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:3.4.22.60 (caspase-7)
920 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently reported an association between loss in T-cell receptor (TcR) zeta-chain expression and tumor-induced apoptosis of T lymphocytes. In this study, the possibility that zeta-chain serves as a direct substrate for activated caspases was investigated. Here, we report that two DXXD motifs, which are putative recognition sequences for caspase-3-related proteases and are present in the amino acid sequence of the zeta-chain, are cleaved in apoptotic Jurkat T lymphocytes. Cleavage of zeta-chain in Jurkat cells ligated by agonistic anti-Fas antibody was inhibited in the presence of peptide inhibitors of caspases, including the pan-caspase inhibitor N-benzyloxycarbonyl-Val-Ala-Asp-fluoromethyl ketone and N-benzyloxycarbonyl-Asp-Glu-Val-Asp-fluoromethyl ketone, an inhibitor of caspase-3-like activity. Fas-induced cleavage of zeta-chain was also inhibited in Jurkat cells overexpressing the intracellular inhibitors of caspase activity, Bcl-2 or cytokine response-modifier A. In vitro translated zeta-chain was cleaved in a similar fashion by recombinant caspase-3 or caspase-7 in a dose-dependent manner. In the presence of N-benzyloxycarbonyl-AspGlu-Val-Asp-fluoromethyl ketone, no cleavage of in vitro translated zeta-chain was observed. These results suggest that the loss of TcR zeta-chain, previously associated with tumor-induced immune dysfunction and more recently associated with tumor-induced apoptosis of T lymphocytes, is mediated by a direct degradation of the zeta-chain by activated caspases. This is the first report of involvement of caspases in degradation of the zeta protein.
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PMID:Caspase-mediated degradation of T-cell receptor zeta-chain. 1019 6

Caspases are cysteinyl aspartate-specific proteinases, many of which play a central role in apoptosis. Here, we report the identification of a new murine caspase homologue, viz. caspase-14. It is most related to human/murine caspase-2 and human caspase-9, possesses all the typical amino acid residues of the caspases involved in catalysis, including the QACRG box, and contains no or only a very short prodomain. Murine caspase-14 shows 83% similarity to human caspase-14. Human caspase-14 is assigned to chromosome 19p13.1. Northern blot analysis revealed that mRNA expression of caspase-14 is undetectable in all mouse adult tissues examined except for skin, while it is abundantly expressed in mouse embryos. In contrast to many other caspase family members, murine caspase-14 is not cleaved by granzyme B, caspase-1, caspase-2, caspase-3, caspase-6, caspase-7 or caspase-11, but is weakly processed into p18 and p11 subunits by murine caspase-8. No aspartase activity of murine caspase-14 could be generated by bacterial or yeast expression. Transient overexpression of murine caspase-14 in mammalian cells did not elicit cell death and did not interfere with caspase-8-induced apoptosis. In conclusion, caspase-14 is a member of the caspase family but no proteolytic or biological activities have been identified so far. The high constitutive expression levels in embryos and specific expression in adult skin suggest a role in ontogenesis and skin physiology.
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PMID:Identification of a new caspase homologue: caspase-14. 1020 98

The B cell lymphoma WEHI-231 has been used as a model to study immature B cell tolerance, based on its capacity to undergo growth arrest and programmed cell death on B cell receptor (BCR) cross-linking. Using this model to identify the molecular mechanisms underlying these processes, we found that BCR cross-linking results in the selective activation of caspase 7/Mch3, but not of the other two members of the CPP32 family, caspase 2/Nedd2 and caspase 3/CPP32. This was evidenced by the induction of proteolytic activity against the substrate for the CPP32 subfamily of caspases (z-DVED-AMC) in vitro, as well as PARP proteolysis in vivo and by the processing of the 35 kDa Mch3 into a 32 kDa species, which was later further proteolyzed. The general caspase inhibitor z-VAD-fmk, but not the CPP32 family inhibitor Ac-DEVD-CHO, blocked anti- micro-induced apoptosis, indicating that a caspase not belonging to the CPP32-like family is also implicated in anti- micro-triggered apoptosis. In contrast, z-VAD-fmk was not able to counteract growth arrest induced by anti- micro treatment, suggesting that caspase activation is not necessary for induction of growth arrest. Neither of the inhibitors prevented Mch3 processing; however, z-VAD-fmk prevented proteolysis of the p32 subunit, suggesting that further processing of this subunit is associated with apoptosis. Bcl-2 overexpression prevented anti- micro induction of CPP32-like activity and apoptosis, and blocked further processing of the Mch3 p32 subunit. In contrast, CD40 stimulation completely blocked the appearance of the p32 subunit in addition to blocking CPP32-like activity and apoptosis induced by BCR cross-linking. Moreover, only CD40 stimulation was able to prevent anti- micro-induced growth arrest, which was correlated with inhibition of retinoblastoma and of cyclin A down-regulation. In splenic B cells, Mch3 is also specifically proteolyzed ex vivo after induction of apoptosis by BCR cross-linking, demonstrating the specific involvement of caspase-7/Mch3 in apoptosis induced in B cell tolerance.
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PMID:Caspase activation by BCR cross-linking in immature B cells: differential effects on growth arrest and apoptosis. 1022 36

DNA fragmentation factor (DFF) is a heterodimeric protein composed of 45-kDa (DFF45) and 40-kDa (DFF40) subunits, a protein that mediates regulated DNA fragmentation and chromatin condensation in response to apoptotic signals. DFF45 is a specific molecular chaperone and an inhibitor for the nuclease activity of DFF40. Previous studies have shown that upon cleavage of DFF45 by caspase-3, the nuclease activity of DFF40 is relieved of inhibition. Here we further investigate the mechanism of DFF40 activation. We demonstrate that DFF45 can also be cleaved and inactivated by caspase-7 but not by caspase-6 and caspase-8. The cleaved DFF45 fragments dissociate from DFF40, allowing DFF40 to oligomerize to form a large functional complex that cleaves DNA by introducing double strand breaks. Histone H1 directly interacts with DFF, confers DNA binding ability to DFF, and stimulates the nuclease activity of DFF40 by increasing its Kcat and decreasing its Km.
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PMID:Activation of the apoptotic endonuclease DFF40 (caspase-activated DNase or nuclease). Oligomerization and direct interaction with histone H1. 1031 89

We investigated the ability of caspases (cysteine proteases with aspartic acid specificity) to induce cytochrome c release from mitochondria. When Jurkat cells were induced to undergo apoptosis by Fas receptor ligation, cytochrome c was released from mitochondria, an event that was prevented by the caspase inhibitor, zVAD-fmk (zVal-Ala-Asp-CH2F). Purified caspase-8 triggered rapid cytochrome c release from isolated mitochondria in vitro. The effect was indirect, as the presence of cytosol was required, suggesting that caspase-8 cleaves and activates a cytosolic substrate, which in turn is able to induce cytochrome c release from mitochondria. The cytochrome c releasing activity was not blocked by caspase inhibition, but was antagonized by Bcl-2 or Bcl-xL. Caspase-8 and caspase-3 cleaved Bid, a proapoptotic Bcl-2 family member, which gains cytochrome c releasing activity in response to caspase cleavage. However, caspase-6 and caspase-7 did not cleave Bid, although they initiated cytochrome c release from mitochondria in the presence of cytosol. Thus, effector caspases may cleave and activate another cytosolic substrate (other than Bid), which then promotes cytochrome c release from mitochondria. Mitochondria significantly amplified the caspase-8 initiated DEVD-specific cleavage activity. Our data suggest that cytochrome c release, initiated by the action of caspases on a cytosolic substrates, may act to amplify a caspase cascade during apoptosis.
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PMID:Caspases induce cytochrome c release from mitochondria by activating cytosolic factors. 1036 79

Cells differ in the time required to execute cell death after receipt of a death signal. One reason may be the requirement for de novo synthesis of components of the death pathway. TSU-Pr1 prostate cancer cells treated with okadaic acid demonstrated activation of caspase-3, PARP cleavage, and nuclear fragmentation by 24 h and apoptosis by 72 h. Levels of procaspase-3 and procaspase-7, the precursor molecules of two effector caspases, were not depleted during apoptosis. Levels of procaspase-3 and -7 mRNA increased steadily in TSU-Pr1 cells up to 72 h after exposure to okadaic acid. Nuclear run-off experiments showed that the increase in mRNA was not due to transcriptional activation of caspase-3 and -7 mRNA. Antisense caspase-3 and caspase-7 oligodeoxynucleotides caused a depletion of procaspases-3 and -7 and a delay in apoptosis of TSU-Pr1 cells. Caspase antisense oligodeoxynucleotides inhibited apoptosis to a similar extent as peptide inhibitors of cysteine proteases. Synthesis of procaspases-3 and -7 was necessary to sustain programmed cell death in TSU-Pr1 prostate cancer cells.
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PMID:Synthesis of procaspases-3 and -7 during apoptosis in prostate cancer cells. 1038 29

The antitumor effect of immuno- and chemotherapeutic agents is executed through stimulation of apoptotic programs in susceptible cells. Apoptosis induced in tumor cells requires activation of members of the caspase family of proteases. Deficient expression or activation of caspases may account in part for the failure of many current anticancer therapies. However, recent studies suggest that cell death can proceed in the absence of caspases. We investigated the susceptibility of human renal cell carcinoma (RCC) lines to two distinct modes of cell death, apoptosis and necrosis. RCC lines displayed almost complete resistance to apoptosis in response to the intracellular zinc chelator, N,N,N'N'-tetrakis (2-pyridylmethyl) ethylenediamine (TPEN), which instead induced dramatic accumulation of nonapoptotic necrotic cells. Conversely, TPEN was a potent inducer of apoptosis in caspase-competent normal kidney cells (NK-72) and Jurkat T lymphocytes. Resistance to apoptosis in RCC lines correlated with almost complete loss of caspase-3 expression and variable down-regulation of caspase-7, caspase-8, and caspase-10. These data may explain the resistance of RCC to drugs inducing apoptosis and have important consequences for further attempts to manipulate tumor cell death.
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PMID:Dead or dying: necrosis versus apoptosis in caspase-deficient human renal cell carcinoma. 1038 43

Caspases are cysteine proteases that mediate apoptosis by proteolysis of specific substrates. Although many caspase substrates have been identified, for most substrates the physiologic caspase(s) required for cleavage is unknown. The Bcl-2 protein, which inhibits apoptosis, is cleaved at Asp-34 by caspases during apoptosis and by recombinant caspase-3 in vitro. In the present study, we show that endogenous caspase-3 is a physiologic caspase for Bcl-2. Apoptotic extracts from 293 cells cleave Bcl-2 but not Bax, even though Bax is cleaved to an 18-kDa fragment in SK-NSH cells treated with ionizing radiation. In contrast to Bcl-2, cleavage of Bax was only partially blocked by caspase inhibitors. Inhibitor profiles indicate that Bax may be cleaved by more than one type of noncaspase protease. Immunodepletion of caspase-3 from 293 extracts abolished cleavage of Bcl-2 and caspase-7, whereas immunodepletion of caspase-7 had no effect on Bcl-2 cleavage. Furthermore, MCF-7 cells, which lack caspase-3 expression, do not cleave Bcl-2 following staurosporine-induced cell death. However, transient transfection of caspase-3 into MCF-7 cells restores Bcl-2 cleavage after staurosporine treatment. These results demonstrate that in these models of apoptosis, specific cleavage of Bcl-2 requires activation of caspase-3. When the pro-apoptotic caspase cleavage fragment of Bcl-2 is transfected into baby hamster kidney cells, it localizes to mitochondria and causes the release of cytochrome c into the cytosol. Therefore, caspase-3-dependent cleavage of Bcl-2 appears to promote further caspase activation as part of a positive feedback loop for executing the cell.
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PMID:Caspase-3-dependent cleavage of Bcl-2 promotes release of cytochrome c. 1040 69

A20 is a Cys2/Cys2 zinc finger protein which is induced by a variety of inflammatory stimuli and which has been characterized as an inhibitor of cell death by a yet unknown mechanism. In order to clarify its molecular mechanism of action, we used the yeast two-hybrid system to screen for proteins that interact with A20. A cDNA fragment was isolated which encoded a portion of a novel protein (TXBP151), which was recently found to be a human T-cell leukemia virus type-I (HTLV-I) Tax-binding protein. The full-length 2386 bp TXBP151 mRNA encodes a protein of 86 kDa. Like A20, overexpression of TXBP151 could inhibit apoptosis induced by tumour necrosis factor (TNF) in NIH3T3 cells. Moreover, transfection of antisense TXBP151 partially abolished the anti-apoptotic effect of A20. Furthermore, apoptosis induced by TNF or CD95 (Fas/APO-1) was associated with proteolysis of TXBP151. This degradation could be inhibited by the broad-spectrum caspase inhibitor zVAD-fmk or by expression of the cowpox virus-derived inhibitor CrmA, suggesting that TXBP151 is a novel substrate for caspase family members. TXBP151 was indeed found to be specifically cleaved in vitro by members of the caspase-3-like subfamily, viz. caspase-3, caspase-6 and caspase-7. Thus TXBP151 appears to be a novel A20-binding protein which might mediate the anti-apoptotic activity of A20, and which can be processed by specific caspases.
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PMID:The zinc finger protein A20 interacts with a novel anti-apoptotic protein which is cleaved by specific caspases. 1043 31

The activation of the caspase family of proteases has been detected in numerous cell systems and appears to function as a common pathway through which apoptotic mechanisms may operate. Caspases are synthesized as precursors (pro-caspases) and are converted into mature enzymes by apoptotic signals. The effects of caspases in apoptosis are accomplished by the cleavage of numerous proteins located in different intracellular compartments. In the present study we have addressed the question of the subcellular localization of different pro- and active caspases as well as several other proteins, such as Apaf-1, calpain and DFF, which also play important roles in the apoptotic process. We found that at least three pro-caspases (pro-caspases-2, -3 and -9) were present in both the mitochondrial and cytosolic fractions of untreated Jurkat T lymphocytes. Only pro-caspase-2 was found in the nuclear fraction. Pro-caspases-7 and -8 were found only in the cytosolic fraction. In apoptotic cells, caspases-3, -8 and -9 were present in the cytosolic fraction, whereas caspases-3 and -9 were also found in the mitochondrial fraction and caspase-7 in the microsomal fraction. Caspases-2 and -3 were present in the nuclear fraction. The selective localization of pro-caspases in different subcellular compartments may play an important, but yet unknown, role in their activation. The translocation of active caspases to other subcellular compartments appears to be critical for the development of the apoptotic process.
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PMID:Caspases: their intracellular localization and translocation during apoptosis. 1045 75


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