented by the inclusion of TGF alpha. Addition of IL-1 beta did not alter basal levels of apoptosis nor did the cytokine antagonize TGF-alpha-promoted follicle survival, providing additional evidence that ICE activity is not required for atresia to occur.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Interleukin-1 beta-converting enzyme-related proteases (IRPs) and mammalian cell death: dissociation of IRP-induced oligonucleosomal endonuclease activity from morphological apoptosis in granulosa cells of the ovarian follicle. 758 40

We have developed a PCR approach to clone new apoptotic Ced-3/Ice-like cysteine protease genes. This approach uses degenerate oligonucleotides encoding the highly conserved pentapeptides QACRG and GSWFI that are present in all known apoptotic cysteine proteases. Using this approach, we have cloned a novel apoptotic gene from human Jurkat T lymphocytes. The new gene encodes a approximately 34-kilodalton protein that is highly homologous to human CPP32, Caenorhabditis elegans cell death protein CED-3, mammalian Ich-1 (Nedd2), and mammalian interleukin-1 beta converting enzyme. Because of its high homology to the C. elegans Ced-3 gene, we named the new gene mammalian Ced-3 homologue Mch2. Two Mch2 transcripts (Mch2 alpha, 1.7 kb; Mch2 beta, 1.4 kb) were detected in Jurkat T lymphocytes and other cell lines. We believe that the Mch2 alpha transcript encodes the full-length Mch2, whereas the Mch2 beta transcript encodes a shorter Mch2 isoform, probably as a result of alternative splicing. Like interleukin-1 beta converting enzyme and CPP32, recombinant Mch2 alpha, but not Mch2 beta, possesses protease activity, as determined by its ability to cleave the fluorogenic peptide DEVD-AMC. CPP32 and Mch2 alpha can also cleave poly(ADP-ribose) polymerase in vitro, suggesting that these enzymes participate in poly(ADP-ribose) polymerase cleavage observed during cellular apoptosis. In addition, overexpression of recombinant Mch2 alpha, but not Mch2 beta, induces apoptosis in Sf9 insect cells. Our data suggest that Mch2 is a Ced-3/interleukin-1 beta converting enzyme-like cysteine protease and could be another important mediator of apoptosis in mammalian cells.
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PMID:Mch2, a new member of the apoptotic Ced-3/Ice cysteine protease gene family. 779 96

Binding of Fas ligand or an agonistic anti-Fas antibody induces apoptosis in Fas-bearing cells. The interleukin-1Beta-converting enzyme (ICE) is a cysteine protease that is involved in apoptosis induced by various stimuli, including Fas-mediated apoptosis. Several ICE homologues have been identified, and these are subdivided into three groups (ICE-, CPP32-, and Ich-1-like proteases). We show here that specific inhibitors of ICE- or CPP32-like proteases can inhibit Fas-mediated apoptosis. Transient ICE-like activity was found in the cytosolic fraction of Fas-activated cells, whereas ICE-dependent, CPP32-like activity gradually accumulated in the cytosol. Cell lysates from mouse lymphoma supplemented with either recombinant ICE or CPP32 induced apoptosis of nuclei. The CPP32 inhibitor inhibited ICE- or CPP32-induced apoptosis in the cell-free system, whereas the ICE-inhibitor only inhibited ICE-induced apoptosis. Cell extracts from thymocytes from ICE-null mice induced apoptosis in the cell-free system when it was supplemented with CPP32. These results indicate that Fas sequentially activates ICE- and CPP32-like proteases, and that downstream CPP32, together with a component(s) in the cytoplasm, causes apoptosis of nuclei.
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PMID:Sequential activation of ICE-like and CPP32-like proteases during Fas-mediated apoptosis. 861 69

The Caenorhabditis elegans cell-death gene ced-3 encodes a protein similar to mammalian interleukin-1beta-converting enzyme (ICE), a cysteine protease implicated in mammalian apoptosis. We show that the full-length CED-3 protein undergoes proteolytic activation to generate a CED-3 cysteine protease and that CED-3 protease activity is required for killing cells by programmed cell death in C. elegans. We developed an easy and general method for the purification of CED-3/ICE-like proteases and used this method to facilitate a comparison of the substrate specificities of four different purified cysteine proteases. We found that in its substrate preferences CED-3 was more similar to the mammalian CPP32 protease than to mammalian ICE or NEDD2/ICH-1 protease. Our results suggest that different mammalian CED-3/ICE-like proteases may have distinct roles in mammalian apoptosis and that CPP32 is a candidate for being a mammalian functional equivalent of CED-3.
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PMID:The Caenorhabditis elegans cell-death protein CED-3 is a cysteine protease with substrate specificities similar to those of the human CPP32 protease. 865 23

Members of the ICE/CED-3 protease family appear to play an essential role in programmed cell death process. In this paper the chromosomal localization of the human genes CPP32, Mch2, Mch3 and Ich-1 is reported, obtained by Radiation Hybrid Mapping. CPP32 was assigned to chromosome 4q33-q35.1, Mch2 to chromosome 4q25-q26, Mch3 to chromosome 10q25.1-q25.2 and Ich-1 to chromosome 7q35. Ich-1 was found to map very close to the marker WI-9353. The possible overlapping of the two independent locus assignments is considered. The genomic distribution of these genes is discussed, with particular reference to the co-location with some human genetic diseases all characterized by autosomal dominant inheritance and by similar malformative features.
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PMID:Chromosomal localization of the human genes, CPP32, Mch2, Mch3, and Ich-1, involved in cellular apoptosis. 878 Jul 21

The cytoskeletal protein non-erythroid alpha-spectrin is well documented as an endogenous calpain substrate, especially under pathophysiological conditions. In cell necrosis (e.g. maitotoxin-treated neuroblastoma SH-SY5Y cells), alpha-spectrin breakdown products (SBDPs) of 150 kDa and 145 kDa were produced by cellular calpains. In contrast, in neuronal cells undergoing apoptosis (cerebellar granule neurons subjected to low potassium and SH-SY5Y cells treated with staurosporine), an additional SBDP of 120 kDa was also observed. The formation of the 120 kDa SBDP was insensitive to calpain inhibitors but was completely blocked by an interleukin 1 beta-converting-enzyme (ICE)-like protease inhibitor, Z-Asp-CH2OC(O)-2,6-dichlorobenzene. Autolytic activation of both calpain and the ICE homologue CPP32 was also observed in apoptotic cells. alpha-Spectrin can also be cleaved in vitro by purified calpains to produce the SBDP doublet of 150/145 kDa and by ICE and ICE homologues [ICH-1, ICH-2 and CPP32(beta)] to produce a 150 kDa SBDP. In addition, CPP32 and ICE also produced a 120 kDa SBDP. Furthermore inhibition of either ICE-like protease(s) or calpain protects both granule neurons and SH-SY5Y cells against apoptosis. Our results suggest that both protease families participate in the expression of neuronal apoptosis.
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PMID:Non-erythroid alpha-spectrin breakdown by calpain and interleukin 1 beta-converting-enzyme-like protease(s) in apoptotic cells: contributory roles of both protease families in neuronal apoptosis. 892 Sep 67

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

Apoptosis is a highly regulated biochemical process that results in the selective death of cells. Members of the caspase family of cysteine proteases play a pivotal role in the effector phase of apoptosis. We show that, in HL-60 cells, the addition of either anisomycin, a protein synthesis inhibitor, or geranylgeraniol, an intermediate in the cholesterol biosynthetic pathway, results in a rapid and en masse induction of apoptosis. The levels of actin, p42 and p44 MAPK, JNK1, JNK2, p38, and PCNA were not substantially altered during this process. Although these treatments appear to function by diverse pathways, they both result in the processing and activation of caspase-3 (CPP32beta/Yama/Apopain). In contrast, no activation of caspase-1 (interleukin-1beta converting enzyme (ICE)) was observed. Furthermore, we obtained ambiguous results regarding the activation of caspase-2 (Ich-1) depending on the antibody used. Pretreatment of the cells with benzyloxycarbonyl-Val-Ala-Asp-(OMe)-fluoromethylketone (zVAD.fmk), a tetrapeptide inhibitor of caspases, prevented the induction of apoptosis for 24 h. Even after 72 h of treatment, some cells were still alive and progressing through the cell cycle, suggesting that blockage of caspase activity is able to protect cells. These results suggest that selective activation of some caspases is necessary to induce apoptosis in HL-60 cells.
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PMID:Selective activation of caspases during apoptotic induction in HL-60 cells. Effects Of a tetrapeptide inhibitor. 905 91

Cloning of interleukin-1 beta converting enzyme (ICE) and Caenorhabditis elegans death protein CED-3 revealed the structural and functional homology between these two proteases. It also suggested the involvement of ICE-like cysteine proteases in apoptosis. Several CED-3- and ICE-like cysteine proteases have been described, including Nedd2/Ich-1, CPP32 beta, Tx, ICErel3, and Mch2. We have previously described a mouse ortholog of cysteine protease CPP32 beta that shares strong homology with ICE and CED-3. Here, we describe the cloning of mouse and human Casp7, another member of this family of cysteine proteases. Mouse Casp7 encodes a putative 340-amino-acid polypeptide that contains all the known conserved residues required for protease function, including the QACRG sequence, aspartic acid residues for internal cleavage sites, and the residues required for substrate binding. Three RNA variants of human Casp7 were also cloned. Amino acid sequence analysis indicated that Casp7 shared high homology with CPP32 beta/Casp3 and Mch2/Casp6. Northern blot analysis demonstrated that a 2.6-kb Casp7 mRNA was expressed in various tissues except brain. Mouse interspecific backcross mapping allowed localization of Casp7 to the distal region of mouse chromosome 19, linked to Mxi1, Adra2a, and Aop1.
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PMID:Identification and mapping of Casp7, a cysteine protease resembling CPP32 beta, interleukin-1 beta converting enzyme, and CED-3. 907 Sep 23

Identification of the processing/activation of multiple interleukin-1beta converting enzyme (ICE)-like proteases and their target substrates in the intact cell is critical to our understanding of the apoptotic process. In this study we demonstrate processing/activation of at least four ICE-like proteases during the execution phase of apoptosis in human monocytic tumor THP.1 cells. Apoptosis was accompanied by processing of Ich-1, CPP32, and Mch3alpha to their catalytically active subunits, and lysates from these cells displayed a proteolytic activity with kinetics, characteristic of CPP32/Mch3alpha but not of ICE. Fluorescence-activated cell sorting was used to obtain pure populations of normal and apoptotic cells. In apoptotic cells, extensive cleavage of Ich-1, CPP32, and Mch3alpha. was observed together with proteolysis of the ICE-like protease substrates, poly (ADP-ribose) polymerase (PARP), the 70-kD protein component of U1 small nuclear ribonucleoprotein (U1-70K), and lamins A/B. In contrast, no cleavage of CPP32, Mch3alpha or the substrates was observed in normal cells. In cells exposed to an apoptotic stimulus, some processing of Ich-1 was detected in morphologically normal cells, suggesting that cleavage of Ich-1 may occur early in the apoptotic process. The ICE-like protease inhibitor, benzyloxycarbonyl-Val-Ala-Asp (OMe) fluoromethyl ketone (Z-VAD.FMK), inhibited apoptosis and cleavage of Ich-1, CPP32, Mch3alpha, Mch2alpha, PARP, U1-70K, and lamins. These results suggest that Z-VAD.FMK inhibits apoptosis by inhibiting a key effector protease upstream of Ich-1, CPP32, Mch3alpha, and Mch2alpha. Together these observations demonstrate that processing/activation of Ich-1, CPP32, Mch3alpha, and Mch2alpha accompanies the execution phase of apoptosis in THP.1 cells. This is the first demonstration of the activation of at least four ICE-like proteases in apoptotic cells, providing further evidence for a requirement for the activation of multiple ICE-like proteases during apoptosis.
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PMID:Processing/activation of at least four interleukin-1beta converting enzyme-like proteases occurs during the execution phase of apoptosis in human monocytic tumor cells. 912 56

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