Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P42574 (caspase-3)
 45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mice exposed to 100% O2 die after 3 or 4 d with diffuse alveolar damage and alveolar edema. Extensive cell death is evident by electron microscopy in the alveolar septa, affecting both endothelial and epithelial cells. The damaged cells show features of both apoptosis (condensation and margination of chromatin) and necrosis (disruption of the plasma membrane). The electrophoretic pattern of lung DNA indicates both internucleosomal fragmentation, characteristic of apoptosis, and overall degradation, characteristic of necrosis. Hyperoxia induces a marked increase in RNA or protein levels of p53, bax, bcl-x, and Fas, which are known to be expressed in certain types of apoptosis. However, we did not detect an increased activity of proteases belonging to the apoptosis "executioner" machinery, such as CPP32 (caspase 3), ICE (caspase 1), or cathepsin D. Furthermore, administration of an ICE-like protease inhibitor did not significantly enhance the resistance to oxygen. Additionally, neither p53-deficient mice nor lpr mice (Fas null) manifested an increased resistance to hyperoxia-induced lung damage. These results show that both necrosis and apoptosis contribute to cell death during hyperoxia. Multiple apoptotic pathways seem to be involved in this, and an antiapoptotic strategy does not attenuate alveolar damage.
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PMID:Oxygen toxicity in mouse lung: pathways to cell death. 976 53

Analyses using either one or two-dimensional gel electrophoresis were performed to identify the contribution of several proteases to lower molecular weight (MW) neurofilament 68 (NF68) break down products (BDPs) detected in cortical homogenates following unilateral cortical impact injury in rats. One dimensional immunoblot of BDPs obtained from in vitro cleavage of enriched neurofilaments (NF) by purified micro-calpain, m-calpain, cathepsin, B, cathepsin D, and CPP32 (caspase-3) were compared to in vivo samples from rats following traumatic brain injury (TBI). Comparison of these blots provided information on the relative contribution of different cysteine or aspartic proteases to NF loss following brain injury. As early as 3 hrs post-injury, cortical impact resulted in the presence of several lower MW NF68 immunopositive bands having patterns similar to those previously reported to be produced by calpain mediated proteolysis of neurofilaments. Only micro-calpain and m-calpain in vitro digestion of enriched neurofilaments contributed to the presence of the low MW 57 kD NF68 break down product (BDP) detected in post-TBI samples. Cathepsin B, cathepsin D, and caspase-3 failed to produce either the 53 kD or 57 kD NF BDPs. Further, 1 and 2 dimensional peptide maps containing a 1:1 ratio of in vivo and in vitro tissue samples showed complete comigration of lower MW immunopositive spots produced by TBI or in vitro incubation with m-calpain, thus providing additional evidence for the potential role of calpain activation to the production of NF68 BDPs following TBI. More importantly, 2-dimensional gel electrophoresis detected that immunopositive NF68 spots shifted to the basic pole (+) suggesting that dephosphorylation of the NF68 subunit pool may be associated with NF protein loss following TBI, an observation not previously noted in any model of experimental brain injury.
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PMID:Immunoblot analyses of the relative contributions of cysteine and aspartic proteases to neurofilament breakdown products following experimental brain injury in rats. 980 82

Injection of mouse recombinant TNF to mice induced apoptosis and detachment of the enterocytes of the tip of the villi, evident after 30 to 90 minutes, which resulted in a shrinkage of the villi. Injection of TNF increased the expression of caspase 1, 2, 3, and 6 as well as of cathepsin D in the mucosal wall, which was maximal 30 minutes after TNF injection. Caspase 1 and 3 were not induced in TNFR1-deficient mice in which TNF does not induce apoptosis and detachment. The administration of a caspase inhibitor (ZVAD-fmk, 300 microg) decreased enterocyte detachment and apoptosis, as well as villus atrophy, whereas a caspase 3 inhibitor (Z-DEVD-cmk) had no effect. The results indicate that the induction of caspases by TNF is the cause of their detachment in the lumen and of the resulting villus atrophy.
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PMID:TNF-induced enterocyte apoptosis and detachment in mice: induction of caspases and prevention by a caspase inhibitor, ZVAD-fmk. 1021 2

PC12 cells undergo apoptosis when cultured under conditions of serum deprivation. In this situation, the activity of caspase-3-like proteinases was elevated, and the survival rate could be maintained by treatment with acetyl-DEVD-cho, a specific inhibitor of caspase-3. In a culture of PC12 cells treated with acetyl-DEVD-cho, where caspase-3-like proteinases are not activated, CA074, a specific inhibitor of cathepsin B induced active death of the cells. Cathepsin B antisense oligonucleotides showed a similar effect to CA074 on the induction of active cell death. By double staining of terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate-biotin nick end-labeling and activated caspase-3, the dying cells treated with CA074 were positive for terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate-biotin nick end-labeling staining but negative for activated caspase-3. Ultrastructurally, the cells were relatively large and had nuclei with chromatin condensation. The initiation of cell death by CA074 or the cathepsin B antisense were inhibited by the addition of pepstatin A, a lysosomal aspartic proteinase inhibitor, or by cathepsin D antisense. To examine whether this cell death pathway was present in cell types other than PC12 cells, we analysed dorsal root ganglion neurons obtained from rat embryos on the 15th gestational day, a time when they require nerve growth factor for survival and differentiation in culture. When cultured in the absence of nerve growth factor, the neurons survived in the presence of acetyl-DEVD-cho or acetyl-YVAD-cho. Under these conditions, CA074 reduced the survival rate of the neurons, which was subsequently restored by the further addition of pepstain A. These results suggest that a novel pathway for initiating cell death exists which is regulated by lysosomal cathepsins, and in which cathepsin D acts as a death factor. We speculate that this death-inducing activity is normally suppressed by cathepsin B.
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PMID:Regulation of a novel pathway for cell death by lysosomal aspartic and cysteine proteinases. 1033 74

Caspase-3 initiates apoptotic DNA fragmentation by proteolytically inactivating DFF45 (DNA fragmentation factor-45)/ICAD (inhibitor of caspase-activated DNase), which releases active DFF40/CAD (caspase-activated DNase), the inhibitor's associated endonuclease. Here, we examined whether other apoptotic proteinases initiated DNA fragmentation via DFF45/ICAD inactivation. In a cell-free assay, caspases-3, -6, -7, -8, and granzyme B initiated benzoyloxycarbonyl-Asp-Glu-Val-Asp (DEVD) cleaving caspase activity, DFF45/ICAD inactivation, and DNA fragmentation, but calpain and cathepsin D failed to initiate these events. Strikingly, only the DEVD cleaving caspases, caspase-3 and caspase-7, inactivated DFF45/ICAD and promoted DNA fragmentation in an in vitro DFF40/CAD assay, suggesting that granzyme B, caspase-6, and caspase-8 promote DFF45/ICAD inactivation and DNA fragmentation indirectly by activating caspase-3 and/or caspase-7. In vitro, however, caspase-3 inactivated DFF45/ICAD and promoted DNA fragmentation more effectively than caspase-7 and endogenous levels of caspase-7 failed to inactivate DFF45/ICAD in caspase-3 null MCF7 cells and extracts. Together, these data suggest that caspase-3 is the primary inactivator of DFF45/ICAD and therefore the primary activator of apoptotic DNA fragmentation.
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PMID:Caspase-3 is the primary activator of apoptotic DNA fragmentation via DNA fragmentation factor-45/inhibitor of caspase-activated DNase inactivation. 1052 51

Apoptosis was inhibited in rat cardiomyocytes pretreated with the aspartic protease inhibitor pepstatin A and subsequently exposed to naphthazarin (5,8-dihydroxy-1,4-naphthoquinone). Cathepsin D was released from lysosomes to the cytosol upon exposure to naphthazarin, and the enzyme activity decreased simultaneously. Later, cathepsin D reappeared in granules of increased size, and enzyme activity was restored. Activation of caspase-3-like proteases was detected, and the number of cells showing apoptotic morphology increased with time. Pepstatin A pretreatment did not prevent release of cathepsin D from lysosomes but did significantly inhibit subsequent naphthazarin-induced caspase activation and apoptotic morphology. This suggests that cathepsin D exerts its apoptosis-stimulating effect upstream of caspase-3-like activation.
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PMID:Inhibition of cathepsin D prevents free-radical-induced apoptosis in rat cardiomyocytes. 1062 Mar 58

Previous studies established that the populations of neurons that frequently degenerate in Alzheimer's disease exhibit robust up-regulation of the lysosomal system. In this study, we investigated alterations of the lysosomal system during different forms of experimental injury in rat hippocampal neurons in culture, utilizing a combination of immunocytochemical and biochemical methods. Using triple-label immnocytochemistry for activated caspase-3, fragmentation of DNA and the microtubule-associated protein-2, we characterized treatment paradigms as models of the apoptotic (staurosporine, camptothecin), the oncotic (high-dose menadione, glutamate), and the mixed apoptotic and oncotic (low-dose menadione) pathways of neuronal death. Slowly developing apoptotic or slowly developing mixed apoptotic and oncotic forms of neuronal injury were associated with substantial increases in the number and size of cathepsin D-positive vesicles (late endosomes and mature lysosomes) as determined by immunocytochemistry, and elevated levels of cathepsin D by western blotting. In agreement with our previous findings in Alzheimer's disease, where lysosomal system activation was not restricted to overtly degenerating neurons, up-regulation of this system was also detected quite early during the course of experimental neuronal injury, preceding the development of dystrophic neurites, nuclear segmentation or fragmentation of DNA. These findings implicate lysosomal system activation, both in Alzheimer's disease and in experimental models of neuronal injury, as an important event associated with early stages of neurodegeneration.
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PMID:Up-regulation of the lysosomal system in experimental models of neuronal injury: implications for Alzheimer's disease. 1109 28

We have previously shown that oxidized low-density lipoprotein (LDL) induces damage to the macrophage lysosomal membranes, with ensuing leakage of lysosomal contents and macrophage cell death. Cholesterol oxidation products (ChOx) have been reported to be the major cytotoxic components of oxidized LDL/LDL- and also to stimulate cholesterol accumulation in vascular cells. In the present study, we characterized the initial events during macrophage damage induced by cholesterol oxidation products (ChOx). Within 24 h of exposure, ChOx caused lysosomal destabilization, release to the cytosol of the lysosomal marker-enzyme cathepsin D, apoptosis, and postapoptotic necrosis. Enhanced autophagocytosis and chromatin margination was found 12 h after the exposure to ChOx, whereas apoptosis and postapoptotic necrosis was pronounced 24 and 48 h after the exposure. Some lysosomal vacuoles were then filled with degraded cellular organelles, indicating phagocytosis of apoptotic bodies by surviving cells. Because caspase-3 activation was detected in the ChOx-exposed cells, lysosomal destabilization may associate with the leakage of lysosomal enzymes, and activation of the caspase cascade. MnSOD mRNA levels were markedly increased after 24 h of exposure to ChOx, suggesting associated induction of mitochondrial protection repair or turnover. We conclude that ChOx-induced damage to lysosomes and mitochondria are sequelae to the cascade of oxysterol cytotoxic events. The early disruption of lysosomes induced by ChOx, with resultant autophagocytosis may be a critical event in apoptosis and/or necrosis of macrophages/foam cells during the development of atherosclerotic lesions.
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PMID:Lysosomal destabilization during macrophage damage induced by cholesterol oxidation products. 1128 Dec 88

Production of alpha-1-antitrypsin by human monocytes is an important factor in controlling tissue damage by proteases in the microenvironment of inflammation. Increases of four- to eightfold in levels of native and fragmented forms of alpha-1-antitrypsin have been detected in inflammatory loci in vivo. In this study we have extended our previous observation that the carboxyl-terminal peptide (C-36) of alpha-1-antitrypsin produced by specific proteinase cleavage, when added in its fibrillar form at concentrations of 5 microM or more to monocytes in culture, induces cytotoxic effects. Experiments with synthetic amyloid-forming peptides suggest fibril cytotoxicity to be mediated via a common oxidative stress mechanism. We undertook to determine whether C-36 fibril cytotoxicity also involves this common pathway. Monocytes stimulated with C-36 fibrils for 1 h showed significant elevation in monocyte chemoattractant protein-1 expression, induced reduced nicotinamide-adenine dinucleotide phosphate oxidase activity, increased intracellular lipid peroxidation, altered mitochondrial membrane potential, and increased cytosolic cytochrome c and caspase-3 activity. Treatment of monocytes with C-36 fibrils after 24 h also resulted in increased cytosolic cathepsin D activity, suggesting that lysosomes may also be destabilized over longer periods of time. In contrast, native alpha-1-antitrypsin only showed concentration and time-dependent effects on chemoattractant protein-1 expression, and these appear to be independent of oxidative stress. These results indicate that the cytotoxicity of the fibrillar fragment is mediated via oxidative mechanisms and support important multiple roles for native and also for cleaved forms of alpha-1-antitrypsin in monocyte recruitment and activation during inflammatory processes such as atherosclerosis.
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PMID:Fibrillogenic C-terminal fragment of alpha-1-antitrypsin activates human monocytes via oxidative mechanisms. 1151 75

In the last decade, the molecular mechanisms of apoptosis, a major type of active cell death (type I cell death) have largely been clarified in mammalian cells. Particularly, the caspase family of proteinases has been shown to play crucial roles in the execution of apoptosis. Differing from apoptosis, type II cell death is known to be associated with autophagosomes/autolysosomes and appear in the developing nervous system (CLARKE, 1990). We have previously shown that delayed neuronal death occurring in the CA1 pyramidal layer of the gerbil hippocampus after brief forebrain ischemia is apoptotic in nature and autophagosomes/autolysosomes abundantly appear in the neurons before DNA fragmentation. To further understand the roles of autophagosomes/autolysosomes in active cell death, we examined the apoptosis of PC12 cells using morphological and biochemical techniques. PC12 cells are known to undergo apoptosis when cultured in the absence of serum. In such an environment, the mitochondrial pathway of apoptosis is activated; cytochrome c is released from mitochondria, and caspase-9/caspase-3 are activated. We have first examined morphological features of PC12 cells during the apoptotic process following serum deprivation, and found that autophagy is induced from the early stage of the process in the cells before typical nuclear changes. When autophagy is inhibited in the cells by 3-methyladenine, an autophagy inhibitor, they are largely protected from apoptosis. In relation to the induction of autophagy in PC12 cells following serum deprivation, immunoreactivity, protein amounts, and the proteolytic activity of lysosomal proteinases, particularly cathepsins B and D, are all greatly altered; those of cathepsin B drastically decrease in the cells from the early stage of serum-deprived cultures, whereas those of cathepsin D increase. Moreover, PC12 cells overexpressing cathepsin D undergo apoptosis more rapidly in serum-deprived cultures than wild-type cells, whereas those overexpressing cathepsin B increase the viability. These lines of evidence suggest that autophagy is involved in PC12 cell death following serum deprivation, this type of cell death being regulated by lysosomal proteinases, cathepsins B and D, downstream autophagy.
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PMID:Autophagic cell death and its execution by lysosomal cathepsins. 1157 20


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