EC:1.11.1.6 - FACTA Search

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Query: EC:1.11.1.6 (catalase)
55,569 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although in vitro studies have shown that oxygen free radicals depress the sarcolemmal Ca(2+)-pump activity and thereby may cause the occurrence of intracellular Ca2+ overload for the genesis of contractile failure, the exact relationship between changes in sarcolemmal Ca(2+)-pump activity and cardiac function due to these radicals is not clear. In this study we examined the effects of oxygen radicals on sarcolemmal Ca2+ uptake and Ca(2+)-stimulated ATPase activities as well as contractile force development by employing isolated rat heart preparations. When hearts were perfused with medium containing xanthine plus xanthine oxidase, the sarcolemmal Ca(2+)-stimulated ATPase activity and ATP-dependent Ca2+ accumulation were depressed within 1 min whereas the developed contractile force, rate of contraction and rate of relaxation were increased at 1 min and decreased over 3-20 min of perfusion. The resting tension started increasing at 2 min of perfusion with xanthine plus xanthine oxidase. Catalase showed protective effects against these alterations in heart function and sarcolemmal Ca(2+)-pump activities upon perfusion with xanthine plus xanthine oxidase whereas superoxide dismutase did not exert such effects. The combination of catalase and superoxide dismutase did not produce greater effects in comparison to catalase alone. These results are consistent with the view that the depression of heart sarcolemmal Ca2+ pump activities may result in myocardial dysfunction due to the formation of hydrogen peroxide and/or hydroxyl radicals upon perfusing the hearts with xanthine plus xanthine oxidase.
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PMID:Relationship between mechanical dysfunction and depression of sarcolemmal Ca(2+)-pump activity in hearts perfused with oxygen free radicals. 890 72

Cyclopiazonic acid (selective blocker of the internal Ca+2 pump) evoked tonic contraction in canine bronchial smooth muscle (BSM) and tracheal smooth muscle. This contraction was biphasic, including an initial component that was relatively insensitive to blockade of Ca+2 influx (e.g., removal of external Ca+2; nifedipine; hyperpolarization using lemakalim) followed by a component that was sensitive to all such interventions. In BSM, but not in tracheal smooth muscle, electrical field stimulation (EFS) evoked relaxations that were not affected by interventions designed to prevent release of autacoids from nerve endings or the epithelium, Na+/Ca+2 exchange or Ca(+2)-ATPase activities (internal or plasmalemmal). EFS evoked little or no relaxant response in carbachol-precontracted BSM in the presence of propranolol. After Ca+2 was replaced with Sr+2, however, carbachol evoked comparable contraction after which EFS evoked non-neurogenic relaxations. We found that the EFS-evoked relaxations were abolished by TEA or high KCI, were reduced significantly by charydotoxin or quinine, were reduced partially by ouabain and were unaffected by removal of external K+, by apamin or by glybenclamide. In addition, the relaxations were reduced significantly by the free radical scavenger N-acetylcysteine, were mimicked by H2O2 but were unaffected by superoxide dismutase or catalase. These observations suggest that the cyclopiazonic acid-evoked contraction involves pharmacomechanical coupling mechanisms (i.e., Ca(+2)-release) initially, followed by electromechanical coupling (i.e., voltage-dependent Ca+2 influx). After depletion of the internal Ca+2 store (e.g., by cyclopiazonic acid or Sr+2), EFS is able to evoke in BSM (but not in tracheal smooth muscle) relaxations that seem to involve opening of K+ channels (including those of the large-conductance Ca(+2)-dependent type) by EFS-liberated free radicals.
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PMID:Non-neurogenic electrically evoked relaxation in canine airway muscle involves action of free radicals on K+ channels. 893 Jan 88

This study was undertaken to examine if modulations of intracellular and extracellular Ca2+ affect the lethal cell injury and impairment of membrane transport function induced by oxidants in rabbit renal cortical slices. The oxidant t-butylhydroperoxide (t-BHP) and H2O2 increased lactate dehydrogenase (LDH) release and inhibited PAH uptake in a dose-dependent manner, but the potency of H2O2 was 100 times lower than that of t-BHP. Catalase prevented the effect of H2O2 but not that of t-BHP, suggesting that lower potency of H2O2 is attributed to the endogenous catalase activity. t-BHP induced lipid peroxidation and inhibited microsomal (Na+)-(K+)-ATPase activity. Omission of Ca2+ from the medium or addition of Ca2+ channel blockers (verapamil, diltiazem, and nifedipine) prevented the oxidant-induced LDH release. Similar effect was observed by addition of La3+. Buffering intracellular Ca2+ with BAPTA/AM decreased the oxidant-induced LDH release. However, the oxidant-induced impairment in PAH uptake was not altered under the same conditions. Also, the inhibition of microsomal (Na+)-(K+)-ATPase activity by t-BHP was not affected by verapamil, La3+, and BAPTA/AM. Dithiothreitol and glutathione prevented the oxidant-induced LDH release and reduction of PAH uptake and impeded the oxidant-induced inhibition of (Na+)-(K+)-ATPase activity and lipid peroxidation. Effects of t-BHP on TEA uptake were similar to those on PAH uptake. Modulations of intracellular or extracellular Ca2+ had little effect on the oxidant-induced lipid peroxidation. Glycine did not exert protective effect against the oxidant-induced cell injury. These results suggest strongly that Ca2+ plays an important role in the oxidant-induced LDH release but not in the oxidant-induced alterations of membrane transport function in rabbit renal cortical slices. The role of Ca2+ in oxidant-induced LDH release is not apparently associated with peroxidation of membrane lipid.
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PMID:Differential effect of Ca2+ on oxidant-induced lethal cell injury and alterations of membrane functional integrity in renal cortical slices. 897 86

Alcoholism is a multifactorial disease influenced by genetic-environmental interaction. Genetic variation of the receptor may be associated with alcohol dependence due to its modified function in behavioral and physiological responses. In the present study, polymorphic alleles of cholecystokinin B receptor (CCKBR), serotonin 1A receptor (HT1AR) genes, and mitochondrial DNA were analyzed. DNAs were isolated from the blood samples of 112 healthy controls and 106 alcoholics. Genetic variation was detected by SSCP analysis, followed by direct sequencing of polymerase chain reaction product as well as restriction fragment-length polymorphism. Three different mutations were found in the exon 3 sequence of CCKBR: His (CAT) at aa207-->His (CAC) (5.4%), Arg (CGC) at aa215-->His (CAC) (4.5%), and Val (GTG) at aa138-->Met (ATG) (0.9%) in controls. Genotypic distribution of alcoholics was not significantly different with that in controls. A proline (CCG) to leucine (CTG) substitution at amino acid 16 of HT1AR was found in alcoholics (4.5%) and in controls (4.7%). This mutation site of HT1AR was different in comparison with the variants reported by Nakhai et al. (Biochem Biophys. Res. Commun. 210:530-536, 1995). Analysis of the mitochondrial DNA showed that a 491 bp deletion in the sequence of ATPase exists as heteroplasmy in 58% of alcoholics, but not in controls. Heteroplasmic deletion of mitochondrial DNA may be a useful marker for alcohol abuse. Further study is undergoing to elucidate the cause and significance of this deletion in alcoholics.
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PMID:Investigation of genetic risk factors associated with alcoholism. 898 25

The early and sustained deinduction of alpha 2 Na,K-ATPase gene expression in both cardiac left ventricle and aorta in various pressure-overload rat models and in hypertrophied human heart suggests a common transcriptional pressure response mechanism to pressure overload in both rats and humans. To test this hypothesis, we developed transgenic rat lines expressing the chloramphenicol acetyltransferase reporter gene regulated by the human alpha 2 Na,K-ATPase (-798 to +67) regulatory region, H alpha 2-CAT. Analysis of two homozygous transgenic rat lines revealed (1) parallel tissue-specific regulation of the H alpha 2-CAT transgene and rat alpha 2 Na,K-ATPase gene and (2) parallel load-induced deinduction of both cardiac and vascular (aortic) H alpha 2-CAT transgene and rat alpha 2 Na,K-ATPase gene expression in a 3-day model of induced pressure overload. Cardiac H alpha 2-CAT deinduction was detected at a systolic pressure greater than or equal to 150 mm Hg and correlated with the degree of systolic pressure elevation (r = .82, P < .0001). The data suggest a systolic pressure gradient-dependent coordinate pressure-overload transcriptional response mechanism in the heart and aorta, with one of its target genes being the alpha 2 Na,K-ATPase gene in both humans and rats.
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PMID:Pressure-overload deinduction of human alpha 2 Na,K-ATPase gene expression in transgenic rats. 904 Apr 46

Copper is an essential trace element and has profound influence on cardiac myopathy and heart metabolism. Dietary Cu restriction in rats results in cardiomyopathy, and affects the integrity of the basal lamina of cardiac myocytes and capillaries. Decreased levels of delta subunits of ATP synthetase and nuclear encoded subunits of cytochrome oxidase system have been observed. Alteration in expression of glutathione peroxidase and catalase in heart and liver in Cu deficiency (Cu-) has been noted involving both transcriptional and post transcriptional mechanisms. A short description of two genetically inherited disorders of Cu metabolism, i.e. Wilson's disease and Menkes' disease, and Indian childhood cirrhosis (environmental and/or genetic) have been included to illustrate that advances in the knowledge of Cu cellular transport gives a better understanding of the molecular basis of the pathophysiology of these diseases. Menkes' disease, a human model of defective Cu transport and Cu- has shown many pathological changes, similar to those of heart disease in Cu-. The recent cloning of four genes of putative Cu pumping ATPases (Cu-ATPases) from widely different sources, i.e. two from Enterococcus hirae and one each from Wilson's and Menkes disease patients (which are defective in Cu transport and metabolism), has opened a new chapter in the study of Cu cellular transport and metabolism. The encoded gene products, i.e. Cu-ATPases, show extensive homology and are members of a new class of ATP-driven Cu pumps involved in regulation of cellular Cu. Further, Cu transport by Cop B-ATPase (E. hirae) in membrane vesicles and in isolated rat liver plasma membrane has provided biochemical evidence of its role in ATP-driven Cu transport. In this short review I have critically examined the current evidence of the molecular basis of the pathophysiology of cardiomyopathy in Cu- and, have indicated the possible role of P-type Cu ATPase which may be one of the obligatory factors contributing to cardiomyopathy in experimental animals and probably humans. Experimental verification of this hypothesis will be the aim of future studies.
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PMID:Copper deficiency and heart disease: molecular basis, recent advances and current concepts. 945 22

Scrapie, one of the prion diseases, is a transmissible neurodegenerative disease of sheep and other animals. Clinical symptoms of prion diseases are characterized by a long latent period, followed by progressive ataxia, tremor, and death. To study the induction of neurodegeneration during scrapie infection, we have analyzed the activities of various antioxidant enzymes and mitochondrial enzymes in cerebral cortex, brain stem, and cerebellum of scrapie-infected hamsters. The activity of mitochondrial Mn-superoxide dismutase (SOD) was decreased, while the activities of cytosolic Cu/Zn-SOD and catalase were not altered in infected brains. The activities of glutathione peroxidase and glutathione reductase were increased in scrapie-infected hamsters. The decreased activity of Mn-SOD might result in increasing oxidative stress in the mitochondria of infected brain; this concept is supported by our findings of a high level of lipid peroxidation, and low levels of ATPase and cytochrome c oxidase activity in the infected cerebral mitochondria. In addition, structural abnormalities of mitochondria have been observed in the neurons of hippocampus and cerebral cortex of infected brain. These results suggest that mitochondrial dysfunction caused by oxidative stress gives rise to neurodegeneration in prion disease.
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PMID:Mitochondrial dysfunction induced by oxidative stress in the brains of hamsters infected with the 263 K scrapie agent. 975 61

There is some anecdotal evidence that oxygen-ozone therapy may be beneficial in some human diseases. However so far only a few biochemical and pharmacodynamic mechanisms have been elucidated. On the basis of preliminary data we postulated that controlled ozone administration would promote an oxidative preconditioning preventing the hepatocellular damage mediated by free radicals. Six groups of rats were classified as follows: (1) negative control, using intraperitoneal sunflower oil; (2) positive control using carbon tetrachloride (CCl4) as an oxidative challenge; (3) oxygen-ozone, pretreatment via rectal insufflation (15 sessions) and after it, CCl4; (4) oxygen, as group 3 but using oxygen only; (5) control oxygen-ozone, as group 3, but without CCl4; group (6) control oxygen, as group 5, but using oxygen only. We have evaluated critical biochemical parameters such as levels of transaminase, cholinesterase, superoxide dismutase, catalase, phospholipase A, calcium dependent ATPase, reduced glutathione, glucose 6 phosphate dehydrogenase and lipid peroxidation. Interestingly, in spite of CCl4 administration, group 3 did not differ from group 1, while groups 2 and 4 showed significant differences from groups 1 and 3 and displayed hepatic damage. To our knowledge these are the first experimental results showing that repeated administration of ozone in atoxic doses is able to induce an adaptation to oxidative stress thus enabling the animals to maintain hepatocellular integrity after CCl4 poisoning.
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PMID:Ozone oxidative preconditioning: a protection against cellular damage by free radicals. 979 40

In the absence of added Fe2+, the ATPase activity of isolated Schizosaccharomyces pombe plasma membranes (5-7 mumol P(i) per mg protein per min) is moderately inhibited by H2O2 in a concentration-dependent manner. Sizable inactivation occurs only at 50-80 mmol/L H2O2. The process, probably a direct oxidative action of H2O2 on the enzyme, is not induced by the indigenous membrane-bound iron (19.3 nmol/mg membrane protein), is not affected by the radical scavengers mannitol and Tris, and involves a decrease of both the K(m) of the enzyme for ATP and the V of ATP splitting. On exposing the membranes to the Fenton reagent (50 mumol/L Fe2+ + 20 mmol/L H2O2), which causes a fast production of HO. radicals, the ATPase is 50-60% inactivated and 90% of added Fe2+ is oxidized to Fe3+ within 1 min. The inactivation occurs only when Fe2+ is added before H2O2 and can thus bind to the membranes. The lack of effect of radical scavengers (mannitol, Tris) indicates that HO. radicals produced in the bulk phase play no role in inactivation. Blockage of the inactivation by the iron chelator deferrioxamine implies that the process requires the presence of Fe2+ ions bound to binding sites on the enzyme molecules. Added catalase, which competes with Fe2+ for H2O2, slows down the inactivation but in some cases increases its total extent, probably due to the formation of the superoxide radical that gives rise to delayed HO. production.
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PMID:Inactivation of the plasma membrane ATPase of Schizosaccharomyces pombe by hydrogen peroxide and by the Fenton reagent (Fe2+/H2O2): nonradical vs. radical-induced oxidation. 982 Dec 89

In the present study we evaluated the effects of NO synthase (NOS) induction on the regulation of cytochrome c oxidase (CO) and F0F1-ATPase subunit expression in astroglial and mixed cortical cell cultures. In mixed cortical cell cultures, 18 h of treatment with lipopolysaccharide (LPS, 0.1 microgram/mL) plus interferon-gamma (INF-gamma, 10 U/mL) caused an increase of mRNAs for CO-I, F0F1-ATPase 6 and also for iNOS at 20 DIV. The induction of both CO-I and F0F1-ATPase 6 was abolished by the NOS inhibitor N-monomethyl-L-arginine (NMMA) or by the enzymatic scavenger superoxide dismutase/catalase (SOD/CAT). In primary astroglial cell cultures, treatment for 18 h with increasing concentrations of LPS and INF gamma, produced an increase in the amount of mitochondrial encoded CO-I and -II subunits, with no significant modifications of nuclear encoded subunit IV. An increase was also observed at level of transcription for CO-I and -II, and F0F1-ATPase 6 mRNAs. These effects were abolished by addition of NMMA or SOD/CAT. mRNA induction of CO-I was higher in mixed cortical than in astroglial cell cultures while that of F0F1-ATPase 6 was similar in both cell types. These results suggest that the expression of mitochondrial encoded subunits (CO-I, CO-II and F0F1-ATPase 6) is up-regulated in response to oxygen and NO reactive species. The activity of cytochrome c oxidase decreased after LPS/INF gamma treatment in both astroglial and mixed cortical cultures. The activity of ATP synthase was unmodified, while ATP content drastically decreased after LPS/INF gamma treatment, in both astroglial and mixed cortical cultures. The enzymatic activities of catalase and Mn-SOD (mitochondrial) showed a significant increase after LPS/INF gamma treatment, which was abolished by NMMA.
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PMID:Effect of nitric oxide synthase induction on the expression of mitochondrial respiratory chain enzyme subunits in mixed cortical and astroglial cell cultures. 989 46

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