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)

Intracellular cysteine proteinases (caspases) play key roles in inflammation and apoptosis. Recombinant caspases are typically produced in Escherichia coli expression systems with the attendant problems of solubilization, re-folding and activation of the protease. Here we describe the expression of hexahistidine-tagged caspase-3 (CPP32/Yama/Apopain) in the methylotropic yeast Pichia pastoris, and the purification of soluble enzyme from yeast lysates using cobalt affinity chromatography. The recombinant protease is fully activated, stable, and cleaves the synthetic substrate DEVD-AFC (Km 16.8 microM) but not YVAD-AFC. It mediates the cleavage of the apoptotic death substrate poly(ADP-ribose) polymerase in cell extracts, but does not cleave pro-interleukin-1beta. It is inhibited by the peptide DEVD-CHO (Ki 2.2 nM), far less efficiently by YVAD-CMK (Ki 0.3 microM), and not detectably by CrmA. By these criteria, recombinant caspase-3 is indistinguishable from native caspase-3 purified from apoptotic cell extracts. Activation of recombinant caspase-3 occurs in yeast in the absence of any intrinsic caspase activity, suggesting that caspase-3 can auto-activate. However, the purified enzyme was incapable of cleaving pro-caspase-3 indicating that autoactivation of caspase-3 in vivo is not likely to occur unless very high concentrations are achieved.
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PMID:Recombinant caspase-3 expressed in Pichia pastoris is fully activated and kinetically indistinguishable from the native enzyme. 932 93

It has been reported that at the end stage, apoptosis is involved in the progression of heart failure. It is suggested that cardiac energy metabolism is impaired during the progression of heart failure. Although the mechanism of induction of apoptosis in the failing heart varies according to the model of heart failure, it is not known whether an impairment of energy metabolism in cardiomyocytes is a primary cause of apoptosis. In this study, we applied mitochondrial inhibitors, such as rotenone, cobalt chloride and antimycin A, which inhibit mitochondrial function at different sites of the mitochondrial respiratory chain, to cardiomyocytes. All these reagents markedly decreased 3-(4,5)-dimethylthiazol-2-yl)-2,5-diphenyl-tetrazolium bromide assay (MTT) reduction activity, an indicator of mitochondrial function, of cardiomyocytes and greatly increased glucose consumption, suggesting that cardiac energy metabolism is switched from beta-oxidation of fatty acid to glycolysis. It was shown that after 48-72 h of treatment with each reagent, apoptosis was shown to occur by DNA laddering and increase in caspase activity. Interestingly, each reagent with a different action site greatly activated caspase-3, but not caspase-8 activity, suggesting that mitochondria are involved in induction of apoptosis. On the other hand, within 24 h of the treatment, when apoptosis of cardiomyocytes was not observed, the treated cardiomyocytes showed a marked increase in preproendothelin-1 and atrial natriuretic peptide (ANP) gene expressions. In conclusion, the present study suggests that mitochondrial dysfunction with impaired energy metabolism elevates gene expression of cardiac ET-1, an aggravating factor in heart failure, and then finally induces apoptosis in cardiomyocytes. The finding of marked increases in expression of molecular markers (ET-1 mRNA and ANP mRNA) in the failing heart, followed by apoptosis in the treated cardiomyocytes suggests that the inhibition of mitochondrial function of cultured cardiomyocytes provides a possible new in vitro model of heart failure.
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PMID:Mitochondrial dysfunction of cardiomyocytes causing impairment of cellular energy metabolism induces apoptosis, and concomitant increase in cardiac endothelin-1 expression. 1107 77

Our previous study showed that cobalt chloride (CoCl2) could induce PC12 cell apoptosis and that the CoCl2-treated PC12 cells may serve as a simple in vitro model for the study of the mechanism of hypoxia-linked neuronal disorders. The aim of this study is to elucidate the mechanism of CoCl2-induced apoptosis in PC12 cells. Caspases are known to be involved in the apoptosis induced by various stimuli in many cell types. To investigate the involvement of caspases in CoCl2-induced apoptosis in PC12 cells, we generated PC12 cells that stably express the viral caspases inhibitor gene p35 and analyzed the effect of p35 on the process of apoptosis induced by CoCl2. We also examined the effect of cell-permeable peptide inhibitors of caspases. The results showed that the baculovirus p35 gene and the general caspases inhibitor Z-VAD-FMK significantly block apoptosis induced by CoCl2, confirming that caspase is involved in CoCl2-induced apoptosis. Further investigation showed that in this process the caspase-3-like activity is increased, as indicated by the cells' ability to cleave the fluorogenic peptide substrate Ac-Asp-Glu-Val-Asp-7-AMC and to degrade the DNA-repairing enzyme poly-(ADP-ribose) polymerase (PARP), an endogenous caspase-3 substrate. At the same time, caspase-3-specific inhibitors, namely, the peptide Ac-DEVD-CHO, Ac-DEVD-FMK, partially inhibit CoCl2-induced apoptosis. These findings suggested that caspase-3 or caspase-3-like proteases are involved in the apoptosis induced by CoCl2 in PC12 cells. Additionally, we have observed that another apoptotic marker, p38 mitogen-activated protein kinase (MAPK), is significantly activated in this process in a time-dependent manner and that a selective p38 MAPK inhibitor, SB203580, partially inhibits this cell death. The addition of SB203580 also partially suppresses caspase-3-like activity. All these results confirm that the CoCl2-treated PC12 cell is a useful in vitro model with which to study hypoxia-linked neuronal disorders. Furthermore, the results showing that the baculovirus p35 gene and caspase inhibitors possess a remarkable ability to rescue PC12 cells from CoCl2-induced cell death may have implications for future neuroprotective therapeutic approaches for the hypoxia-associated disorders.
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PMID:Involvement of caspase-3 and p38 mitogen-activated protein kinase in cobalt chloride-induced apoptosis in PC12 cells. 1189 99

Heme oxygenase-1 (HO-1), a stress-responsive enzyme that catabolizes heme into carbon monoxide (CO), biliverdin, and iron, has previously been shown to protect grafts from ischemia/reperfusion injury and rejection. Here we investigated the protective potential of HO-1 in 5 models of immune-mediated liver injury. We found that up-regulation of endogenous HO-1 by cobalt-protoporphyrin-IX (CoPP) protected mice from apoptotic liver damage induced by anti-CD95 antibody (Ab) or d-galactosamine in combination with either anti-CD3 Ab, lipopolysaccharide (LPS), or tumor necrosis factor alpha (TNF-alpha). HO-1 induction prevented apoptotic liver injury, measured by inhibition of caspase 3 activation, although it did not protect mice from caspase-3-independent necrotic liver damage caused by concanavalin A (Con A) administration. In addition, overexpression of HO-1 by adenoviral gene transfer resulted in protection from apoptotic liver injury, whereas inhibition of HO-1 enzymatic activity by tin-protoporphyrin-IX (SnPP) abrogated the protective effect. HO-1-mediated protection seems to target parenchymal liver cells directly because CoPP treatment protected isolated primary hepatocytes from anti-CD95-induced apoptosis in vitro. Furthermore, depletion of Kupffer cells (KCs) did not interfere with the protective effect in vivo. Exogenous CO administration or treatment with the CO-releasing agent methylene chloride mimicked the protective effect of HO-1, whereas treatment with exogenous biliverdin or overexpression of ferritin by recombinant adenoviral gene transfer did not. In conclusion, HO-1 is a potent protective factor for cytokine- and CD95-mediated apoptotic liver damage. Induction of HO-1 might be of a therapeutic modality for inflammatory liver diseases.
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PMID:Heme oxygenase-1 and its reaction product, carbon monoxide, prevent inflammation-related apoptotic liver damage in mice. 1572 11

INTRODUCTION: Heme oxygenase-1 (HO-1) is a stress response enzyme, which catalyses the breakdown of heme into biliverdin-IX alpha, carbon monoxide and ferrous iron. Under situations of oxidative stress, heat stress, ischemia/reperfusion injury or endotoxemia, HO-1 has been shown to be induced and to elicit a protective effect. The mechanism of how this protective effect is executed is unknown. RESULTS: HO-1 induction with cobalt protoporphorin (Co-PP) dose-dependently protected against apoptotic cell death as well as neutrophil-mediated oncosis in the galactosamine/endotoxin (Gal/ET) shock model. Induction of HO-1 with Co-PP dose-dependently protected against neutrophil-mediated oncosis as indicated by attenuated ALT release and TNF-mediated apoptotic cell death as indicated by reduced caspase-3 activation. HO-1 induction did not attenuate Gal/ET-induced TNF-alpha formation. Furthermore, a similar protective effect with the high dose of Co-PP was observed when animals were treated with Gal/TNF-alpha. CONCLUSIONS: HO-1 induction attenuates apoptosis and neutrophil-mediated oncosis in the Gal/ET shock model. However, the protective effect is not due to the reduction of TNF-alpha release or the attenuation of neutrophil accumulation in the liver sinusoids.
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PMID:Heme oxygenase-1 induction in hepatocytes and non-parenchymal cells protects against liver injury during endotoxemia. 1496 Jan 94

The aim of this study was to evaluate the cytotoxic and apoptotic effects of cobalt and chromium ions on macrophages in vitro, and analyze the implication of caspase-3 in the apoptotic pathway. J774 mouse macrophages (5 x 10(5) cells/ml) were exposed for up to 24 h to 0-10 ppm Co2+ and 0-500 ppm Cr3+. The cytotoxic effect of ions was measured by Trypan blue exclusion. DNA analysis on agarose gel was used as a specific test for detection of DNA fragmentation into oligonucleosomes that occurs in apoptotic cells. The proteolytic cleavage of poly(ADP-ribose)polymerase (PARP), closely associated with the induction of apoptosis, was also analyzed along with the appearance of the active fragment of caspase-3, implicated in several apoptosis pathways. Results demonstrated that both Co2+ and Cr3+ ions induce macrophage mortality in a dose-dependent manner. However, Co2+ is more toxic inducing a cell mortality up to 28% with only 10 ppm vs. 37% with 500 ppm of Cr3+. DNA analysis demonstrated that both Co2+ and Cr3+ ions induce DNA fragmentation, between 6-10 ppm Co2+ and 250-500 ppm Cr3+ after 24 h incubation. PARP cleavage and the appearance of caspase-3 active fragment were observed after 6 h with both Co+ and Cr3+ ions, with a stronger signal after 24 h and 10 ppm of Co2+ or 500 ppm of Cr3+. In conclusion, this study demonstrates that after 24 h incubation, both Co2+ and Cr3+ ions can induce macrophage mortality, and more specifically apoptosis. The results also suggest that apoptosis occurs via a caspase-3 pathway. However, the relative importance of necrosis and apoptosis and the effects of longer exposure times on the induction of macrophage death by these metal ions remain to be investigated.
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PMID:Cytotoxic and apoptotic effects of cobalt and chromium ions on J774 macrophages - Implication of caspase-3 in the apoptotic pathway. 1534 46

Cobalt has been widely used in the treatment of anemia and as a hypoxia mimic in cell culture and it is known to activate hypoxic signaling by stabilizing the hypoxia inducible transcription factor 1alpha (HIF1alpha). However, cobalt exposure can lead to tissue and cellular toxicity. These studies were conducted to determine the role of HIF1alpha in mediating cobalt-induced toxicity. Mouse embryonic fibroblasts (MEFs) that were null for the HIF1alpha protein were used to show that HIF1alpha protein plays a major role in mediating cobalt-induced cytotoxicity. Previous work from our lab and others has shown that two BH3 domain containing cell death genes, BNip3 and NIX, are targets of hypoxia signaling. These experiments document that BNip3 and NIX expression is HIF1alpha-dependent, and cobalt induces their expression in a time and dose dependent manner. In addition, their expression is correlated with an increase in BNIP3 and NIX protein. Characteristically, the elevated level of BNIP3 was correlated with an increased presence of chromatin condensation, one marker for cell injury. Interestingly, this increased chromosomal condensation was not coupled to caspase-3 activation as usually seen in a typical apoptotic response. These results show that HIF1alpha is playing a major role in mediating cobalt-induced toxicity in mouse embryonic fibroblasts and may offer a possible mechanism for the underlying pathology of injuries seen in workers exposed to environmental contaminants that can influence the hypoxia signaling system, such as cobalt.
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PMID:The role of hypoxia inducible factor 1alpha in cobalt chloride induced cell death in mouse embryonic fibroblasts. 1537 94

Hypoxic/ischemic condition induces neuronal apoptotic events, which consequently lead to neuronal cell death. However, its specific mechanistic pathways remain obscure. Cobalt chloride (CoCl(2)) could mimic the hypoxic condition including the production of reactive oxygen species (ROS). In this report, we investigated the signal pathway of CoCl(2)-induced apoptosis in PC12 cells. The main mechanism for these apoptosis appeared to be mitochondria-mediated pathway accompanied with loss of the mitochondrial transmembrane potential (Delta Psi m) followed by cytochrome c release from the mitochondria into the cytosol, resulting in the activation of caspase-9 and caspase-3. Also, upregulation of pro-apoptotic protein Bax, and downregulation of anti-apoptotic protein Bcl-2 by presence of CoCl(2) appeared significantly and it might result in activating mitochondria-mediated apoptosis. We showed that expression of Fas and Fas ligand was upregulated and caspase-8 was significantly activated in CoCl(2)-induced apoptotic cells. In addition, ZB4, an antagonistic Fas-antibody, inhibited the activation of caspase-8 by CoCl(2), indicating that Fas receptor was involved in this pathway. These results demonstrate that CoCl(2) induce apoptosis in PC12 cells via different dual apoptosis pathway through death receptor as well as mitochondria.
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PMID:Involvement of mitochondrial- and Fas-mediated dual mechanism in CoCl2-induced apoptosis of rat PC12 cells. 1551 34

Increased levels of Mcl-1 (myeloid cell factor-1) have been reported in several cancers, suggesting an important role played by Mcl-1 in cancer cell survival. Mcl-1 is an anti-apoptotic protein shown to delay or block apoptosis. In this work, using semiquantitative immunofluorescence, real-time PCR, and RNase protection assay, an increase in Mcl-1 expression was detected in hepatoma HepG2 cells incubated under hypoxia or in the presence of cobalt chloride. Through analysis of the Mcl-1 promoter sequence, a putative HIF-1 (hypoxiainducible factor-1) binding site was identified. A Mcl-1 promoter fragment containing this hypoxia-responsive element was able to bind HIF-1 in vitro. It also induced hypoxia-dependent transcription of a luciferase reporter gene, which was suppressed by anti-HIF-1alpha short interfering RNA. Finally, overexpression of Mcl-1 protected HepG2 cells against apoptosis induced by tert-butyl hydroperoxide as shown by inhibition of caspase-3 activation and DNA fragmentation. All these data suggest a potential anti-apoptotic role of HIF-1 that could protect cells against apoptosis under hypoxia by overexpression of the Mcl-1 protein.
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PMID:Hypoxia-inducible factor-1-dependent overexpression of myeloid cell factor-1 protects hypoxic cells against tert-butyl hydroperoxide-induced apoptosis. 1561 Oct 89

Haem-oxygenase-1 (HO-1) has been shown to exert anti-inflammatory, anti-apoptotic and anti-proliferative effects. We investigated HO-1 expression in patients with inflammatory bowel disease (IBD) and could demonstrate a scattered expression of HO-1 in the intestinal epithelium of severely inflamed colonic mucosa of patients with IBD compared to control specimens such as diverticulitis, suggesting dysregulated expression in IBD. To further analyse potential mechanisms of HO-1 induction in the intestine we employed an in vitro epithelial cell apoptosis model and an experimental colitis model. In vitro induction of HO-1 by the HO-1 inducer cobalt protoporphyrin (CoPP) resulted in a dose-dependent down-regulation of caspase-3 activation in HT-29 cells, indicating an anti-apoptotic function of HO-1 in the intestine. In vivo, preventive HO-1 induction by CoPP in acute dextran sodium sulphate (DSS)-induced colitis led to a significant down-regulation of colonic inflammation (P < 0.01) with a concomitant reduction in interferon (IFN)-gamma - but unaffected interleukin (IL)-10-secretion by isolated mesenteric lymph nodes (P < 0.01). Additionally, TUNEL staining of colonic sections demonstrated fewer apoptotic epithelial cells in the colon of CoPP treated animals. No beneficial effects were observed if HO-1 was induced by CoPP after the onset of acute colitis or in chronic DSS-induced colitis. In conclusion, the data suggest a protective role of HO-1 if it is induced before the onset of inflammation. However, as shown by the lack of effects in established acute or in chronic colitis, the induction of HO-1 may not be a promising approach for the treatment of IBD.
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PMID:Analysis of intestinal haem-oxygenase-1 (HO-1) in clinical and experimental colitis. 1593 18


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