UNIPROT:P04040 - FACTA Search

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Query: UNIPROT:P04040 (Catalase)
3,577 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of mycotoxin citrinin on Ca2+ efflux and membrane permeabilization were studied in isolated rat liver mitochondria. The efflux rate observed when in presence of ruthenium red was higher when citrinin was added. Swelling experiments demonstrated Ca(2+)-dependent membrane permeabilization by citrinin. Catalase, butylhydroxitoluene (BHT), and dithiothreitol (DTT) did not protect swelling caused by Ca2+ plus citrinin. The protection conferred by ATP-Mg2+ and cyclosporin A in the latter experiments are strong indications of pore formation. These results suggest that citrinin can induce permeability transition by a mechanism that does not involve oxidative damage.
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PMID:Citrinin-induced mitochondrial permeability transition. 966 35

1. We report opposite inotropic effects of NO donors in frog cardiac fibres. The negative effect, elicited by either 3-morpholino-sydnonimine (SIN-1) or S-nitroso-N-acetyl-penicillamine (SNAP), involved cyclic GMP (cGMP) production. However, SIN-1, unlike SNAP, could elicit a positive effect, in a superoxide dismutase (SOD)-sensitive manner. SIN-1, unlike SNAP, can release both NO and superoxide anion, the precursors of peroxynitrite (OONO-). The role of these messengers was examined. 2. Catalase did not reduce the positive inotropic effect of SIN-1. Thus, a conversion of superoxide anion into hydrogen peroxide was not involved in this effect. In addition, catalase did not modify the negative effects of SIN-1 plus SOD, or SNAP plus SOD. 3. LY 83583, a superoxide anion generator, elicited a positive inotropic effect, like SIN-1. The effect of LY 83583 was additive to the negative effects of SIN-1 or SNAP, and to the positive effect of SIN-1. Thus, superoxide anion generation, per se, did not account for the positive effect of SIN-1. 4. Authentic peroxynitrite (OONO-), but not mock-OONO- (negative control plus decomposed OONO-), exerted a dramatic positive inotropic effect in cardiac fibres. The effect of OONO- was larger in atrial fibres, as compared with ventricular fibres. 5. The positive effect of OONO- was not additive with that of SIN-1, suggesting a common mechanism of action. In contrast, the effects of either OONO- or SIN-1 were additive with the negative inotropic effect of SNAP. Furthermore, the effect of OONO-, like that of SIN-1, was not antagonized by 1H-[1,2,4]xidiazolo[4, 3-a]quinoxaline-1-one (ODQ; 10 microM), the guanylyl cyclase inhibitor. 6. The positive inotropic effects of SIN-1 and OONO- were not modified by hydroxyl radical scavengers, such as dimethyl-thio-urea (DMTU; 10 mM). 7. The positive inotropic effect of SIN-1 (100 microM) was abolished in sodium-free solutions, a treatment that eliminates the activity of the sodium-calcium exchanger. In contrast, the effect of SIN-1 was unchanged by a potassium channel inhibitor (tetraethyl-ammonium, 20 mM), or a sodium-potassium pump inhibitor (ouabain 10 microM). 8. We conclude that OONO- is a positive inotropic agent in frog cardiac fibres. The generation of OONO- accounts for the positive inotropic effect of SIN-1. OONO- itself was responsible for the positive inotropic effect, and appeared to modulate the activity of the sodium-calcium exchanger.
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PMID:Peroxynitrite is a positive inotropic agent in atrial and ventricular fibres of the frog heart. 1058 9

We have studied neurotoxicity induced by pharmacological concentrations of 3-hydroxykynurenine (3-HK), an endogenous toxin implicated in certain neurodegenerative diseases, in cerebellar granule cells, PC12 pheochromocytoma cells, and GT1-7 hypothalamic neurosecretory cells. In all three cell types, the toxicity was induced in a dose-dependent manner by 3-HK at high micromolar concentrations and had features characteristic of apoptosis, including chromatin condensation and internucleosomal DNA cleavage. In cerebellar granule cells, the 3-HK neurotoxicity was unaffected by xanthine oxidase inhibitors but markedly potentiated by superoxide dismutase and its hemelike mimetic, MnTBAP [manganese(III) tetrakis(benzoic acid)porphyrin chloride]. Catalase blocked 3-HK neurotoxicity in the absence and presence of superoxide dismutase or MnTBAP. The formation of H(2)O(2) was demonstrated in PC12 and GT1-7 cells treated with 3-HK, by measuring the increase in the fluorescent product, 2',7'-dichlorofluorescein. In both PC12 and cerebellar granule cells, inhibitors of the neutral amino acid transporter that mediates the uptake of 3-HK failed to block 3-HK toxicity. However, their toxicity was slightly potentiated by the iron chelator, deferoxamine. Taken together, our results suggest that neurotoxicity induced by pharmacological concentrations of 3-HK in these cell types is mediated primarily by H(2)O(2), which is formed most likely by auto-oxidation of 3-HK in extracellular compartments. 3-HK-induced death of PC12 and GT1-7 cells was protected by dantrolene, an inhibitor of calcium release from the endoplasmic reticulum. The protection by dantrolene was associated with a marked increase in the protein level of Bcl-2, a prominent antiapoptotic gene product. Moreover, overexpression of Bcl-2 in GT1-7 cells elicited by gene transfection suppressed 3-HK toxicity. Thus, dantrolene may elicit its neuroprotective effects by mechanisms involving up-regulation of the level and function of Bcl-2 protein.
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PMID:Neuronal apoptosis induced by pharmacological concentrations of 3-hydroxykynurenine: characterization and protection by dantrolene and Bcl-2 overexpression. 1085 50

beta-Amyloid is cytotoxic to neurons in culture by increasing hydrogen peroxide and altering calcium homeostasis. We have evaluated the cytotoxicty of beta-amyloid peptides (betaA(25-35) and betaA(1-40)) and generation of hydrogen peroxide on cortical cultured astrocytes. Twenty-four hours after a single addition of either betaA(25-35) or betaA(1-40) there was a concentration-dependent decrease in viability. This toxicity never exceeded 50% of the population independently of exposure time and concentrations. The subpopulation of astrocytes resistant to betaA(25-35) effects were also insensitive to peroxide. Catalase or vitamin E showed no protective effect against betaA(25-35) toxicity. Dithiothreitol (DTT), N-acetylcysteine (NAC), and cyclosporine A significantly prevented the toxic effects of both betaA(25-35) and peroxide. Inhibition of peroxide detoxifying enzymes increased betaA(25-35) and peroxide toxicity. Exposure to betaA(25-35) or betaA(1-40) increased peroxide production at 2 and 24 h, which was prevented by DTT and NAC, but not vitamin E. Despite the inability of added catalase to reduce betaA toxicity, these results suggest that betaA-induced cytotoxicity to astrocytes in culture is, as in neurons, mediated by generation of hydrogen peroxide.
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PMID:beta-amyloid peptides are cytotoxic to astrocytes in culture: a role for oxidative stress. 1096 10

The endothelium plays an important role in maintaining vascular homeostasis by synthesizing and releasing several endothelium-derived relaxing factors, such as prostacyclin, nitric oxide (NO), and the previously unidentified endothelium-derived hyperpolarizing factor (EDHF). In this study, we examined our hypothesis that hydrogen peroxide (H(2)O(2)) derived from endothelial NO synthase (eNOS) is an EDHF. EDHF-mediated relaxation and hyperpolarization in response to acetylcholine (ACh) were markedly attenuated in small mesenteric arteries from eNOS knockout (eNOS-KO) mice. In the eNOS-KO mice, vasodilating and hyperpolarizing responses of vascular smooth muscle per se were fairly well preserved, as was the increase in intracellular calcium in endothelial cells in response to ACh. Antihypertensive treatment with hydralazine failed to improve the EDHF-mediated relaxation. Catalase, which dismutates H(2)O(2) to form water and oxygen, inhibited EDHF-mediated relaxation and hyperpolarization, but it did not affect endothelium-independent relaxation following treatment with the K(+) channel opener levcromakalim. Exogenous H(2)O(2) elicited similar relaxation and hyperpolarization in endothelium-stripped arteries. Finally, laser confocal microscopic examination with peroxide-sensitive fluorescence dye demonstrated that the endothelium produced H(2)O(2) upon stimulation by ACh and that the H(2)O(2) production was markedly reduced in eNOS-KO mice. These results indicate that H(2)O(2) is an EDHF in mouse small mesenteric arteries and that eNOS is a major source of the reactive oxygen species.
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PMID:Hydrogen peroxide is an endothelium-derived hyperpolarizing factor in mice. 1113 74

In the last years, reactive oxygen species (ROS) have been proposed as mediators of proliferative/hypertrophic responses to angiotensin II (Ang II), both in vivo and in vitro. However, the hypothesis that the Ang II-dependent cell contraction could be mediated by ROS, particularly H2O2, has not been tested. Present experiments were devoted to test this hypothesis and to analyze the possible mechanisms involved. Catalase (CAT) prevented the increased myosin light chain phosphorylation and the decreased planar cell surface area (PCSA) induced by 1 microM Ang II in cultured rat vascular smooth muscle cells (VSMC). This preventive effect of CAT was also detected when 1 microM platelet-activating factor (PAF) was used as a contractile agonist instead of Ang II. Similar results were found when using horseradish peroxidase as an H2O2 scavenger or cultured rat mesangial cells. In vascular smooth muscle cells, CAT modified neither the binding of labeled Ang II nor the Ang II-induced inositol 1,4,5-trisphosphate (IP3) synthesis. However, it completely abolished the Ang II-dependent calcium peak, in a dose-dependent fashion. CAT-loaded cells (increased intracellular CAT concentration over 3-fold) did not show either a decreased PCSA or an increased intracellular calcium concentration after Ang II treatment. Ang II stimulated the H2O2 synthesis by cultured cells, and the presence of CAT in the extracellular compartment significantly diminished the Ang II-dependent increased intracellular H2O2 concentration. The physiological importance of these findings was tested in rat thoracic aortic rings: CAT prevented the contraction elicited by Ang II. In summary, present experiments point to H2O2 as a critical intracellular metabolite in the regulation of cell contraction.
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PMID:The role of hydrogen peroxide in the contractile response to angiotensin II. 1112 30

Endogenous peroxides and related reactive oxygen species may influence various steps in the contractile process. Single mouse skeletal muscle fibers were used to study the effects of hydrogen peroxide (H2O2) and t-butyl hydroperoxide (t-BOOH) on force and myoplasmic Ca2+ concentration ([Ca2+]i). Both peroxides (1010 to 105 M) decreased tetanic [Ca2+]i and increased force during submaximal tetani. Catalase (1 kU/ml) blocked the effect of H2O2, but not of t-BOOH. The decrease in tetanic [Ca2+]i was constant, while the effect on force was biphasic: A transitory increase was followed by a steady decline to the initial level. Myofibrillar Ca2+ sensitivity remained increased during incubation with either peroxide. Only the highest peroxide concentration (10 mM) increased resting [Ca2+]i and slowed the return of [Ca2+]i to its resting level after a contraction, evidence of impaired sarcoplasmic reticulum Ca2+ re-uptake. The peroxides increased maximal force production and the rate of force redevelopment, and decreased maximum shortening velocity. N-ethylmaleimide (25 mM, thiol-alkylating agent) prevented the response to 1 mM H2O2. These results show that myofibrillar Ca2+ sensitivity and cross-bridge kinetics are influenced by H2O2 and t-BOOH concentrations that approach those found physiologically, and these findings indicate a role for endogenous oxidants in the regulation of skeletal muscle function.
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PMID:Contractile response of skeletal muscle to low peroxide concentrations: myofibrillar calcium sensitivity as a likely target for redox-modulation. 1115 46

beta-Amyloid (betaA) is cytotoxic to neurons in culture by increasing hydrogen peroxide and altering calcium homeostasis. We have evaluated betaA-induced cytotoxicity, peroxide generation and glutamate (Glu) uptake in cultured astrocytes. Twenty-four hours after a single addition of either betaA25-35 or betaA1-40there was a concentration-dependent decrease in viability. Catalase or vitamin E showed no protective effect against betaA25-35 Dithiothreitol (DTT), N-acetylcysteine (NAC) and cyclosporine A significantly prevented the toxic effects of both betaA25-35 and peroxide, while inhibition of peroxide detoxifying enzymes enhanced toxicity. Exposure to betaA25-35 or betaA1-40 increased peroxides at 2 h and 24 h, which was prevented by DTT and NAC, but not vitamin E. betaA25-35 inhibited Glu uptake in astrocytes and neurons in culture. Following exposure of neurons to betaA for 24 h there was decreased uptake and increased Glu levels in the culture medium, that resulted in gradual excitotoxicity.
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PMID:beta-Amyloid-induced cytotoxicity, peroxide generation and blockade of glutamate uptake in cultured astrocytes. 1138 55

Rat cardiomyocytes were exposed to H2O2 (1-100 micromol/L) for 10 min with washout for 10 min. Intracellular Ca2+ concentration ([Ca2+]i) was measured using fluo-3. [Ca2+]i increased with 100 micromol/L H2O2 and further increased during washout, causing irreversible contracture in one-half of the cells. The increase in [Ca2+]i with 10 micromol/L H2O2 was modest with few cells showing irreversible contracture and attenuated by caffeine, and [Ca2+]i gradually decreased during washout and this decrease was accelerated by a calcium-free solution, while 1 micromol/L H2O2 did not have any effects on [Ca2+]i or cell viability. Ca2+ overload caused during exposure to 100 micromol/L H2O2 was attenuated by caffeine with improved cellular viability but not by chelerythrine, KB-R7943 or nifedipine. With 100 micromol/L H2O2 calcium-free solution attenuated the increase during exposure and washout while KB-R7943 or chelerythrine partly attenuated further increase during washout but not improved cell viability, but chelerythrine did not have additional effect on calcium-free treatment. Catalase abolished the effects of H2O2. We concluded that the increased [Ca2+]i during exposure to 100 micromol/L H2O2 was caused both by release of Ca2+ from the intracellular store sites including the sarcoplasmic reticulum and by influx through route(s) other than the voltage-dependent Ca2+ channels or Na+/Ca2+ exchanger, although the Na+/Ca2+ exchanger or protein kinase C-mediated mechanism was partly responsible for a further increase during washout.
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PMID:Mechanisms of Ca2+ overload induced by extracellular H2O2 in quiescent isolated rat cardiomyocytes. 1177 81

The importance of endothelial cell contraction in the regulation of vascular biology is being increasingly recognized. Our group has demonstrated that reactive oxygen species, particularly hydrogen peroxide, which are released in pathological conditions such as ischemia-reperfusion, are able to induce contraction in bovine aortic endothelial cells (BAEC). The cGMP-dependent relaxation of contractile cells depends on the ability of the cyclic nucleotide to interfere with intracellular calcium; however, this is not the only mechanism involved. The present experiments were designed to analyse the mechanism by which cGMP induces relaxation in BAEC. Sodium nitroprusside (SNP), an activator of soluble guanylate cyclase, as well as atrial natriuretic (ANP) and C-type natriuretic (CNP) peptides, activators of particulate guanylate cyclase, blunted the hydrogen peroxide-induced contraction of BAEC and myosin light chain phosphorylation. The inhibitory effect was more marked with SNP and CNP than with ANP, and the action of SNP and CNP were partially reversed by blocking soluble and particulate guanylate cyclases, respectively. Dibutyryl cGMP (db-cGMP), a cGMP analogue, mimicked the effect of SNP and CNP. Cyclic GMP-dependent protein kinase (cGK) protein levels and activity were measured. Hydrogen peroxide induced a significant reduction in cGK activity without any change in protein level. This effect was completely reversed by preincubation with db-cGMP. Calyculin A, a myosin light chain phosphatase inhibitor, prevented the cGMP-induced relaxation of BAEC. SNP, CNP and db-cGMP also partially prevented the hydrogen peroxide-induced increase in intracellular calcium levels. Catalase completely blocked this effect. In summary, the present results support a role for those metabolites which activate guanylate cyclases in the relaxation of BAEC, and suggest that the cGMP-induced BAEC relaxation could be due, at least partially, to the stimulation of cGK and/or myosin light chain phosphatase activity, and to calcium blockade.
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PMID:Mechanisms involved in the relaxation of bovine aortic endothelial cells. 1183 19

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