EC:3.4.22.62 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.22.62 (caspase-9)
7,507 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Concanavalin A (Con A), a mannose/glucose-binding legume lectin, can induce cancer cell death through a mitochondria-mediated autophagic pathway; however, the precise mechanisms by which it mediates cell death are still only rudimentarily understood. In the present study, Con A possesses a remarkable antiproliferative effect on human melanoma A375 cells. Also, there is a link between the antiproliferative activity of Con A and its sugar-binding activity. Subsequently, Con A can induce human melanoma A375 cell apoptosis in a caspase-dependent manner. In addition, the treatment with Con A can cause mitochondrial transmembrane potential collapse, leading to cytochrome c release and caspase-9-caspase-3 activation. In conclusion, we demonstrate that there may be a close correlation between the antiproliferative activity of Con A and its sugar-binding activity. More importantly, we report for the first time that Con A can induce human melanoma A375 cell death in a caspase-dependent manner as well as via a mitochondrial apoptotic pathway.
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PMID:Induction of apoptosis by Concanavalin A and its molecular mechanisms in cancer cells. 1920 54

Augmentation of gastric mucosal cell apoptosis due to development of oxidative stress is one of the main pathogenic events in the development of nonsteroidal anti-inflammatory drug (NSAID)-induced gastropathy. Identification of a nontoxic, anti-apoptotic molecule is warranted for therapy against NSAID-induced gastropathy. The objective of the present study was to define the mechanism of the anti-apoptotic effect of melatonin, a nontoxic molecule which scavenges reactive oxygen species. Using an array of experimental approaches, we have shown that melatonin prevents the development of mitochondrial oxidative stress and activation of mitochondrial pathway of apoptosis induced by indomethacin (a NSAID) in the gastric mucosa. Melatonin inhibits the important steps of indomethacin-induced activation of mitochondrial pathway of apoptosis such as upregulation of the expression of Bax and Bak, and the downregulation of Bcl-2 and BclxL. Melatonin also prevents indomethacin-induced mitochondrial translocation of Bax and prevents the collapse of mitochondrial membrane potential. Moreover, melatonin reduces indomethacin-mediated activation of caspase-9 and caspase-3 by blocking the release of cytochrome c and finally rescues gastric mucosal cells from indomethacin-induced apoptosis as measured by the TUNEL assay. Histologic studies of gastric mucosa further document that melatonin almost completely protects against gastric damage induced by indomethacin. Thus, melatonin has significant anti-apoptotic effects to protect gastric mucosa from NSAID-induced apoptosis and gastropathy, which makes its use as potential therapy against gastric damage during NSAID treatment.
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PMID:Melatonin reduces indomethacin-induced gastric mucosal cell apoptosis by preventing mitochondrial oxidative stress and the activation of mitochondrial pathway of apoptosis. 1922 Jul 25

Despite the wide use of anti-CD20 antibody rituximab in the cancer treatment of B cell malignancies, the signalling pathways of CD20-induced apoptosis are still not understood. By using dominant negative (DN)-caspase-9 overexpressing follicular lymphoma cells we demonstrated that the activation of caspase-9 was essential for rituximab-mediated apoptosis. The death receptor pathway mediated by caspase-8 activation was not involved in rituximab-mediated apoptosis since overexpression of FLIP(short) or FLIP(long) proteins, inhibitors of caspase-8 activation, could not inhibit rituximab-induced apoptosis. However, the death receptor pathway activation by anti-Fas antibodies showed an additive effect on rituximab-induced apoptosis. The stabilisation of the mitochondrial outer membrane by Bcl-x(L) overexpression inhibited cell death, showing the important role of mitochondria in rituximab-induced apoptosis. Interestingly, the rituximab-induced release of cytochrome c and collapse of mitochondrial membrane potential were regulated by caspase-9. We suggest that caspase-9 and downstream caspases may feed back to mitochondria to amplify mitochondrial disruption during intrinsic apoptosis.
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PMID:The involvement of mitochondria and the caspase-9 activation pathway in rituximab-induced apoptosis in FL cells. 1930 35

In term and preterm neonates, massive glutamate release can lead to excitotoxic white-matter and cortical lesions. Because of its high permeability toward calcium, the N-methyl-D-aspartic acid (NMDA) receptor is thought to play an important role in excitotoxic lesions and NMDA antagonists therefore hold promise for neuroprotection. We found that, in neonatal mouse cortex, a given NMDA concentration exerted either excitotoxic or antiapoptotic effects depending on the cortical layers. In layer VI, NMDA led to excitotoxicity, sustained calcium mobilization, and necrosis of Gad67GFP neurons. In the immature layers II-IV, NMDA decreased apoptosis and induced transient calcium mobilization. The NMDA antagonist MK801 acted as a potent caspase-3 activator in immature layers II-IV and affected gamma aminobutyric acid (GABA)ergic interneurons. The apoptotic effect of MK801-induced BAX expression, mitochondrial potential collapse and caspase-9 activation. In vivo Bax small interfering ribonucleic acid and a caspase-9 inhibitor abrogated MK801-induced apoptosis and pyknotic nucleus formation. Ketamine, an anesthetic with NMDA antagonist properties, mimicked the apoptotic effects of MK801. These data indicate a dual effect of glutamate on survival of immature and mature GABAergic neurons and suggest that ketamine may induce apoptosis of immature GABAergic neurons.
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PMID:Dual effect of glutamate on GABAergic interneuron survival during cerebral cortex development in mice neonates. 1975 25

Oxidative stress-induced cerebral endothelial cell dysfunction is associated with cerebral microvascular complication of primary diabetic encephaolopathy, a neurodegenerative disorder of long-standing diabetes, but the injury mechanisms are poorly understood. This study sought to determine the contribution of carbonyl (methylglyoxal, MG) stress to human brain endothelial cell (IHEC) apoptosis, the relationship to cellular redox status and mitochondrial membrane potential, and the protection by thiol antioxidant and insulin sensitizers. MG exposure induced IHEC apoptosis in association with perturbed cellular glutathione (GSH) redox status, decreased mitochondrial membrane potential (Deltapsi(m)), activation of caspase-9 and -3, and cleavage of polyADP-ribose polymerase. Insulin sensitizers such as biguanides or AMP-activated protein kinase activator, but not glitazones, afforded cytoprotection through preventing (Deltapsi(m) collapse and activation of caspase-9 that was independent of cellular GSH. Similarly, cyclosporine A prevented Deltapsi(m) collapse, while N-acetylcysteine (NAC) mediated the recovery of cellular GSH redox balance that secondarily preserved Deltapsi(m). Collectively, these results provide mechanistic insights into the role of GSH redox status and mitochondrial potential in carbonyl stress-induced apoptosis of brain endothelial cells, with implications for cerebral microvascular complications associated with primary diabetic encephalopathy. The findings that thiol antioxidant and insulin sensitizers afforded cytoprotection suggest potential therapeutic approaches.
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PMID:Preservation of cellular glutathione status and mitochondrial membrane potential by N-acetylcysteine and insulin sensitizers prevent carbonyl stress-induced human brain endothelial cell apoptosis. 1980 52

Proteins of avian egg albumin have been suggested to play various biological roles during the development of chick embryo to confer protection. Recently, we have shown that ovotransferrin (OTf), the second major protein in egg albumin, undergoes thiol-linked autocleavage at distinct sites upon reduction. This study explores the physiological significance of OTf autocleavage by examining the effect of the reduced autocleaved OTf (termed rac-OTf) on modulation of cell proliferation, lethality, and apoptosis in two human cancer cell lines, colon cancer (HCT-116) and breast cancer (MCF-7). The rac-OTf was prepared by reduction of OTf with a non-thiol reductant (TCEP), to avoid reductive alkylation and produce highly soluble fragments. Unlike OTf, rac-OTf remarkably inhibited the proliferation of cancerous MCF-7 and HCT-116 cells in a dose-dependent manner, with the greatest effect on HCT-116, but had no effect on normal human mammary epithelial cells (HMEC). Cytofluorometric and trypan blue exclusion analyses indicated that rac-OTf exhibits cytotoxicity to HCT-116 in a dose-dependent fashion. The cytotoxic mechanism of rac-OTf against cancer cells was found to be induction of apoptosis as judged by changes in cell morphology, annexin-V binding, collapse of mitochondrial membrane potential, and caspase-9 and -6 activation, indicating the involvement of the mitochondrial pathway. This finding is the first to describe the reduction-dependent autocleaved OTf as an anticancer molecule, providing insights into a novel physiological function of OTf, suggesting its therapeutic potential in the treatment of human cancers and health benefit in nutraceuticals.
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PMID:Novel anticancer activity of the autocleaved ovotransferrin against human colon and breast cancer cells. 1988 63

During the germinal centre reaction (GC), B cells with non-functional or self-reactive antigen receptors are negatively selected by apoptosis to generate B cell repertoire with appropriate antigen specificities. We studied the molecular mechanism of Fas/CD95- and B cell receptor (BCR)-induced apoptosis to shed light on the signalling events involved in the negative selection of GC B cells. As an experimental model, we used human follicular lymphoma (FL) cell line HF1A3, which originates from a GC B cell, and transfected HF1A3 cell lines overexpressing Bcl-x(L), c-FLIP(long) or dominant negative (DN) caspase-9. Fas-induced apoptosis was dependent on the caspase-8 activation, since the overexpression of c-FLIP(long), a natural inhibitor of caspase-8 activation, blocked apoptosis induced by Fas. In contrast, caspase-9 activation was not involved in Fas-induced apoptosis. BCR-induced apoptosis showed the typical characteristics of mitochondria-dependent (intrinsic) apoptosis. Firstly, the activation of caspase-9 was involved in BCR-induced DNA fragmentation, while caspase-8 showed only marginal role. Secondly, overexpression of Bcl-x(L) could block all apoptotic changes induced by BCR. As a novel finding, we demonstrate that caspase-9 can enhance the cytochrome-c release and collapse of mitochondrial membrane potential (DeltaPsi(m)) during BCR-induced apoptosis. The requirement of different signalling pathways in apoptosis induced by BCR and Fas may be relevant, since Fas- and BCR-induced apoptosis can thus be regulated independently, and targeted to different subsets of GC B cells.
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PMID:Feedback regulation of mitochondria by caspase-9 in the B cell receptor-mediated apoptosis. 1990

A central issue regarding vertebrate apoptosis is whether caspase activity is essential, particularly for its crucial biological outcome: non-inflammatory clearance of the dying cell. Caspase-9 is required for the proteolytic cascade unleashed by the mitochondrial outer membrane permeabilization (MOMP) regulated by the Bcl-2 protein family. However, despite the severely blunted apoptosis in cells from Casp9(-/-) mice, some organs with copious apoptosis, such as the thymus, appear unaffected. To address this paradox, we investigated how caspase-9 loss affects apoptosis and clearance of mouse fibroblasts and thymocytes. Although Casp9(-/-) cells were initially refractory to apoptotic insults, they eventually succumbed to slower caspase-independent cell death. Furthermore, in gamma-irradiated mice, the dying Casp9(-/-) thymocytes were efficiently cleared, without apparent inflammation. Notably, MOMP proceeded normally, and the impaired mitochondrial function, revealed by diminished mitochondrial membrane potential (DeltaPsi(m)), committed cells to die, as judged by loss of clonogenicity. Upon the eventual full collapse of DeltaPsi(m), presumably reflecting failure of respiration, intact dying Casp9(-/-) cells unexpectedly exposed the prototypic 'eat-me' signal phosphatidylserine, which allowed their recognition and engulfment by phagocytes without overt inflammation. Hence, caspase-9-induced proteolysis accelerates apoptosis, but impaired mitochondrial integrity apparently triggers a default caspase-independent program of cell death and non-inflammatory clearance. Thus, caspases appear dispensable for some essential biological functions of apoptosis.
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PMID:Apoptosis and non-inflammatory phagocytosis can be induced by mitochondrial damage without caspases. 1991 Oct 5

Rapid increases in incidence and mortality of human malignant melanoma are observed worldwide; thus, the development of new effective chemicals to control melanoma is urgent. In this study, the cytotoxic effect of oxymatrine, a natural quinolizidine alkaloid, against three human melanoma cell lines (A375, Sk-Mel-28, MM96L) and the underlying mechanisms were investigated. Oxymatrine killed all three human melanoma cell lines in a dose-dependent manner. The compound also dose-dependently caused apoptosis in human melanoma A375 cells. In addition, oxymatrine induced a remarkable change in mitochondrial membrane potential and triggered the release of cytochrome c from mitochondria to cytosol. Furthermore, this small compound resulted in a marked activation of capase-3, caspase-9, and poly (ADP-ribose) polymerase, while caspase-3 inhibitor Z-DEVD-FMK significantly reversed the proapoptotic effect of oxymatrine in A375 cells. Moreover, oxymatrine also dose-dependently increased the generation of reactive oxygen species in A375 cells, and N-acetylcysteine, a reactive oxygen species production inhibitor, almost completely blocked oxymatrine-induced apoptosis. In conclusion, our findings suggest that oxymatrine triggers oxidative stress, resulting in the collapse of the mitochondrial transmembrane potential, which in turn leads to cytochrome c release and apoptosis through the intrinsic caspase-9/caspase-3 pathway in human melanoma A375 cells.
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PMID:The role of endogenous reactive oxygen species in oxymatrine-induced caspase-3-dependent apoptosis in human melanoma A375 cells. 2012 87

Nonsteroidal anti-inflammatory drug (NSAID)-induced oxidative stress plays a critical role in gastric mucosal cell apoptosis and gastropathy. NSAIDs induce the generation of hydroxyl radical ((*)OH) through the release of free iron, which plays an important role in developing gastropathy. Thus, molecules having both iron-chelating and antiapoptotic properties will be beneficial in preventing NSAID-induced gastropathy. Gallic acid (GA), a polyphenolic natural product, has the capacity to chelate free iron. Here, we report that GA significantly prevents, as well as heals, NSAID-induced gastropathy. In vivo, GA blocks NSAID-mediated mitochondrial oxidative stress by preventing mitochondrial protein carbonyl formation, lipid peroxidation, and thiol depletion. In vitro, GA scavenges free radicals and blocks (*)OH-mediated oxidative damage. GA also attenuates gastric mucosal cell apoptosis in vivo as well as in vitro in cultured gastric mucosal cells as evident from the TUNEL assay. GA prevents NSAID-induced activation of caspase-9, a marker for the mitochondrial pathway of apoptosis, and restores NSAID-mediated collapse of the mitochondrial transmembrane potential and dehydrogenase activity. Thus, the inhibition of mitochondrial oxidative stress by GA is associated with the inhibition of NSAID-induced mitochondrial dysfunction and activation of apoptosis in gastric mucosal cells, which are responsible for gastric injury or gastropathy.
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PMID:Gallic acid prevents nonsteroidal anti-inflammatory drug-induced gastropathy in rat by blocking oxidative stress and apoptosis. 2597 83

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