Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

This study demonstrates that the promastigote form of virulent Leishmania donovani and Leishmania tropica are both deficient in endogenous enzymatic scavengers of H(2)0(2) (catalase, glutathione peroxidase) and susceptible to low fluxes of H(2)O(2) in a cell-free model. In addition, the killing of promastigotes by H(2)0(2) is markedly enhanced in the presence of a peroxidase and halide. Promastigotes also readily trigger the macrophage oxidative burst including the generation of H(2)0(2), and most intracellular promastigotes are killed within 18 h by unstimulated normal resident cells. Catalase, but not scavengers or quenchers of O(2)(-), OHx, or (1)O(2), protected promastigotes in a cell-free xanthine oxidase microbicidal system, and catalase also partially inhibited the leishmanicidal activity of resident macrophages. Thus, amongst various oxygen intermediates, H(2)0(2) alone appeared to be both necessary and sufficient for promastigote killing. Depriving macrophages of exogenous glucose, which inhibits the generation of oxygen intermediates, achieved effects similar to catalase treatment. These observations directly contrast with the intracellular parasite, T. gondii which is richly endowed with catalase and glutathione peroxidase, highly resistant to H(2)0(2), and requires products of O(2)(-)-H(2)0(2) interaction for effective oxidative killing. Toxoplasmas also fail to trigger the respiratory burst of normal macrophages, and readily multiply within these cells (1-5). Macrophages first activated by in vivo or in vitro immunologic stimuli, however, display an enhanced capacity to generate oxygen intermediates beyond O(2)(-) and H(2)0(2), and are able to kill toxoplasmas or inhibit their intracellular replication (1, 2). These studies illustrate the wide spectrum of susceptibility to oxidative products which appears to exist for virulent intracellular protozoans, and indicate that such differences may be reflected in contrasting fates of parasites within cell-free oxidative environments and the cytoplasm of normal resident macrophages. In addition, these observations also demonstrate that nonactivated phagocytes may display effective microbicidal activity against certain intracellular pathogens utilizing an oxygen-dependent mechanism.
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PMID:Susceptibility of Leishmania to oxygen intermediates and killing by normal macrophages. 725 18

Malignant hyperthermia (MH) is a severe familial disease in both the pig and the human, with 70% fatality when fully expressed in humans. MH produces rapid elevation of temperature in response to stresses, of which there are two general kinds: Societal or emotional stress, and chemical stressors. The most commonly encountered stressor is halothane, a general anesthetic in wide use. Besides large temperature increases, there occur some twenty symptoms. Much work in other laboratories has been concentrated on elevated CPK i the plasma. However, all the symptoms are consistent with a single disorder, namely oxidative damage, especially in membranes. A deficiency in the glutathione peroxidase (GPX) system is a prime factor, likely the molecular basis allowing abnormal oxidative damage in the MH pig. Catalase activities are normal in MH pigs, but they have only 20-50% normal GPX activities. The deficiency does not cause oxidative damage. It allows failure or protective mechanisms against it. The nonstressed MH animal exhibits less acute symptoms, e.g. enhanced red cell Heinz bodies, but such animals generally mature. Under stress, their inadequate protective mechanisms dependent on GPX are overwhelmed, resulting in gross symptoms and crisis. It is important to concentrate on the GPX system(s) and their adjacent pentose shunt metabolism. We propose that a deficiency in any of these two systems is the molecular basis of the disease. Many tissues are involve in MH, but the red cell obviously provides a convenient means for assay and for screening. This paper mainly pertains to porcine MH. However, preliminary work with humans indicates that human MH has a similar molecular basis.
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PMID:Malignant hyperthermia (MH): porcine erythrocyte damage from oxidation and glutathione peroxidase deficiency. 729 Nov 94

The effects of dietary vitamin E and selenium on the oxidant defense system (glutathione peroxidase, catalase, glutathione reductase, reduced glutathione, and superoxide dismutase) were investigated in the chick. Two-week-old chicks were reared using a vitamin E-free, low-selenium, semipurified basal diet alone or supplemental with vitamin E (100 IU/kg) and/or selenium (.10 ppm). Whereas vitamin E sustained chick growth, survival, and protection from exudative diathesis (ED), it did not significantly affect the enzymatic components of the oxidant defense system. Dietary selenium promoted chick growth and protection against ED in the absence of vitamin E and sustained glutathione peroxidase activity in several tissues. The latter effect was associated with decreases in reduced glutathione concentrations observed in liver and blood. Catalase and superoxide dismutase activities were increased in liver and brain in selenium deficiency. Glutathione reductase activities in liver, kidney, lung, and brain were not affected by diet.
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PMID:Influences of dietary vitamin E and selenium on the oxidant defense system of the chick. 732 95

The extent of lipid peroxidation and the levels of its antioxidants such as superoxide dismutase (SOD), catalase and glutathione peroxidase (GSH-Px) were determined on lung tissues of the fetal, newborn and adult rat. Lipid peroxide formation was slight in the fetal period but augmented after birth reaching a peak at about 10 days after birth. The peroxide concentration then gradually declined with development and the adult level was found comparable to the fetal level. In the examination of the developmental defensive mechanism on the basis of assays for the aforementioned antioxidant enzymes in lung tissue, the SOD activity was low in fetuses reaching approximately 90% of the adult level at 10 days of life. Catalase was extremely low in concentration at all times, and age-related variations could not be definitely obtained. GSH-Px was also measured low in the fetal period and during 20 days after birth, but a subsequent gradual rise resulted in threefold greater activity in adults than in fetuses.
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PMID:Lipid peroxidation and antioxidants in the rat lung during development. 740 75

1. Mitochondrial H2O2 formation is not in equilibrium with defence mechanisms that counteract an accumulation of H2O2 in rat-heart cells. 2. A model for the accumulation kinetics is proposed which is consistent with the data presented. 3. Four different pathways of H2O2 metabolism are described in rat-heart mitochondria. The major site for metabolic branching of H2O2 via different routes was found to be the mitochondrial catalase. 4. Glutathione (GSH) peroxidase accounts for only 15% of intramitochondrial H2O2 metabolism, while catalase-mediated destruction is four times more rapid. 5. Catalase activity is limited by its structural compartmentation in the matrix, while GSH peroxidase activity was found to be dependent on the availability of free GSH. 6. Catalase was shown to protect rat-heart mitochondria from upsetting redox states of GSH and pyridine nucleotides following H2O2 decomposition by GSH peroxidase. 7. Computer simulations of experimental data suggest the existence of a third sink for mitochondrial H2O2, possibly due to mitochondrial formation of OH . radicals; another fraction of the H2O2 matrix pool may cross the mitochondrial membrane and accumulate in the cytosol.
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PMID:The metabolic fate of mitochondrial hydrogen peroxide. 743 85

The "antioxidant" enzymes superoxide dismutase, catalase and glutathione peroxidase were assayed in a biological model with low oxygen tension (red cells from cord blood of newborn infants). Catalase and glutathione peroxidase activities in red cells of newborns were significantly lower when compared with their mothers and with normal controls. In contrast, superoxide dismutase activity was unchanged. Thus, normal activities of superoxide dismutase seem to be necessary in order to protect red blood cells from superoxide radicals during foetal life, while even low activities of catalase and glutathione peroxidase are sufficient to protect red blood cells from hydrogen peroxide. No correlation was found between the "antioxidant" enzyme activities present in cord blood erythrocytes and the bilirubin concentrations during the first days of life.
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PMID:Superoxide dismutase, catalase and glutathione peroxidase activities in maternal and cord blood erythrocytes. 744 Nov 75

Lipid peroxidation as shown by malonic dialdehyde (MDA) levels and enzymic antioxidant defense systems were evaluated in red cells from patients with renal affections free of chronic renal failure (group 1), in conservative curable stage of chronic renal failure (group 2a), in terminal stage nondialysis patients (group 2b) and in healthy donors. MDA was higher in patients, in group 2b in particular. MDA levels correlated with concentrations of endogenic creatinine in the serum. Catalase and glutathione peroxidase were at control levels. SOD was not changed in group 1 but appeared reduced in other groups. Its activity was not related to serum creatinine. An inverse relationship existed between MDA content and SOD activity in red cells. It is believed that progression of chronic renal insufficiency leads to activation of lipid peroxidation and deterioration of antioxidant defense in red cells contributing to more active red cell destruction causing anemia in uremia.
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PMID:[The erythrocyte pro-oxidant and antioxidant systems of patients with chronic kidney failure]. 748 45

Because alveolar macrophages generate and release reactive oxygen metabolites but also contain antioxidative enzymes, they have the potential of either damaging or protecting tissues. We investigated the relative role of the hydrogen peroxide (H2O2)-scavenging antioxidative enzymes in H2O2 disposal and cell protection using freshly isolated (5 h ex vivo) and overnight (24 h ex vivo) cultured human alveolar macrophages. Cell protection was assessed on the basis of maintenance of cellular high-energy phosphates, leakage of intact nucleotides into the extracellular medium, and appearance of the nucleotide catabolic products xanthine, hypoxanthine, and uric acid. To investigate the relative importance of catalase and the glutathione redox cycle, the experiments were conducted in cells pretreated with amino-triazole (ATZ) to inactivate catalase or with 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) to inactivate glutathione reductase. Catalase, glutathione peroxidase, and glutathione reductase activities did not change significantly during overnight culture of the cells. Both freshly isolated and cultured cells consumed exogenous H2O2 mainly by the catalase-dependent pathway. When the cells were exposed to H2O2 (100 microM), catalase and the glutathione redox cycle equally participated in maintaining cellular high-energy nucleotides. However, when cultured cells were exposed to formylated peptide (FMLP) (10(-7) M), the glutathione redox cycle was responsible for the maintenance of high-energy nucleotides. Furthermore, in both exposures, the glutathione redox cycle was more important in maintaining cell membrane integrity and preventing nucleotide leakage from the cells. Immunocytochemical labeling showed that catalase was primarily localized in the peroxisomal compartment of these cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Catalase and glutathione reductase protection of human alveolar macrophages during oxidant exposure in vitro. 754 73

Acetaminophen was given to mice at a single dose of 375 mg/kg. In situ liver chemiluminescence, H2O2 steady-state concentration, and the liver concentrations of total and oxidized glutathione were measured 15, 30, and 60 min after acetaminophen administration. Increases of 145% and 72% in spontaneous chemiluminescence and H2O2 concentration were observed 15 min after the injection, respectively. Total glutathione was decreased by acetaminophen administration at all the times studied. The maximal decrease, 83%, was found 60 min postinjection. The ratio GSH/GSSG was found significantly decreased at all the times studied. Microsomal superoxide production was increased by 2.4-fold by addition of acetaminophen. The activities of the antioxidant enzymes superoxide dismutase, catalase, and glutathione peroxidase were determined. Catalase was slightly inhibited (30%) 15 min after acetaminophen administration. No significant changes were found in superoxide dismutase activity. Se and non-Se glutathione peroxidase activities were decreased by 40% and 53% respectively, 15 min after acetaminophen administration. The decrease in catalase and glutathione peroxidase would result in an increased steady state level of H2O2 and hydroperoxides, contributing to cell injury. Damaged hepatocytes were observed, and severe lesions and necrosis appeared 60 min after acetaminophen administration. Our results indicate the occurrence of oxidative stress as a possible mechanism for acetaminophen-induced hepatotoxicity.
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PMID:Oxidative stress by acute acetaminophen administration in mouse liver. 755 44

A comparison of the erythrocyte (RBC) antioxidant metabolites and enzymes in nine marsupial and two monotreme species was carried out. Reduced glutathione (GSH) concentrations were comparable with those reported for other marsupial and eutherian species. An important finding was that the erythrocytes of the southern hairy nosed wombat regenerated GSH faster than the erythrocytes from its close relative, the common wombat. The activities of glutathione-S-transferase, NADH-methaemoglobin reductase, superoxide dismutase, and glutathione peroxidase (GSH-Px), showed similar levels and extents of variation as those observed in other marsupial and eutherian species. Catalase activities in the marsupials were lower than those measured in the two monotreme species and much lower than those reported in eutherian species. A negative correlation, significant at P < 0.05, was observed between GSH-Px and catalase activities in the RBC of the marsupials. Since both these enzymes "detoxify" H2O2, there appears to be a reciprocal relationship between the activities of these enzymes in marsupial RBC.
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PMID:Comparative study of the antioxidant defence systems in the erythrocytes of Australian marsupials and monotremes. 759 75


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