UNIPROT:P42574 - FACTA Search

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)

Cumulative doses of doxorubicin, a potent anticancer drug, lead to serious myocardial dysfunction. Numerous mechanisms including apoptosis have been proposed to account for its cardiotoxicity. Cardiac apoptosis induced by doxorubicin has been related to excessive reactive oxygen species production by the mitochondrial NADH dehydrogenase. Here, we explored whether doxorubicin treatment activates other superoxide anion generating systems such as the NADPH oxidases, membrane-embedded flavin-containing enzymes, and whether the subsequent oxidative stress contributes to apoptosis. We showed that doxorubicin treatment of rat cardiomyoblasts H9c2 triggers increases in caspase-3 like activity and hypoploid cells, both common features of apoptosis. Doxorubicin exposure also leads to a rapid superoxide production through NADPH oxidase activation. Inhibition of these enzymes using diphenyliodonium and apocynin reduces doxorubicin-induced reactive oxygen species production, caspase-3 like activity and sub-G1 cell population. In conclusion, NADPH oxidases participate to doxorubicin-induced cardiac apoptosis.
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PMID:NADPH oxidases participate to doxorubicin-induced cardiac myocyte apoptosis. 1969 79

The accumulation of plasma advanced oxidation protein products (AOPPs) is prevalent in diverse disorders such as diabetes, metabolic syndromes, and chronic kidney disease. To study whether accumulated AOPPs have an important role in the progression of proteinuria and glomerulosclerosis, we chronically treated normal Sprague-Dawley rats with AOPP-modified rat serum albumin. Podocyte apoptosis was significantly increased coincident with the onset of albuminuria and preceded significant losses of glomerular podocytes. Increasing the amount of AOPPs in the media of conditionally immortalized podocytes rapidly triggered the production of intracellular superoxide by activation of NADPH oxidase and this, in turn, led to an upregulation of p53, Bax, caspase 3 activity, and apoptosis. Chronic inhibition of NADPH oxidase by apocynin prevented podocyte apoptosis, ameliorated podocyte depletion, and decreased albuminuria in AOPP-challenged rats. Our study demonstrates that accumulation of AOPPs promotes NADPH oxidase-dependent podocyte depletion by a p53-Bax apoptotic pathway both in vivo and in vitro.
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PMID:Accumulation of advanced oxidation protein products induces podocyte apoptosis and deletion through NADPH-dependent mechanisms. 1991 Sep 47

Three new butanolides, tenuifolide A (1), isotenuifolide A (2), and tenuifolide B (3), a new secobutanolide, secotenuifolide A (4), and one new sesquiterpenoid, tenuifolin (5), along with 16 known compounds were isolated from the stems of Cinnamomum tenuifolium. Their structures were determined by spectroscopic analyses. Compound 4 was found to induce apoptotic-related DNA damage, increase sub-G1 cells, and inhibit the growth of human prostate cancer cells, DU145. In addition, treatment with 4 significantly increased intracellular H2O2 and/or peroxide. The results show that 4 induced (a) noticeable reduction of mitochondrial transmembrane potential (DeltaPsim); (b) significant increase in the ratio of cytochrome c concentration (cytosol/mitochondria); and (c) subsequent activation of caspase-9/caspase-3. Antiproliferation caused by 4 was found to markedly decrease when pretreated with caspase-9/caspase-3 inhibitor. In ROS scavenging, antioxidant, NADPH oxidase, and NO inhibitor studies, pretreatment of DU145 cells with either DPI, dexamethasone, L-NAME, or mannitol decreased 4-induced intracellular DCF fluorescence of ROS. These results suggest that an increase of H2O2 and/or peroxide by 4 is the initial apoptotic event and 4 has anticancer effects on DU145 cells.
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PMID:Cytotoxic compounds from the stems of Cinnamomum tenuifolium. 1975 30

We had earlier demonstrated that chronic exposure (30 days) to micro-molar concentration (0.50 microM) of arsenic induced head kidney macrophage (HKM) death in Clarias batrachus. The purpose of the present study is to characterize the nature of HKM death induced by arsenic and elucidate the signal transduction pathways involved in the process. Arsenic-induced HKM death was apoptotic in nature as evident from DNA gel, Annexin V-propidium iodide, Hoechst 33342 staining and TdT-mediated dUTP nick end labeling (TUNEL) assays. Inhibitor studies and immunoblot analyses further demonstrated that arsenic-induced HKM apoptosis involved activation of caspase-3 and cleavage of poly(ADP-ribose) polymerase, a well-characterized caspase-3 substrate. Preincubation with antioxidants N-acetyl-cysteine or dimethyl sulfoxide significantly lowered reactive oxygen species (ROS) levels in arsenic-treated HKM and prevented caspase activation, malondialdehyde formation and HKM apoptosis. Arsenic induced membrane translocation of the NADPH oxidase subunit p47(phox). Preincubation with apocynin and diphenyleneiodonium chloride, both selective inhibitors of NADPH oxidases, prevented p47(phox) translocation, ROS production and HKM death. Exposure of HKM to arsenic induced the activation of mitogen-activated protein kinase family (MAPK) proteins including c-Jun NH(2)-terminal protein kinase (JNK) and p38 mitogen-activated protein kinase (p38). Preincubation of HKM with p38 inhibitor SB203580 and JNK inhibitor SP600125 protected the HKM against arsenic-induced apoptosis. We conclude that exposure to micro-molar concentration of arsenic induces ROS generation through the activation of NADPH oxidases, which in turn causes caspase-3 mediated HKM apoptosis. In addition, the study also indicates a role of p38-JNK pathway in arsenic-induced HKM apoptosis in C. batrachus.
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PMID:Low concentration of arsenic could induce caspase-3 mediated head kidney macrophage apoptosis with JNK-p38 activation in Clarias batrachus. 1978 97

MCP-1 (monocyte chemotactic protein-1) plays a critical role in the development of heart failure that is known to involve apoptosis. How MCP-1 contributes to cell death involved in the development of heart disease is not understood. In the present study we show that MCP-1 causes death in cardiac myoblasts, H9c2 cells, by inducing oxidative stress which causes ER stress leading to autophagy via a novel zinc-finger protein, MCPIP (MCP-1-induced protein). MCPIP expression caused cell death, and knockdown of MCPIP attenuated MCP-1-induced cell death. It caused induction of iNOS (inducible NO synthase), translocation of the NADPH oxidase subunit phox47 from the cytoplasm to the membrane, production of ROS (reactive oxygen species), and induction of ER (endoplasmic reticulum) stress markers HSP40 (heat-shock protein 40), PDI (protein disulfide-isomerase), GRP78 (guanine-nucleotide-releasing protein 78) and IRE1alpha (inositol-requiring enzyme 1alpha). It also caused autophagy, as indicated by beclin-1 induction, cleavage of LC3 (microtubule-associated protein 1 light chain 3) and autophagolysosome formation, and apoptosis, as indicated by caspase 3 activation and TUNEL (terminal deoxynucleotidyltransferase-mediated dUTP nick-end labelling) assay. Inhibitors of oxidative stress, including CeO2 nanoparticles, inhibited ROS formation, ER stress, autophagy and cell death. Specific inhibitors of ER stress inhibited autophagy and cell death as did knockdown of the ER stress signalling protein IRE1. Knockdown of beclin-1 and autophagy inhibitors prevented cell death. This cell death involved caspase 2 and caspase 12, as specific inhibitors of these caspases prevented MCPIP-induced cell death. Microarray analysis showed that MCPIP expression caused induction of a variety of genes known to be involved in cell death. MCPIP caused activation of JNK (c-Jun N-terminal kinase) and p38 and induction of p53 and PUMA (p53 up-regulated modulator of apoptosis). Taken together, these results suggest that MCPIP induces ROS/RNS (reactive nitrogen species) production that causes ER stress which leads to autophagy and apoptosis through caspase 2/12 and IRE1alpha-JNK/p38-p53-PUMA pathway. These results provide the first molecular insights into the mechanism by which elevated MCP-1 levels associated with chronic inflammation may contribute to the development of heart failure.
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PMID:MCP-1 causes cardiomyoblast death via autophagy resulting from ER stress caused by oxidative stress generated by inducing a novel zinc-finger protein, MCPIP. 1992 54

Reactive oxygen species (ROS) play an important role in ethanol-induced apoptosis and teratogenesis. However, the major sources of ROS in ethanol-exposed embryos have remained undefined. This study was conducted to determine the role of NADPH oxidase (NOX) in ethanol-induced oxidative stress and apoptosis in mouse embryos. Analyses of mRNA expression indicated that ethanol treatment resulted in a significant increase in mRNA expression of NOX catalytic subunit Duox-1 in gestational day 9 (GD 9:0) mouse embryos. Ethanol exposure also resulted in significant increases in mRNA expression of NOX regulatory subunits, p22phox, p67phox, NOXA1 and NOXO1. In addition, a significant increase in NOX enzyme activity was found in the ethanol-exposed embryos as compared to controls. Co-treatment with the NOX inhibitor, diphenyleneiodonium (DPI), significantly prevented ethanol-induced increases in NOX enzyme activity, ROS generation and oxidative DNA damage in ethanol-exposed embryos. DPI treatment also resulted in a reduction in caspase-3 activation, decreased caspase-3 activity and diminished prevalence of apoptosis in ethanol-exposed embryos. These results support the hypothesis that NOX is a critical source of ROS in ethanol-exposed embryos and that it plays an important role in ethanol-induced oxidative stress and pathogenesis.
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PMID:The role of NOX enzymes in ethanol-induced oxidative stress and apoptosis in mouse embryos. 2002 59

Although glial cells play a major role in the pathogenesis of many neurological diseases by exacerbating neuronal and non-neuronal cell death, the mechanisms involved are unclear. We examined the effects of microglia-(MCM) or astrocyte-(ACM) conditioned media obtained by chemical ischemia on the neuronal injury in SH-SY5Y cells. Chemical ischemia was induced by the treatment with NaN(3) and 2-deoxy-d-glucose for 2h. MCM-treated SH-SY5Y cells showed reduced the viability, increased caspase-3 activity, decreased Bcl-2/Bax ratio, and increased cytochrome c release, increased inflammatory cytokines, and increased reactive oxygen species (ROS) generation. MCM also increased gp91phox nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, which was inhibited by NADPH oxidase inhibitor, apocynin, and gp91phox siRNA. However, ACM did not show any significant changes. The results suggest that microglia activated by ischemic insult may increase reactive oxygen species generation via activation of gp91phox NADPH oxidase, resulting in neuronal injury.
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PMID:Ischemia-activated microglia induces neuronal injury via activation of gp91phox NADPH oxidase. 2003 16

Ketoprofen (KP) is photolabile and undergoes degradation when irradiated by sunlight, causing the development of various skin diseases. In this study, we found that UVB-irradiated KP can lead to inflammatory responses mediated by the induction of COX-2 and production of PGE(2). The ability of cells to repair UVB-induced cyclobutane pyrimidine dimers was impaired by UVB-irradiated KP, which consequently facilitated UVB-induced DNA damage to keratinocytes. The reactive oxygen species (ROS) generated by the photodegradation of KP facilitate UVB-induced inflammation and apoptosis in HaCaT cells. Elevation of the COX-2 levels was inhibited by an NADPH oxidase inhibitor and an NF-kappaB inhibitor but was largely enhanced after glutathione depletion by buthionine sulfoximine. Inhibition of ERK1/2, p38, and PI3K signaling attenuated the induction of COX-2, whereas inhibition of JNK signaling by SP600125 had very little effect. UVB-irradiated KP provoked an appreciable accumulation of pSer(15)-p53/COX-2 complexes, but this nuclear association of complexes was partially inhibited by PD98059. Silencing of COX-2 with siRNA was associated with reduced p53 phosphorylation and enhanced KP-photoinduced loss of mitochondrial membrane potential and cleavage of caspase 3 and PARP. This induction of apoptosis was prevented by N-acetylcysteine. In conclusion, this study highlights the particular inflammatory response to a photooxidative drug and suggests that KP-photoinduced inflammatory responses are predominantly attributable to induction of ROS generation and directly impair DNA repair.
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PMID:Photoinflammatory responses to UV-irradiated ketoprofen mediated by the induction of ROS generation, enhancement of cyclooxygenase-2 expression, and regulation of multiple signaling pathways. 2003 33

Induction of reactive oxygen species (ROS) is a hallmark of granzyme B (gzmB)-mediated pro-apoptotic processes and target cell death. However, it is unclear to what extent the generated ROS derive from mitochondrial and/or extra-mitochondrial sources. To clarify this point, we have produced a mutant EL4 cell line, termed EL4-rho(0), which lacks mitochondrial DNA, associated with a decreased mitochondrial membrane potential and a defective ROS production through the electron transport chain of oxidative phosphorylation. When incubated with either recombinant gzmB plus streptolysin or ex vivo gzmB(+) cytotoxic T cells, EL4-rho(0) cells showed phosphatydylserine translocation, caspase 3 activation, Bak conformational change, cytochrome c release and apoptotic morphology comparable to EL4 cells. Moreover, EL4-rho(0) cells produced ROS at levels similar to EL4 under these conditions. GzmB-mediated ROS production was almost totally abolished in both cell lines by the pan-caspase inhibitor, Z-VAD-fmk. However, addition of apocynin, a specific inhibitor of nicotinamide adenine dinucleotide phosphate (NADPH) oxidases, led to a significant reduction of ROS production and cell death only in EL4-rho(0) but not EL4 cells. These data suggest that gzmB-induced cell death is accompanied by a caspase-dependent pathway of extra-mitochondrial ROS production, most probably through activation of NADPH oxidase.
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PMID:Granzyme B of cytotoxic T cells induces extramitochondrial reactive oxygen species production via caspase-dependent NADPH oxidase activation. 2023 55

The pathophysiological relevance of S-nitrosoglutathione (GSNO)-induced endothelial cell injury remains unclear. The main objective of this study was to elucidate the molecular mechanisms of GSNO-induced oxidative stress in endothelial cells. Morphological evaluation through DAPI staining and propidium iodide (PI) flow cytometry was used to detect apoptosis. In cultured EA.hy926 endothelial cells, exposure to GSNO led to a time- and dose-dependent apoptotic cascade. When intracellular reactive oxygen species (ROS) production was measured in GSNO-treated cells with the fluorescent probes 5-(and-6)-carboxy-2',7'-dichlorofluorescein diacetate, we observed elevated ROS levels and a concomitant loss in mitochondrial membrane potential, indicating that GSNO-induced death signaling is mediated through a ROS-mitochondrial pathway. Importantly, we found that peroxynitrite formation and Omi/HtrA2 release from mitochondria were involved in this phenomenon, whereas changes of death-receptor dependent signaling were not detected in the same context. The inhibition of NADPH oxidase activation and Omi/HtrA2 by a pharmacological approach provided significant protection against caspase-3 activation and GSNO-induced cell death, confirming that GSNO triggers the death cascade in endothelial cells in a mitochondria-dependent manner. Taken together, our results indicate that ROS overproduction and loss of mitochondrial Omi/HtrA2 play a pivotal role in reactive nitrogen species-induced cell death, and the modulation of these pathways can be of significant therapeutic benefit.
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PMID:The induction of reactive oxygen species and loss of mitochondrial Omi/HtrA2 is associated with S-nitrosoglutathione-induced apoptosis in human endothelial cells. 2015 46

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