Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.22.61 (caspase-8)
 6,833 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitochondrial cytochrome c release plays a critical role in apoptotic signal cascade after the activation of cell surface death receptors. We investigated the role played by nitric oxide (NO) in mitochondrial apoptotic signaling in tumor necrosis factor alpha (TNF-alpha) plus actinomycin D (TNF-alpha/ActD)-induced apoptosis. NO produced either by S-nitroso-N-acetyl-DL-penicillamine (SNAP) or inducible NO synthase (iNOS) prevented TNF-alpha/ActD-induced apoptosis in hepatocytes and also inhibited both caspase-8-like (IETDase) and caspase-3-like protease (DEVDase) activity as well as mitochondrial cytochrome c release. Recombinant human (rh) caspase-8 induced the cleavage of the cytochrome c-effluxing factor Bid and cytochrome c release from purified mitochondria in the reconstitution system with Bid(+/+) cytosol, but not with Bid(-/-) cytosol. The addition of SNAP and the caspase-8 inhibitor Ac-IETD-fmk inhibited caspase-8-dependent Bid cleavage and cytochrome c release. The inhibitory effect of NO on caspase-8 was reversed by dithiothreitol (DTT). Furthermore, rh-caspase-8 was found to be modified by S-nitrosylation with 1.7 moles of NO bound per mole of enzyme. Treatment of hepatocytes with interleukin 1beta (IL-1beta) plus interferon gamma (IFN-gamma), which induced iNOS expression and NO production, suppressed TNF-alpha/ActD-induced Bid cleavage and mitochondrial cytochrome c release. The NOS inhibitor N(G)-monomethyl-L-arginine (NMA) inhibited the protective effects of IL-1beta and IFN-gamma. The liver-specific NO donor V-PYRRO/NO also inhibited in vivo elevation of IETDase activity, Bid cleavage, and mitochondrial cytochrome c release in the livers of rats injected with TNF-alpha plus D-galactosamine. Our results indicate that one mechanism by which NO protects hepatocytes from TNF-alpha/ActD-induced apoptosis is via the interruption of mitochondrial apoptotic signaling through S-nitrosylation of caspase-8.
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PMID:Nitric oxide prevents tumor necrosis factor alpha-induced rat hepatocyte apoptosis by the interruption of mitochondrial apoptotic signaling through S-nitrosylation of caspase-8. 1100 21

Excessive apoptotic cell death is implicated in a growing number of acute and chronic disease states. Caspases are critical for the intracellular signaling pathway leading to apoptosis. The aim of this investigation was to evaluate the efficacy and the mechanism of action of the novel caspase inhibitor CV1013 in a well-characterized model of TNF-induced apoptosis. Administration of 700 mg/kg galactosamine/100 microg/kg endotoxin (Gal/ET) induced hepatocellular apoptosis in C3Heb/FeJ mice as indicated by increased caspase-3 activity (706% above controls) and enhanced DNA fragmentation (3400% above controls) at 6 h. In addition, apoptosis was aggravated by the neutrophil-induced injury at 7 h (ALT activities: 4220 +/- 960 U/L and 48 +/- 4% necrosis). All animals died 8-12 h after Gal/ET treatment from shock and liver failure. A dose of 10 or 1 mg/kg of CV1013 administered three times (3, 4.5, and 5.5 h after Gal/ET) effectively prevented caspase-3 activation and parenchymal cell apoptosis at 6 h as well as the subsequent neutrophil-induced aggravation of the injury at 7 h after Gal/ET treatment. Animals treated with 10 mg/kg CV1013 survived for 24 h without liver injury. CV1013 reduced the processing of caspase-3 and caspase-8. This suggests that CV1013 may have inhibited the small amount of active caspase-8 generated at the receptor level. Because of the multiple amplification loops used to activate the entire caspase cascade, blocking the initial intracellular signal by CV1013 was highly effective in preventing apoptotic cell death. CV1013 has therapeutic potential for disease states with excessive apoptosis.
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PMID:Protection against TNF-induced liver parenchymal cell apoptosis during endotoxemia by a novel caspase inhibitor in mice. 1107 99

Tumor necrosis factor alpha (TNF-alpha) binding to the TNF receptor (TNFR) initiates apoptosis and simultaneously activates the transcription factor, nuclear factor-kappaB (NF-kappaB), which suppresses apoptosis by an unknown mechanism. Pretreatment with TNF-alpha or interleukin-1beta (IL-1beta), which activated NF-kappaB in the liver, dramatically prevented TNF-alpha-induced liver-cell apoptosis in D-galactosamine (GalN)-sensitized mice, but not anti-Fas antibody-induced hepatotoxicity. This protective effect of TNF-alpha continued for 5 hours after TNF-alpha administration, a time course similar to that found in NF-kappaB activation after TNF-alpha administration. In mice treated with adenoviruses expressing a mutant form of IkappaB, the antiapoptotic effect of TNF-alpha was inhibited in part. Prior TNF-alpha administration was not found to block the activation of caspase-8, although caspase-3 was inhibited in mice treated with TNF-alpha plus GalN/TNF-alpha compared with mice treated with GalN/TNF-alpha. These results indicate that TNFR and Fas independently regulate murine apoptotic liver failure, and that a rapid defense mechanism induced by the activation of NF-kappaB blocks death-signaling at the initiation stage of hepatic apoptosis mediated by TNFR, probably downstream of caspase-8, but not by Fas.
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PMID:Tumor necrosis factor alpha prevents tumor necrosis factor receptor-mediated mouse hepatocyte apoptosis, but not fas-mediated apoptosis: role of nuclear factor-kappaB. 1109 34

Excessive apoptosis has been implicated in a number of acute and chronic human diseases. The activation of caspases has been shown to be critical for the apoptotic process. The objective of this investigation was to evaluate the beneficial effects and mechanism of action of the caspase-8 inhibitor IETD-CHO and the caspase-3 inhibitor DEVD-CHO against tumor necrosis factor (TNF)-induced hepatocellular apoptosis in vivo and compare these results to effects of the same inhibitors against Fas-induced apoptosis. Treatment of C3Heb/FeJ mice with 700 mg/kg galactosamine/100 microg/kg endotoxin induced parenchymal apoptosis (indicated by caspase-3 activation and morphology) and severe liver injury (indicated by the increase in plasma alanine aminotransferase activities and histology) at 7 h. Treatment with IETD-CHO or DEVD-CHO (10 mg/kg at 3, 4.5, and 5.5 h) significantly attenuated caspase-3 activation and liver injury. Western analysis showed that DEVD-CHO had no effect while IETD-CHO substantially reduced procaspase-3 and procaspase-9 processing. On the other hand, caspase-3 activation and liver injury by the anti-Fas antibody Jo-2 was completely prevented by a single dose of DEVD-CHO and, as previously shown, by IETD-CHO at 90 min. Both inhibitors prevented procaspase-3 and procaspase-9 processing. Thus, there are fundamental differences in the efficacy of caspase inhibitors in these two models. We conclude that Fas may rely exclusively on caspase-8 activation and mitochondria to activate caspase-3, which can process more procaspase-8 and thus propagate the amplification of the apoptotic signal. TNF can activate a similar signaling pathway. However, alternative signaling mechanisms seem to exist, which can compensate if the main pathway is blocked.
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PMID:Differential protection with inhibitors of caspase-8 and caspase-3 in murine models of tumor necrosis factor and Fas receptor-mediated hepatocellular apoptosis. 1155 23

O(2)-Vinyl 1-(pyrrolidin-1-yl)diazen-1-ium-1,2-diolate (V-PYRRO/NO), a liver-selective nitric oxide (NO)-donating prodrug, is metabolized by hepatic enzymes to release NO within the liver. This study was undertaken to examine the effects of V-PYRRO/NO on D-galactosamine/lipopolysaccharide (GlaN/LPS)-induced liver injury in mice. Mice were given injections of V-PYRRO/NO (10 mg/kg, s.c. at 2-h intervals) before and after GlaN/LPS (700 mg/30 microg/kg, i.p.). V-PYRRO/NO administration dramatically reduced GlaN/LPS-induced hepatotoxicity, as evidenced by reduced serum alanine aminotransferase activity and improved pathology. To examine the mechanisms of the protection, cDNA microarray was performed to profile the gene expression pattern in livers of mice treated with GlaN/LPS, GlaN/LPS plus V-PYRRO/NO, or controls. V-PYRRO/NO administration greatly ameliorated GlaN/LPS-induced alterations in the expression of genes encoding the stress response, DNA damage/repair response, and drug-metabolizing enzymes in accordance with hepatoprotection. Gel shift assay and Western blot analysis supported microarray results, showing that V-PYRRO/NO suppressed GlaN/LPS-induced activation of nuclear factor-kappaB and GlaN/LPS-induced increases in caspase-1, caspase-8, tumor necrosis factor receptor 1 (TNFR1)-associated death domain, and TNF-related apoptosis-inducing ligand. Immunohistochemical analysis further revealed that GlaN/LPS-induced activation of TNFR1, caspase-3, and hepatocellular apoptosis was ameliorated by V-PYRRO/NO treatment. GlaN/LPS-induced elevation of hepatic caspase-3 activity was diminished by V-PYRRO/NO treatment. In addition, V-PYRRO/NO alone suppressed the basal expression of genes encoding inducible NO synthase and TNF-alpha-related components, as revealed by mouse 1.2 array. In summary, this study demonstrates that the liver-selective NO donor, V-PYRRO/NO, is effective in blocking GlaN/LPS-induced hepatotoxicity in mice, and that this protection appears to involve, at least in part, the suppression of the TNF-alpha-mediated cell death pathways.
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PMID:O(2)-Vinyl 1-(pyrrolidin-1-yl)diazen-1-ium-1,2-diolate protection against D-galactosamine/endotoxin-induced hepatotoxicity in mice: genomic analysis using microarrays. 1175 92

Tea-catechin derivatives are shown to inhibit activities of caspases-3, 2 and 7 in vitro, and prevented experimental apoptosis at the cell and animal levels. Epigallo-catechin-gallate showed the strongest inhibition at 1 x 10(-7)M to these caspases, but cysteine cathepsins and caspase-8 were not inhibited. Caspase-3 inhibition showed a 2nd-order allosteric-type, but the inhibition of caspases-2 and 7 showed a non-competitive-type. The apoptosis-test using cultured HeLa cells was inhibited by these catechins. In rat hepatocytes, apoptosis was induced by d-galactosamine in vivo. In this case, caspase-3 activity in the cytoplasm, the serum aminotransferases and dUTP nick formation detected by TUNNEL-staining were effects, and these elevations were suppressed by administration of catechin.
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PMID:Catechin derivatives: specific inhibitor for caspases-3, 7 and 2, and the prevention of apoptosis at the cell and animal levels. 1641 20

In vitro studies of hepatocytes have implicated over-activation of c-Jun N-terminal kinase (JNK) signaling as a mechanism of tumor necrosis factor-alpha (TNF)-induced apoptosis. However, the functional significance of JNK activation and the role of specific JNK isoforms in TNF-induced hepatic apoptosis in vivo remain unclear. JNK1 and JNK2 function was, therefore, investigated in the TNF-dependent, galactosamine/lipopolysaccharide (GalN/LPS) model of liver injury. The toxin GalN converted LPS-induced JNK signaling from a transient to prolonged activation. Liver injury and mortality from GalN/LPS was equivalent in wild-type and jnk1-/- mice but markedly decreased in jnk2-/- mice. This effect was not secondary to down-regulation of TNF receptor 1 expression or TNF production. In the absence of jnk2, the caspase-dependent, TNF death pathway was blocked, as reflected by the failure of caspase-3 and -7 and poly(ADP-ribose) polymerase cleavage to occur. JNK2 was critical for activation of the mitochondrial death pathway, as in jnk2-/- mice Bid cleavage and mitochondrial translocation and cytochrome c release were markedly decreased. This effect was secondary to the failure of jnk2-/- mice to activate caspase-8. Liver injury and caspase activation were similarly decreased in jnk2 null mice after GalN/TNF treatment. Ablation of jnk2 did not inhibit GalN/LPS-induced c-Jun kinase activity, although activity was completely blocked in jnk1-/- mice. Toxic liver injury is, therefore, associated with JNK over-activation and mediated by JNK2 promotion of caspase-8 activation and the TNF mitochondrial death pathway through a mechanism independent of c-Jun kinase activity.
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PMID:Tumor necrosis factor-induced toxic liver injury results from JNK2-dependent activation of caspase-8 and the mitochondrial death pathway. 1657 30

The major heat shock protein, HSP70, plays a critical role in cell survival in response to stress, possibly by inhibiting a number of antisurvival pathways. However, heat stress (HS) and HSPs also sensitize cells to certain apoptotic stimuli, such as TNF-alpha. To clarify the relations between HS and apoptosis, we examined the differential effects of the intensity of HS on liver injury and apoptosis induced by TNF-alpha in mice. TNF-alpha was injected into D-galactosamine (GalN)-sensitized mice that were pretreated with or without HS. Liver injury was assessed biochemically and histologically. In GalN-sensitized mice, application of HS for 7 days led to significant enhancement of TNF-alpha-induced hepatotoxicity, despite upregulation of HSP70 in the liver. In contrast, application of HS for 1 day led to attenuation of TNF-alpha-induced liver injury. Repeated HS decreased the levels of the FLICE inhibitory protein short (FLIP(S)) and activated caspase-8 in the liver. The caspase-8 inhibitor Z-IETD-FMK effectively protected both the nontreated and HS-pretreated mice from the hepatotoxicity induced by GalN/TNF-alpha. HS shows dual effects on TNF-alpha-induced hepatocyte apoptosis. Exposure to repeated HS, but not to single HS, leads to enhancement of TNF-alpha-induced hepatocyte apoptosis via the interaction of FLIP and caspase-8.
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PMID:Dual effects of heat stress on tumor necrosis factor-alpha-induced hepatocyte apoptosis in mice. 1683 53

Tumor necrosis factor-induced toxic liver injury results from JNK2-dependent activation of caspase-8 and the mitochondrial death pathway. Wang Y, Singh R, Lefkowitch JH, Rigoli RM, Czaja MJ. In vitro studies of hepatocytes have implicated over-activation of c-Jun N-terminal kinase (JNK) signaling as a mechanism of tumor necrosis factor-alpha (TNF)-induced apoptosis. However, the functional significance of JNK activation and the role of specific JNK isoforms in TNF-induced hepatic apoptosis in vivo remain unclear. JNK1 and JNK2 function was, therefore, investigated in the TNF-dependent, galactosamine/lipopolysaccharide (GalN/LPS) model of liver injury. The toxin GalN converted LPS-induced JNK signaling from a transient to prolonged activation. Liver injury and mortality from GalN/LPS was equivalent in wild-type and jnk1-/- mice but markedly decreased in jnk2-/- mice. This effect was not secondary to down-regulation of TNF receptor 1 expression or TNF production. In the absence of jnk2, the caspase-dependent, TNF death pathway was blocked, as reflected by the failure of caspase-3 and -7 and poly(ADP-ribose) polymerase cleavage to occur. JNK2 was critical for activation of the mitochondrial death pathway, as in jnk2-/- mice Bid cleavage and mitochondrial translocation and cytochrome c release were markedly decreased. This effect was secondary to the failure of jnk2-/- mice to activate caspase-8. Liver injury and caspase activation were similarly decreased in jnk2 null mice after GalN/TNF treatment. Ablation of jnk2 did not inhibit GalN/LPS-induced c-Jun kinase activity, although activity was completely blocked in jnk1-/- mice. Toxic liver injury is, therefore, associated with JNK over-activation and mediated by JNK2 promotion of caspase-8 activation and the TNF mitochondrial death pathway through a mechanism independent of c-Jun kinase activity. [Abstract reproduced by permission of J Biol Chem 2006;281:15258-67].
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PMID:The role of JNK2 in toxic liver injury. 1697 78

We demonstrated previously that depletion of hepatic ATP by endogenous metabolic shunting of phosphate after fructose treatment renders hepatocytes resistant to tumor necrosis factor (TNF)-induced apoptosis. We here address the question whether this principle extends to TNF receptor 1-mediated caspase-independent apoptotic and to necrotic liver injury. As in the apoptotic model of galactosamine/lipopolysaccharide (LPS)-induced liver damage, the necrotic hepatotoxicity initiated by sole high-dose LPS treatment was abrogated after depletion of hepatic ATP. Although systemic TNF and interferon-gamma levels were suppressed, animals still were protected when ATP depletion was initiated after the peak of proinflammatory cytokines upon LPS injection, showing that fructose-induced ATP depletion affects both cytokine release and action. In T cell-dependent necrotic hepatotoxicity elicited by concanavalin A or galactosamine + staphylococcal enterotoxin B, ATP depletion prevented liver injury as well, but here without modulating cytokine release. By attenuating caspase-8 activation, ATP depletion of hepatocytes in vitro impaired TNF receptor signaling by the death-inducing signaling complex, whereas receptor internalization and nuclear factor-kappaB activation upon TNF stimulation were unaffected. These findings demonstrate that sufficient target cell ATP levels are required for the execution of both apoptotic and necrotic TNF-receptor 1-mediated liver cell death.
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PMID:ATP-depleting carbohydrates prevent tumor necrosis factor receptor 1-dependent apoptotic and necrotic liver injury in mice. 1736 82


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