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)

The developmental expression of catalase, superoxide dismutase (both Mn-SOD and Cu/Zn-SOD) and glutathione peroxide activities were determined in human lung and liver from 10 wk gestation to 3 months following birth. Pulmonary superoxide dismutase and glutathione peroxidase activities did not change appreciably over this period. Catalase activity however, increased from 20.9 +/- 7.8 U/mg protein (n = 29) at 11-20 wk gestation to 73 +/- 27.5 U/mg protein (n = 30; P less than 0.001) following normal delivery (41-60 wk post-conceptual age). Lung catalase activity was temporally associated with the late gestational increase in the fractional content of lung DPPC (r = 0.79, P less than 0.01). In contrast with the lung, liver total superoxide dismutase activity increased from 2.5 +/- 0.6 U/mg protein (n = 27) between 11 and 20 wk gestation to 9.4 +/- 4.4 U/mg protein after term (n = 22; P less than 0.001). Since hepatic Mn-superoxide dismutase activity did not change over this period, the increase was attributed to elevated expression of Cu/Zn-superoxide dismutase. Liver glutathione peroxidase activities remained relatively constant during the same period, while hepatic catalase activity, although constant during gestation (60 +/- 15.6 microU/mg protein), increased significantly following birth (99.7 +/- 33.0 microU/mg protein; P less than 0.001). These results demonstrate that the developmental expression of antioxidant enzymes differs between tissues and that, unlike many commonly used laboratory species, only increased expression of catalase activity is associated with human lung development.
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PMID:Catalase, superoxide dismutase and glutathione peroxidase activities of lung and liver during human development. 152 75

The effects of ageing on the activity of copper-zinc superoxide dismutase (SOD), selenium-dependent and independent glutathione peroxidase (GSH-Px) and catalase in several areas of the brain in 3-, 12-, and 24-month-old rats were studied. In addition, the effects of a subacute intracerebroventricular treatment of NGF (1 microgram daily for 28 consecutive days) on SOD, GSH-Px, and catalase activity in the same areas of the brain were assessed. The effects of ageing on the activities of antioxidant enzymes varied considerably in the different brain areas studied. Copper-zinc SOD was alone in being unaffected by ageing. Intraventricular infusion of NGF significantly increased SOD activity in the prefrontal cortex, hypothalamus, caudate nucleus, and mesencephalon of 24-month-old rats. Selenium-dependent GSH-Px activity did not significantly change in 12-month-old rats but it increased in the lower brain stem of 24-month-old animals. In comparison to vehicle-treated rats, NGF significantly increased selenium-dependent GSH-Px activity in all brain areas studied in 12- and 24-month-old rats. Catalase activity decreased significantly in the majority of the brain areas studied in 12- and 24-month-old rats. NGF completely restored the fall in catalase activity in 12- and 24-month-old animals to levels similar to those occurring in young rats. In conclusion, the present experiments show, for the first time, that long-term intraventricular administration of NGF significantly increases in old animals the activity of key enzymes involved in the metabolic degradation of superoxide radicals and hydrogen peroxide.
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PMID:NGF restores decrease in catalase activity and increases superoxide dismutase and glutathione peroxidase activity in the brain of aged rats. 156 43

Quantification of intracellular and extracellular levels and production rates of reactive oxygen species is crucial to understanding their contribution to tissue pathophysiology. We measured basal rates of oxidant production and the activity of xanthine oxidase, proposed to be a key source of O2- and H2O2, in endothelial cells. Then we examined the influence of tumor necrosis factor-alpha and lipopolysaccharide on endothelial cell oxidant metabolism, in response to the proposal that these inflammatory mediators initiate vascular injury in part by stimulating endothelial xanthine oxidase-mediated production of O2- and H2O2. We determined a basal intracellular H2O2 concentration of 32.8 +/- 10.7 pM in cultured bovine aortic endothelial cells by kinetic analysis of aminotriazole-mediated inactivation of endogenous catalase. Catalase activity was 5.72 +/- 1.61 U/mg cell protein and glutathione peroxidase activity was much lower, 8.13 +/- 3.79 mU/mg protein. Only 0.48 +/- 0.18% of total glucose metabolism occurred via the pentose phosphate pathway. The rate of extracellular H2O2 release was 75 +/- 12 pmol.min-1.mg cell protein-1. Intracellular xanthine dehydrogenase/oxidase activity determined by pterin oxidation was 2.32 +/- 0.75 microU/mg with 47.1 +/- 11.7% in the oxidase form. Intracellular purine levels of 1.19 +/- 1.04 nmol hypoxanthine/mg protein, 0.13 +/- 0.17 nmol xanthine/mg protein, and undetectable uric acid were consistent with a low activity of xanthine dehydrogenase/oxidase. Exposure of endothelial cells to 1000 U/ml tumor necrosis factor (TNF) or 1 microgram/ml lipopolysaccharide (LPS) for 1-12 h did not alter basal endothelial cell oxidant production or xanthine dehydrogenase/oxidase activity. These results do not support a casual role for H2O2 in the direct endothelial toxicity of TNF and LPS.
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PMID:Responses of vascular endothelial oxidant metabolism to lipopolysaccharide and tumor necrosis factor-alpha. 156 24

The development of antioxidant enzymes in rat brain and reaggregation cultures of fetal brain cells was studied from embryonic day 15 to postnatal day 45. Both in vivo and in culture, the copper-zinc superoxide dismutase activity first increased and then decreased with age, whereas the manganese superoxide dismutase activity increased throughout the period. Catalase showed a maximum activity at day 5 after birth, thereafter decreasing to adult level around day 30, both in vivo and in culture. The glutathione peroxidase activity increased from the first week after birth and reached adult level at day 45. In culture, the activity of this enzyme was slightly lower. The good correlation between the development of the antioxidant enzymes in vivo and in culture suggests that reaggregation cultures might be a valuable system for studying defense mechanisms against free radicals in the brain.
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PMID:Development of antioxidant enzymes in rat brain and in reaggregation culture of fetal brain cells. 160 Jun 32

First passage human umbilical vein endothelial cells (HUVECs) were sensitive to killing by activated neutrophils and reagent hydrogen peroxide (H2O2). Catalase and deferoxamine prevented killing whereas soybean trypsin inhibitor and superoxide dismutase did not. In these regards, HUVECs are similar to previously characterized endothelial cells from bovine and rat. Although first passage HUVECs were killed by activated neutrophils, sensitivity fell off rapidly as the cells were maintained in culture. At passage 2 (four population doublings), and beyond, HUVECs were highly resistant. The cells also became resistant to killing by reagent H2O2. The acquisition of resistance to killing was not accompanied by a failure to up-regulate neutrophil adhesion molecules or to support neutrophil adhesion. Levels of intracellular anti-oxidants (total thiols, though not glutathione, glutathione peroxidase or catalase activity) increased as a function of passage in culture. However, levels of glutathione and total thiols in late passage (resistant) HUVECs were similar to levels in late passage rat pulmonary artery endothelial cells, that were sensitive to killing by activated neutrophils. Cell-associated iron in HUVECs fell as a function of time in culture. By passage 2, the amount of total iron measurable with the Ferrozine reagent was only about 30% of the amount recovered from first passage HUVECs. The loss of iron from the cells may underlie much of the concomitant resistance to killing because when the cells were pretreated with iron under conditions in which it could be taken up, sensitivity to killing by activated neutrophils and by H2O2 was restored.
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PMID:Human umbilical vein endothelial cell killing by activated neutrophils. Loss of sensitivity to injury is accompanied by decreased iron content during in vitro culture and is restored with exogenous iron. 160 40

The role of different antioxidant pathways in cultured rat pleural mesothelial cells was studied by exposing the cells to various hydrogen peroxide (H2O2) concentrations and by measuring H2O2 cell cytotoxicity and the capacity of the cells to scavenge H2O2. The antioxidant enzymes, glutathione peroxidase, glutathione reductase, glucose-6-phosphate dehydrogenase, and catalase were analyzed biochemically. Catalase and CuZn superoxide dismutase were localized by immunocytochemistry. To enable investigation of the glutathione redox cycle and catalase pathways, glutathione reductase was inactivated with 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) and catalase was inactivated with aminotriazole. When the cells were exposed to a low, sublethal (0.030 mM) H2O2 concentration, glutathione reductase but not catalase inactivation resulted in a decreased capacity to remove H2O2 from the extracellular medium. When the cells were exposed to a high (0.25 mM) H2O2 concentration, H2O2-scavenging capacity decreased remarkably when catalase was inactivated. When the cells were exposed to 0.1 to 0.5 mM H2O2, cell cytotoxicity (lactate dehydrogenase release) increased significantly if glutathione reductase was inactivated; catalase inactivation resulted in a significant cytotoxicity only at high (greater than or equal to 0.25 mM) H2O2 concentrations. Immunocytochemical studies showed that the cells, both in situ and in vitro, contained low amounts of catalase. This suggests that the results of the catalase-inhibition studies are probably not due to a change in the characteristics of the cells in culture. 3-Aminobenzamide is a compound that is known to prevent NAD depletion through inhibition of poly(ADP-ribose) polymerase during oxidant stress. When intact cells were treated with different antioxidants and exposed to 0.5 mM H2O2, both catalase and 3-aminobenzamide protected the cells completely.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antioxidant defense mechanisms in cultured pleural mesothelial cells. 162 38

The five major antioxidants enzymes, cytochrome oxidase (COX), GSH, and GSSG, and endogenous and in vitro stimulated lipid peroxidation (TBA-RS) were assayed in the lung of old (28 months) and young (9 months) adult rats due to the almost total absence of data of this kind in this tissue, which is normally exposed to relatively high pO2 throughout life. Catalase, selenium (Se)-dependent GSH peroxidase (GPx), GSH reductase, GSH, GSSG, GSSG/GSH, and in vivo and in vitro TBA-RS showed similar values in old and young animals. The decrease observed for non Se-dependent GPx disappeared when the values were expressed in relation to COX activity. Only superoxide dismutase showed a clear decrease when referred both to protein and COX activity. These results suggest that lung aging is not accelerated in old age due to a decrease in the antioxidant capacity of the tissue. Nevertheless, they are compatible with a continuous damage of the lung tissue by free radicals throughout the life span.
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PMID:Aging and lung antioxidant enzymes, glutathione, and lipid peroxidation in the rat. 164 50

The ability of stobadine (ST) to prevent lipid peroxidation was tested in incomplete rat cerebral ischemia induced by 4 hour ligation of the common carotid arteries with a subsequent 10 min reperfusion. The extent of lipid peroxidation was determined by the measurement of the level of conjugated dienes (CD) and thiobarbituric acid reactive substances (TBARS). The levels of CD and TBARS were significantly elevated in brain cortex samples from animals subjected to ischemia followed by reoxygenation in comparison with ischemic samples without reperfusion, samples from sham operated or control animals. The concentration of CD and TBARS significantly decreased in animals treated with therapeutic doses of ST (2 mg/kg) administered i.v. immediately before reperfusion or 10 min after the onset of reperfusion. Stobadine was more effective than the known lipid antioxidant vitamin E, given in a dose of 30 mg/kg.day i.m. over 3 consecutive days prior to ischemia. The beneficial effect of ST on survival of rats was more effective in comparison with vitamin E. Significant changes were found in the activities of the antioxidative enzymes, i.e. increase in superoxide dismutase (SOD) and decrease in glutathione peroxidase (GP) in brain cortex samples from animals subjected to ischemia followed by reoxygenation. Stobadine prevented these changes. Catalase (CAT) activity was not detectable. It may be concluded from the increased SOD activity that oxygen radicals play a significant role in cerebral ischemia followed reperfusion. In addition to its antioxidant effect, stobadine probably prevents superoxide radical generation. The mechanism of xanthine oxidase inhibition is not involved in preventing superoxide radical generation by stobadine. Stobadine maintained high GP activity, probably by preventing glutathione oxidation.
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PMID:Effect of stobadine on brain lipid peroxidation induced by incomplete ischemia and subsequent reperfusion. 178 73

Exposure of cultured pulmonary artery endothelial cells to 95% O2 resulted in the following sequence of events: decrease in [3H]thymidine incorporation after 24 h; increase of intracellular glutathione (GSH) and loss of cellular protein after 48 h; increase of spontaneous and decrease of provoked prostacyclin formation as well as increased release of cellular LDH after 72 h. This oxygen toxicity model was used to study the following 2 questions. (1) What is the relative importance of the GSH redox cycle compared to catalase as antioxidative defense against hyperoxia? Endothelial cells were grown in selenium-depleted medium to inhibit glutathione peroxidase activity. Endothelial GSH biosynthesis was inhibited by buthionine sulfoximine. Catalase activity was reduced by aminotriazole. Endothelial cells with an impaired GSH redox cycle were easily killed by hyperoxia within 24 h, while inhibition of catalase did not enhance the susceptibility of endothelial cells to hyperoxia. (2) Can endothelial GSH content be increased by exogenous sulfhydryl reagents and does this result in an increase of endothelial cells' resistance to hyperoxia? Exogenous GSH, N-acetylcysteine, cysteine, and L-2-oxothiazolidine-4-carboxylate (L-2-oxo) increased intracellular GSH. All sulfhydryl reagents (with the exception of L-2-oxo) protected endothelial cells from hyperoxia. Concentrations of exogenous GSH and N-acetylcysteine that did not increase intracellular GSH reduced hyperoxia-induced endothelial cell injury. Thus the capacity of the GSH redox cycle rather than intracellular GSH levels or catalase determines endothelial cells' resistance to hyperoxia.
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PMID:Glutathione redox cycle is an important defense system of endothelial cells against chronic hyperoxia. 192 73

Erythrocyte catalase, reduced glutathione, glutathione peroxidase and glutathione reductase were determined in 17 normal black controls, 8 subjects with Hb AC, 12 with Hb SC, 1 with Hb CC and 18 patients with sickle cell anemia. Catalase and glutathione peroxidase activities were decreased in sickle cell anemia. Reduced glutathione and glutathione reductase activity were significantly lower in subjects with Hb C (AC, CC, SC). Differences were observed between Hb C, Hb S and Hb A as regards red cell dehydration, intracellular crystallization, enhanced potassium efflux, an increased number of titratable SH groups in Hb C and the binding of Hb C to band 3 on the inner membrane surface. A decrease in reduced glutathione, probably due to inhibition or decreased synthesis of glutathione reductase, was also observed. All these factors may determine oxidation of Hb C, possibly contributing to the hemolysis in patients with Hb C disease.
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PMID:Decreased reduced glutathione and glutathione reductase activity in subjects with hemoglobin C. 194 19


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