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)

Bisphosphonates inhibit osteoclast-mediated bone resorption by mechanisms that have only recently become clear. Whereas nitrogen-containing bisphosphonates affect osteoclast function by preventing protein prenylation (especially geranylgeranylation), non-nitrogen-containing bisphosphonates have a different molecular mechanism of action. In this study, we demonstrate that nitrogen-containing bisphosphonates (risedronate, alendronate, pamidronate, and zoledronic acid) and non-nitrogen-containing bisphosphonates (clodronate and etidronate) cause apoptosis of rabbit osteoclasts, human osteoclastoma-derived osteoclasts, and human osteoclast-like cells generated in cultures of bone marrow in vitro. Osteoclast apoptosis was shown to involve characteristic morphological changes, loss of mitochondrial membrane potential, and the activation of caspase-3-like proteases capable of cleaving peptide substrates with the sequence DEVD. Caspase-3-like activity could be visualized in unfixed, dying osteoclasts and osteoclast-like cells using a cell-permeable, fluorogenic substrate. Bisphosphonate-induced osteoclast apoptosis was dependent on caspase activation, because apoptosis resulting from alendronate, clodronate, or zoledronic acid treatment was suppressed by zVAD-fmk, a broad-range caspase inhibitor, or by SB-281277, a specific isatin sulfonamide inhibitor of caspase-3/-7. Furthermore, caspase-3 (but not caspase-6 or caspase-7) activity could be detected and quantitated in lysates from purified rabbit osteoclasts, whereas the p17 fragment of active caspase-3 could be detected in human osteoclast-like cells by immunofluorescence staining. Caspase-3, therefore, appears to be the major effector caspase activated in osteoclasts by bisphosphonate treatment. Caspase activation and apoptosis induced by nitrogen-containing bisphosphonates are likely to be the consequence of the loss of geranylgeranylated rather than farnesylated proteins, because the ability to cause apoptosis and caspase activation was mimicked by GGTI-298, a specific inhibitor of protein geranylgeranylation, whereas FTI-277, a specific inhibitor of protein farnesylation, had no effect on apoptosis or caspase activity.
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PMID:Visualization of bisphosphonate-induced caspase-3 activity in apoptotic osteoclasts in vitro. 1134 45

Caspase-3 plays a critical role in a proteolytic cascade within the apoptosis signal pathway; this enzyme is commonly activated by numerous death signals and cleaves a variety of important cellular proteins. Using caspase-3-deficient MCF7 cells and clones stably transfected with the caspase-3 gene (MCF7/Casp3), we evaluated the role of caspase-3 in Bax-induced apoptosis. Bax overexpression induced cell death in both parental MCF7 cells and MCF7/Casp3 cells. The introduction of the caspase-3 gene did not change the rate of cell death. Caspase-3-deficient parental MCF7 cells, however, failed to undergo morphological nuclear and DNA fragmentation, whereas MCF7/casp3 cells displayed intact nuclear dismantling and DNA fragmentation. Caspase-3 deficiency, however, did not affect Bax-induced levels of poly(ADP-ribose) polymerase cleavage, caspase-6 activation, and lamin B cleavage. Together, these results suggest that a deficit in caspase-3 is not sufficient to block Bax-induced cell death.
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PMID:Deficiency of caspase-3 in MCF7 cells blocks Bax-mediated nuclear fragmentation but not cell death. 1135 Sep 20

Apoptosis was induced in embryonic chick cardiomyocytes by staurosporine. Treatment of cardiomyocytes with the preferential caspase-2 inhibitor, z-VDVAD-fmk (100 microM), produced a significant (P < 0.05) although small reduction in the amount of cell death. Ac-DVED-cmk (100 microM), which preferentially inhibits caspase-3 but inhibits to a lesser extent caspase-6, -7, -8, and -10, produced a minimal decrease in cell death. The combination of the caspase-3 and -2 inhibitors produced an additive reduction in cell death after staurosporine (1 microM for 6 h) from 80.4 +/- 0.7 to 54.6 +/- 1.3%. The ability of staurosporine to activate caspase-3 was confirmed in these cardiomyocytes by measurement of caspase-3 activity. A role for ceramide formation, from sphingomyelin to induce caspase activation was unlikely, as there were no changes in cellular ceramide or sphingomyelin after staurosporine treatment of cardiomyocytes when sphingomyelin was labeled by [(3)H]palmitate for 24 h. Neither were there any changes in sphingomyelinase activity. While staurosporine effectively suppressed PKC activity, phorbol 12-myristate 13 acetate did not alter staurosporine-induced cell death or DNA fragmentation. These results demonstrate that, in this model of cardiac cell death, caspase-2 inhibition is of considerable importance, caspase-3 inhibition is of lesser significance but may produce additional effects in the combination with caspase-2 inhibition, and ceramide production from sphingomyelin is not operative in the pathway leading to caspase activation and cell death.
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PMID:Prevention of staurosporine-induced cell death in embryonic chick cardiomyocyte is more dependent on caspase-2 than caspase-3 inhibition and is independent of sphingomyelinase activation and ceramide generation. 1136 23

Macrophage apoptosis contributes to the development of human atherosclerotic lesions. Oxidised LDL may be involved in macrophage death in vivo. We examined morphological and biochemical changes to the vimentin filament network during apoptosis of human macrophages. Only oxidised LDL, but not native or acetylated LDL, induced apoptosis, wherein vimentin was cleaved into fragments of 48-50, 46, 29 and 26 kDa. The use of caspase inhibitors suggested that caspase-6 mediates the formation of the 26 and 46 kDa fragments of vimentin. We were unable to demonstrate any significant involvement of caspase-3 in vimentin cleavage. However, caspase-3 was clearly activated during apoptosis whilst caspase-6 expression in macrophages was minimal. Vimentin filament breakdown occurred early during apoptosis and vimentin immunoreactivity was present in apoptotic bodies. However, the application of caspase inhibitors had no effect on the morphology of the vimentin network in apoptotic cells, suggesting that filament breakdown is not mediated by caspase proteolysis. Similar changes in vimentin were also seen in gliotoxin-induced apoptosis.
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PMID:Changes in vimentin in human macrophages during apoptosis induced by oxidised low density lipoprotein. 1136 6

Apoptotic protease-activating factor-1 (Apaf-1), a key regulator of the mitochondrial apoptosis pathway, consists of three functional regions: (i) an N-terminal caspase recruitment domain (CARD) that can bind to procaspase-9, (ii) a CED-4-like region enabling self-oligomerization, and (iii) a regulatory C terminus with WD-40 repeats masking the CARD and CED-4 region. During apoptosis, cytochrome c and dATP can relieve the inhibitory action of the WD-40 repeats and thus enable the oligomerization of Apaf-1 and the subsequent recruitment and activation of procaspase-9. Here, we report that different apoptotic stimuli induced the caspase-mediated cleavage of Apaf-1 into an 84-kDa fragment. The same Apaf-1 fragment was obtained in vitro by incubation of cell lysates with either cytochrome c/dATP or caspase-3 but not with caspase-6 or caspase-8. Apaf-1 was cleaved at the N terminus, leading to the removal of its CARD H1 helix. An additional cleavage site was located within the WD-40 repeats and enabled the oligomerization of p84 into a approximately 440-kDa Apaf-1 multimer even in the absence of cytochrome c. Due to the partial loss of its CARD, the p84 multimer was devoid of caspase-9 or other caspase activity. Thus, our data indicate that Apaf-1 cleavage causes the release of caspases from the apoptosome in the course of apoptosis.
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PMID:The adapter protein apoptotic protease-activating factor-1 (Apaf-1) is proteolytically processed during apoptosis. 1138 22

We analyzed a set of 103 non-small cell lung carcinomas (NSCLCs) for caspase-3, -6 and -8 expression and apoptosis. Additionally, the expression of bcl-2, bax and p53 were studied. Caspase-3 positivity appeared as diffuse, cytoplasmic staining and was restricted to the tumor area. In contrast, the immunoreactivity for caspase-6 was intense, granular and mostly located in single cells or groups of tumor cells showing apoptotic morphology. The caspase-8 expression pattern was a combination of the two other caspases studied, featuring both diffuse and single-cell patterns restricted to the tumor area. No significant differences were seen in caspase -3, -6 and -8 expression between tumors of different histological types or grades. The number of apoptotic cells and bodies was significantly higher in NSCLCs, in which caspase-8 immunostaining was mainly seen in single cells (p = 0.017), whereas caspase -3 and -6 expression had no association with apoptosis. It is apparent that, in lung tissue, up-regulation of caspase expression is a phenomenon associated solely with neoplasia and reflects the readiness of the tumor cells to undergo apoptosis. Interestingly, caspases -3, -6 and -8 each have an individual staining pattern in NSCLC, perhaps reflecting their different position in the caspase hierarchy.
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PMID:Expression of caspases-3, -6 and -8 and their relation to apoptosis in non-small cell lung carcinoma. 1141 Aug 65

The aim of this study is to elucidate the possible mechanism of apoptosis in response to hypoxia in MC3T3E1 osteoblasts. MC3T3E1 osteoblasts under hypoxic conditions (2% oxygen) resulted in apoptosis in a time-dependent manner estimated by DNA fragmentation assay and nuclear morphologystained with fluorescent dye, Hoechst 33258. Pretreatment with Z-VAD-FMK, a pan-caspase inhibitor, or Z-DEVD-CHO, a specific caspase-3 inhibitor, completely suppressed the DNA ladder in response to hypoxia. An increase in caspase-3-like protease (DEVDase) activity was observed during apoptosis, but no caspase- activity (YVADase) was detected. To confirm what caspases are involved in apoptosis, western blot analysis was performed using anti-caspase-3 or -6 antibody. The 10-kDa protein, corresponding to the active products of caspase-3 and the 10-kDA protein of the active protein of caspase-6 were generated in hypoxia-challenged cells in which processing of the full length form of caspase-3 and -6 was evident. With a time course similar to this caspase-3 and -6 activation was evident, hypoxic stress caused the cleavage of lamin A, typical of caspase-6 activity. In addition, the stress elicited the release of cytochrome c into the cytosol during apoptosis. Furthermore, we have observed that pre-treatment with SB203580, a selective p38 MAP kinase (p38 MAPK) inhibitor, attenuated the hypoxia-induced apoptosis. The addition of SB203580 suppressed caspase-3 and -6-like protease activity by hypoxia up to 50%. In contrast, PD98059 had no effect on the hypoxia-induced apoptosis. To confirm the involvement of MAP kinase, JNK/SAPK, ERK, or p38 kinase assay was performed. Although p38 MAPK was activated in response to hypoxic treatment, the other MAP kinase -JNK/SAPK or ERK- was not or modestly activated. These results suggest that p38 MAPK positively regulates hypoxia-induced apoptosis in MC3T3E1 osteoblasts.
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PMID:Hypoxia induces apoptosis by caspase activation accompanying cytochrome C release from mitochondria in MC3T3E1 osteoblasts. p38 MAPK is related in hypoxia-induced apoptosis. 1141 43

Photodynamic therapy (PDT) is under investigation for the treatment of intimal hyperplastia in conditions such as atherosclerosis and restenosis. Although smooth muscle cells (SMCs) may be a key target for treatment, the effects of PDT on these cells are poorly characterized. In the present study, apoptosis was induced in primary human aortic SMCs by the combination of the photosensitizer verteporfin and visible light. After PDT, an increase in mitochondrial cytochrome c (cyt c) and apoptosis-inducing factor (AIF) levels were detected in the cytosol immediately and their levels increased steadily up to 2 hours. Cytosolic levels of the pro-apoptotic Bcl-2 family member Bax decreased reciprocally throughout this period, but this change did not occur before cyt c release. Confocal microscopy revealed a diffuse staining pattern of cyt c within apoptotic cells as compared to a distinct mitochondrial staining in normal cells. AIF translocated from mitochondria to the nucleus during the progression of apoptosis. After cyt c release, caspase-9 and caspase-3 processing was visible by 1 hour and caspase-6, -7, and -8 processing was apparent by 2 hours after PDT. In summary, these results demonstrate for the first time the cellular redistribution of mitochondrial AIF during SMC apoptosis, as well as the early release of cyt c and the subsequent activation of multiple caspases during PDT-induced SMC apoptosis.
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PMID:Mitochondrial release of apoptosis-inducing factor and cytochrome c during smooth muscle cell apoptosis. 1143 77

Endoplasmic reticulum (ER) stress elicits protective responses of chaperone induction and translational suppression and, when unimpeded, leads to caspase-mediated apoptosis. Alzheimer's disease-linked mutations in presenilin-1 (PS-1) reportedly impair ER stress-mediated protective responses and enhance vulnerability to degeneration. We used cleavage site-specific antibodies to characterize the cysteine protease activation responses of primary mouse cortical neurons to ER stress and evaluate the influence of a PS-1 knock-in mutation on these and other stress responses. Two different ER stressors lead to processing of the ER-resident protease procaspase-12, activation of calpain, caspase-3, and caspase-6, and degradation of ER and non-ER protein substrates. Immunocytochemical localization of activated caspase-3 and a cleaved substrate of caspase-6 confirms that caspase activation extends into the cytosol and nucleus. ER stress-induced proteolysis is unchanged in cortical neurons derived from the PS-1 P264L knock-in mouse. Furthermore, the PS-1 genotype does not influence stress-induced increases in chaperones Grp78/BiP and Grp94 or apoptotic neurodegeneration. A similar lack of effect of the PS-1 P264L mutation on the activation of caspases and induction of chaperones is observed in fibroblasts. Finally, the PS-1 knock-in mutation does not alter activation of the protein kinase PKR-like ER kinase (PERK), a trigger for stress-induced translational suppression. These data demonstrate that ER stress in cortical neurons leads to activation of several cysteine proteases within diverse neuronal compartments and indicate that Alzheimer's disease-linked PS-1 mutations do not invariably alter the proteolytic, chaperone induction, translational suppression, and apoptotic responses to ER stress.
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PMID:Endoplasmic reticulum stress-induced cysteine protease activation in cortical neurons: effect of an Alzheimer's disease-linked presenilin-1 knock-in mutation. 1157 34

We have shown previously that caspase-6 activity is lethal to human neurons (LeBlanc et al., 1999; Zhang et al., 2000). Here we find that 17-beta-estradiol but not 17-alpha-estradiol prevents caspase-6-mediated neuronal cell death. 17-beta-estradiol-treated neuronal extracts directly inhibit recombinant active caspase-6, caspase-3, caspase-7, and caspase-8 in vitro. We conclude that 17-beta-estradiol induces a caspase inhibitory factor (CIF) that is preventing neuronal apoptosis. The induction of CIF occurs within 10 min of 17-beta-estradiol exposure to neurons, does not require de novo protein synthesis, and involves mitogen-activated protein kinase activation. The effect is antagonized by the estrogen receptor antagonist tamoxifen. In contrast, 17-beta-estradiol does not induce CIF or prevent caspase-mediated cell death in cultured astrocytes. CIF does not act through oxidation of the caspase active site. CIF activity copurifies with proteins of between 12 and 14 kDa in size. Our results indicate that 17-beta-estradiol induces an inhibitor of active caspases through a receptor-mediated nongenomic pathway and provide an additional mechanism for the neuroprotective action of 17-beta-estradiol that is likely highly relevant to the understanding of the role of estrogen against Alzheimer's disease.
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PMID:17-beta-estradiol induces an inhibitor of active caspases. 1158 6


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