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)

Reactive oxygen metabolites have been reported to be responsible for the pathogenesis of ischemia-induced gastric mucosal lesions. We have investigated the possible protective effect of specific enzymes and oxygen radical scavenging agents on oxygen metabolite-induced injury to cultured gastric mucosal cells. Oxygen-reactive metabolites were generated by 1 mM xanthine and 10-100 mU/ml xanthine oxidase. Cytotoxicity was quantified by measuring 51Cr release from prelabeled cells. Xanthine oxidase caused a dose-dependent increase of 51Cr release in the presence of 1 mM xanthine. Catalase (an enzyme that reduces hydrogen peroxide) diminished xanthine-xanthine oxidase-induced 51Cr release in a dose-dependent manner. Superoxide dismutase (a scavenger of superoxide radical) failed to affect the amounts of 51Cr release induced by xanthine plus xanthine oxidase. Pretreatment with diethyl maleate, which depletes intracellular glutathione, potentiated oxygen radical-mediated 51Cr release dose dependently. The presence of ferrous ion or ethylenediaminetetraacetic acid-chelated iron, which promote the formation of hydroxyl radical, did not alter xanthine-xanthine oxidase-induced cellular injury. Furthermore, agents that inactivate hydroxyl radical also failed to protect the cells from oxygen metabolite-induced injury. We conclude that in vitro oxygen metabolites, extracellularly generated, have a direct toxic effect on gastric mucosal cells; hydrogen peroxide is a major mediator of oxygen metabolite-induced gastric cell injury; the oxygen-derived superoxide and hydroxyl radicals are less toxic to gastric mucosal cells than hydrogen peroxide; and intracellular glutathione, which detoxifies hydrogen peroxide, may be involved in antioxidant defense mechanisms.
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PMID:Oxygen metabolite-induced cytotoxicity to cultured rat gastric mucosal cells. 311 Dec 74

In the presence of intact Ehrlich ascite carcinoma cells and the supernatant obtained by preincubation and subsequent precipitation of cells, egg phosphatidylcholine is oxidized in liposomes to form malonic dialdehyde (MDA). Catalase and carbon dioxide markedly reduce, whereas sodium azide increases MDA accumulation during liposome incubation with the cells. EDTA, diethylthiocarbonate and alpha-tocopherol effectively inhibit, whereas ascorbate and cysteine strongly activate MDA synthesis in both cases. Superoxide dismutase has no appreciable effect on these processes. It is concluded that metal-containing catalysts and the H2O2 released by intact cells into the incubation medium induce lipid peroxidation in liposomes.
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PMID:[Mechanism of formation of malonic dialdehyde during liposome interaction with cells]. 320 6

The activity of aortic glutathione peroxidase, a selenium-dependent enzyme, significantly decreased in rats 4 and 8 months after the injection of streptozotocin (STZ). Catalase activity was shown to occur at low levels in rat aorta and was not influenced by the diabetic state. Superoxide dismutase activity was less than detectable. The activity of selenium-dependent glutathione peroxidase in kidney, but not in lung and liver, increased in diabetic rats. Catalase and superoxide dismutase activities in the kidney were not altered. The plasma lipid peroxide value increased in diabetic rats. The selenium content in plasma of diabetic rats increased markedly while the increase in plasma glutathione peroxidase activities was insignificant. The observed abnormalities in plasma of STZ rats were improved by insulin treatment. The defects in glutathione peroxidase in the diabetic rat aorta were restored by insulin treatment. These results may suggest that the capacity of the antioxidative defense system in the aorta decreased in the diabetic state, and this may help clarify the mechanism of the pathogenesis of endothelial dysfunction associated with diabetes.
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PMID:Alterations of the plasma selenium concentrations and the activities of tissue peroxide metabolism enzymes in streptozotocin-induced diabetic rats. 321 28

In this study we tried to define the possible benefits of the oxygen-derived free radical scavengers after 3 hours of cold myocardial global ischemia, as required in the setting of cardiac transplantation. Twenty-one pig hearts were harvested after preservation with a cold cardioplegic solution (St. Thomas' Hospital solution) and topical cooling. Normothermic reperfusion with blood was achieved with a special heart-lung machine preparation, which allows the heart to beat in a working or nonworking mode. Twelve hearts served as control hearts (group I), and nine (group II) were subjected to superoxide dismutase and catalase. Superoxide dismutase was applied at a dose of 40 U/ml of cardioplegic solution and 1500 U/kg body weight with the start of reperfusion. Catalase was added to the cardioplegic solution in a dose of 100 U/kg and 3500 U/kg body weight with the start of reperfusion. After 15 minutes of retrograde reperfusion, both left ventricular developed pressure and its first derivative were significantly higher in group II (137 +/- 7.6 mm Hg, 2467 +/- 162 mm Hg/sec) than in group I (105 +/- 6 mm Hg, 1676 +/- 231 mm Hg/sec, p less than 0.05 for each). In addition, a considerably higher coronary blood flow was observed in group II throughout the 180-minute period of reperfusion (p = 0.047). We therefore conclude that the combined administration of superoxide dismutase and catalase during the initial period of cardioplegic arrest and during early reperfusion of donor hearts submitted to 3 hours of cold ischemia has a beneficial effect on myocardial performance.
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PMID:Oxygen-derived free radical scavengers for amelioration of reperfusion damage in heart transplantation. 327 68

N-(2-Mercaptoethyl)-1,3-diaminopropane (WR-1065) is the free thiol form of the radio- and chemoprotector S-2-(3-aminopropylamino)ethylphosphorothioic acid (WR-2721). Interest currently exists in the clinical use of WR-2721 and WR-1065 as radio- and chemoprotectors of normal tissues. However, measurement of plasma levels of WR-1065 has proven difficult, due to rapid drug oxidation. Therefore, we studied factors influencing the oxidation of WR-1065, in Hepes-buffered saline as well as in tissue culture media containing 10% fetal bovine serum. The rate of oxygen consumption by WR-1065, as determined using the Clark oxygen electrode system, was faster in medium plus serum than in Hepes-buffered saline. That this effect is largely due to the presence of trace metal ions in tissue culture media and serum was indicated by the observation that addition of Cu2+ or Fe3+ to buffer stimulated oxygen consumption. Addition of KCN inhibited the reaction of WR-1065 with oxygen, and this effect was dependent on KCN concentration. That KCN blocked WR-1065 oxidation to the disulfide was verified using Ellman's reagent to quantitate the free thiol form. The rate of oxygen consumption was shown to be affected by temperature as well as concentration of WR-1065. Catalase reduced the rate of oxygen consumption of WR-1065, indicating that peroxide is formed in this system. Superoxide dismutase had a stimulatory effect. WR-1065 was found to stimulate the hexose monophosphate shunt in A549 cells. Since this stimulation was prevented by the presence of catalase, it appeared to be due to the response of the cells to peroxide, formed as a result of WR-1065 autooxidation.
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PMID:Factors influencing the oxidation of the radioprotector WR-1065. 334 Jul 31

There is increasing evidence that islet beta cells may be susceptible to redox insult, and that this susceptibility may contribute to the pathogenesis of experimental models of diabetes mellitus. We investigated the effect of vitamin E deficiency, selenium deficiency, and combined deficiency on islet function and free radical scavenging systems. The tissue levels of glutathione peroxidase, catalase, and immunoreactive superoxide dismutases were measured in four groups of rats (i.e., controls and those with vitamin E, selenium, and combined deficiency). Glucose tolerance tests were performed for each animal before sacrifice. Superoxide dismutase concentrations in liver, heart, and skeletal muscle were within 20% of the control levels in all groups. However, the manganosuperoxide dismutase concentrations in islets were significantly lower than control levels in response to vitamin E, selenium, and combined deficiency. Combined deficiency appeared to have an additive effect. In contrast, cuprozinc superoxide dismutase concentration in islets was higher in the deficient groups than in controls. Insulin secretory reserve was decreased in each of the three deficient groups. This decrease was reflected as glucose intolerance only in the group with combined deficiency. Glutathione peroxidase activity was markedly decreased in selenium-deficient animals in all tissues studied. Catalase activity did not change significantly among groups in any tissue studied. Islets had the lowest glutathione peroxidase and cuprozinc and total superoxide dismutase levels among tissues studied.
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PMID:Effect of vitamin E deficiency and selenium deficiency on insulin secretory reserve and free radical scavenging systems in islets: decrease of islet manganosuperoxide dismutase. 351 3

The five mycobacteria Mycobacterium lepraemurium, M. leprae, M. bovis BCG, M. smegmatis, and M. intracellulare were studied. Catalase and peroxidase activities were demonstrated in polyacrylamide and crossed immunoelectrophoresis gels for M. lepraemurium, M. intracellulare, and BCG, but not for M. leprae. Peroxidase and catalase activities were associated with the same precipitate line in crossed immunoelectrophoresis for M. lepraemurium, M. intracellulare, and BCG, showing that in these mycobacteria the two enzyme activities resided in the same molecule. M. smegmatis peroxidase and catalase activities were closely associated on polyacrylamide gel electrophoresis, but on the crossed immunoelectrophoresis catalase and peroxidase activities were associated with two different precipitate lines. Catalases without peroxidase activity were demonstrated in crossed immunoelectrophoresis and polyacrylamide gel electrophoresis in M. intracellulare and M. smegmatis. The catalase without peroxidase activity in M. intracellulare was heat resistant and therefore classified as an m-catalase. In M. smegmatis the catalase without peroxidase activity was only partially heat resistant. All of the catalases with peroxidase activity were heat-sensitive t-catalases. Superoxide dismutase activity in the crossed immunoelectrophoresis was associated with the M. leprae antigen no. 4 and with cross-reacting antigens in the other mycobacteria studied. Several superoxide dismutases were demonstrated in Mycobacterium duvalii. They were antigenically different from the other superoxide dismutases in this study, as shown by lack of reactivity with a monospecific antibody to M. lepraemurium superoxide dismutase. Molecular weights were estimated for all the enzymes in this study by sodium dodecyl sulfate-polyacrylamide gels.
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PMID:Catalases, peroxidases, and superoxide dismutases in Mycobacterium leprae and other mycobacteria studied by crossed immunoelectrophoresis and polyacrylamide gel electrophoresis. 353 45

Effects of exogenous antioxidant administration (0.5% and 2% ascorbate, beta-carotene and alpha-tocopherol in sucrose) on life-span, metabolic rate, activities of superoxide dismutase and catalase, levels of glutathione, inorganic peroxides and chloroform-soluble fluorescent material (lipofuscin) were examined in adult male houseflies. Administration of antioxidants at a level of 0.5% did not affect life-span, whereas, 2% ascorbate and alpha-tocopherol decreased average life-span. Metabolic rate of flies was unaffected, except by 2% ascorbate, which caused a decrease. Superoxide dismutase activity was depressed by 2% ascorbate at all ages, and by beta-carotene and alpha-tocopherol in older flies. Catalase activity was unaffected except by alpha-tocopherol at younger ages. Glutathione concentration was decreased by ascorbate and beta-carotene at both concentrations administered. Inorganic peroxides (H2O2) were increased by 2% beta-carotene and alpha-tocopherol. Only high concentrations of ascorbate and beta-carotene decreased the level of soluble fluorescent material. Results suggest that administration of exogenous antioxidants causes a compensatory depression of endogenous defenses.
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PMID:Effects of exogenous antioxidants on the levels of endogenous antioxidants, lipid-soluble fluorescent material and life span in the housefly, Musca domestica. 406 68

Some of the factors influencing the oxygen uptake and peroxide formation for cysteamine (MEA) and other thiols in serum-supplemented modified McCoy's 5A, a well-known medium used to cultivate a variety of cells in vitro, have been studied. The oxidation of MEA and cysteine in modified McCoy's 5A has been compared with that in Ham's F-12, MEM, and phosphate-buffered saline. All of the growth media were supplemented with 10% calf serum and 5% fetal calf serum. The rate of oxygen uptake for all of the studied thiols was greatest in McCoy's 5A. The data indicate that this medium may contain more copper than the other preparations. MEA and cysteine were found to be more effective at 0.4 mM at producing peroxide than dithiothreitol (DTT). N-acetylcysteine was the least reactive. The ability to produce peroxide is dependent upon the temperature, the concentration of thiol, the presence of copper ions, and pH of the medium. MEA and other thiol oxidation is inhibited by the copper chelator diethyldithiocarbamate. Catalase also reduces the oxygen uptake for all thiols. This inhibition involves the recycling of peroxide to oxygen. Superoxide dismutase (SOD) was found to stimulate the oxygen uptake in the case of MEA and cysteine, but had little or no effect with DTT and glutathione. The combined presence of SOD and catalase resulted in less inhibition of oxygen uptake than that obtained by catalase alone. Alkaline pH was found to enhance the oxidation of cysteine and MEA. An important observation was the inhibition of MEA oxidation at 0 degrees C and the stimulation at 42 degrees C. The results indicate that many problems may arise when thiols are added to various media. A major consideration is concerned with the production of peroxide, superoxide, and reduced trace metal intermediates. The presence of these intermediates may result in the production of hydroxyl radical intermediates as well as the eventual oxygen depletion from the medium. Oxygen depletion may alter the results of radiation sterilization and carcinogen activation. Radical production will cause cell damage that is temperature dependent. Therefore, careful consideration must be given to changes in oxygen tension when thiols are added to cells growing in complicated growth medium to protect against either chemical or radiation damage.
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PMID:Factors influencing the oxidation of cysteamine and other thiols: implications for hyperthermic sensitization and radiation protection. 609 88

Current evidence suggests that bleomycin toxicity may be attributable to its DNA degradative activity possibly via generation of free radicals and O2 metabolites as mediators. Since lipopolysaccharide (LPS) has been known to provide protection against O2 toxicity, which is correlated with increased activity of O2 metabolite-detoxifying enzymes, the effect of this agent on bleomycin-induced pulmonary fibrosis was examined. Endotracheal bleomycin administration caused increased lung collagen synthesis. A single intraperitoneal injection of LPS (500 micrograms/kg) at day zero significantly decreased these increases. Total bleomycin-induced lung collagen increase was also significantly reduced. LPS alone had no significant effect on total lung catalase activity. Glutathiione peroxidase activity, however, was significantly decreased by 15.8% compared to untreated animals at 2 days after LPS treatment and remained unchanged at other time points. In addition, superoxide dismutase activity was significantly elevated by 30% above untreated animals only at 14 days after LPS administration and remained unchanged at other time points. Endotracheal bleomycin administration alone caused significant reductions in catalase activity at 2 days and 2 weeks after treatment, whereas glutathione peroxidase activity increased above control untreated animals at 2 and 4 weeks, respectively. Superoxide dismutase activity was unaffected by bleomycin treatment. Pretreatment with LPS before bleomycin prevented these reductions or caused increases in the activities of these enzymes at 2 days. Glutathione peroxidase was increased and was significantly greater than those animals treated with bleomycin alone. Catalase also was higher in the LPS plus bleomycin group (by 22.2%, p less than 0.05) than the bleomycin group alone. Compared to the effects on lung collagen synthesis and content, LPS treatment resulted in much less dramatic changes in total lung antioxidant enzyme activities. This discrepancy between the intensity of LPS effects on lung O2 metabolite-detoxifying enzymes and that on pulmonary fibrosis implies that the LPS-ameliorating effect on pulmonary fibrosis could not be totally explained by increased ability to detoxify O2 metabolites. Rather, the data would favor the possibility that LPS inhibits bleomycin-induced pulmonary fibrosis either by its known immunosuppressive effects or some other unknown mechanism. The former would be in agreement with previous data which suggest that an intact immune response is necessary for complete expression of the fibrogenic response to bleomycin.
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PMID:Inhibition of bleomycin-induced pulmonary fibrosis by lipopolysaccharide. 620 76

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