UNIPROT:P04179 - FACTA Search

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Query: UNIPROT:P04179 (MnSOD)
2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increases in lipid peroxide in kidneys of rats treated with cisplatin were examined in relation to decreases in the activities of Cu,Zn-superoxide dismutase (Cu,Zn-SOD), Mn-SOD, glutathione peroxidase (GSHpx), glutathione S-transferase (GST) and catalase. The activities of catalase, GSHpx and GST in the kidney and the liver were significantly decreased after cisplatin administration. The decrease of GST activity in the kidney was 87.3%, this was the largest decrease among these enzymes in the tissues examined. Cu,Zn-SOD activity significantly decreased only in the kidney. In contrast, the activities of these enzymes in the heart and the lung, which showed no increase in lipid peroxide in our previous study, were not significantly decreased. Cisplatin does not directly increase lipid peroxidation in vitro; therefore, the increase of lipid peroxide in the kidneys of these rats treated with cisplatin can be attributed to a decrease in the activities of lipid peroxide-protecting enzymes.
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PMID:Effect of cisplatin on the activities of enzymes which protect against lipid peroxidation. 157 81

In a previous study we have shown that chronic administration of (-)deprenyl increases activities of superoxide dismutase (SOD) and catalase (CAT) in rat striatum (1). The present study attempted to clarify how specific the effect of deprenyl is to certain tissues and brain regions in the rat. Two mg/kg/day of deprenyl was continuously infused s.c. in young male Fischer-344 rats. On the 22nd day, rats were sacrificed and enzyme activities of SOD and CAT were determined in several different brain regions and the liver. Activities of both SOD and CAT were significantly increased in striatum and substantia nigra but not in hippocampus, cerebellum or liver. Both types of SOD (i.e. Cu Zn-SOD and Mn-SOD) were significantly increased in striatum, substantia nigra. Interestingly, in cerebral cortices of three different regions, activities also tended to increase (especially those of Mn-SOD), although the increase was not so striking as in substantia nigra and striatum. The results confirm the previous observation that (-)deprenyl can increase free radical scavenger enzyme activities in striatum and provide further evidence that this effect is selective to certain brain regions and tissue types.
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PMID:The ability of (-)deprenyl to increase superoxide dismutase activities in the rat is tissue and brain region selective. 159 26

HA-1 hamster fibroblasts receiving fresh media every 24 h were continuously passaged in progressively increasing O2 concentrations for 18 mo (designated O2R95). These cells were significantly more resistant than parental HA-1 to clonogenic inactivation mediated by 95% O2 without media replacement. The O2R95 cell line exhibited increases in the activities of catalase (CAT), Mn superoxide dismutase (MnSOD), Cu,Zn superoxide dismutase (Cu,Zn SOD), and glutathione peroxidase (GPx). O2R95 cells demonstrated uniformly distributed increased staining for CAT, MnSOD, Cu,Zn SOD, and GPx proteins, as determined by immunohistochemistry. Cellular resistance to and metabolism of 4-hydroxy-2-nonenal (4HNE), a toxic byproduct of lipid peroxidation implicated in mechanisms of O2 toxicity, was examined in HA-1 and O2R95 cell lines. O2R95 cells were significantly more resistant to 4HNE cytotoxicity, which was accompanied by a significant increase in 4HNE metabolism. O2R95 cells also demonstrated an increase in total glutathione (GSH) and glutathione S-transferase (GST) activity, an enzymatic system believed to be involved with 4HNE metabolism. Furthermore, homogenates from O2R95 cells consumed greater quantities of 4HNE in the presence of NADPH (but not NADH, NAD+, or NADP+), suggesting that an enzyme(s) utilizing NADPH contributes to 4HNE metabolism, resistance to 95% O2 and 4HNE as well as increased total GSH, antioxidant enzyme activities, and NADPH-dependent metabolism of 4HNE, persisted in O2R95 cells for 75 days of growth in 21% O2. These findings are compatible with the hypothesis that aldehydic byproducts of lipid peroxidation contribute to mechanisms of O2 toxicity and the selective pressure exerted by exposure of cells to hyperoxia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A stable O2-resistant cell line: role of lipid peroxidation byproducts in O2-mediated injury. 161 58

The mechanism whereby tumor necrosis factor (TNF) kills mammalian cells is not well understood, although oxidative damage has been suggested by several investigators. Further, it is not known why cells vary in their responsiveness to TNF. We show that the cytotoxic effect of TNF toward TNF-sensitive L929 cells is blocked under hypoxic conditions, suggesting a critical role of molecular oxygen and reactive oxygen species. To test whether cellular resistance to reactive oxygen species could provide resistance to TNF, we derived a variant strain from L929 cells by chronic exposure to an oxidizing agent, hydrogen peroxide (H2O2). These cells exhibit marked resistance to TNF as well as to H2O2. This cross-protection provides additional evidence that mechanisms of resistance to oxidative damage are causally related to TNF-induced cell death. Scatchard analysis of TNF binding did not reveal significant differences between the H2O2-resistant line and the wild-type L929 line. On the other hand, analyses of antioxidant enzymes and glutathione levels in cells of the wild-type and the H2O2-resistant lines revealed several potentially important differences. Before exposure to TNF, the H2O2-resistant variants have elevated catalase activity, decreased activity of total glutathione-S-transferase (GST), and similar superoxide dismutase (SOD) activities. Exposure to TNF led to alteration in CuZnSOD activity, and much more so in the variants than in the wild-type L929 cells. However, no significant change in MnSOD activities in cells of either cell line was observed. Total GST activity was not altered appreciably by TNF in either cell line, but Western analysis showed that the level of alpha GST isozyme was increased and mu GST isozyme decreased in the H2O2-resistant variants. Furthermore, alterations in total glutathione content were observed in both the control and the variant cells.
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PMID:Hypoxia and resistance to hydrogen peroxide confer resistance to tumor necrosis factor in murine L929 cells. 164 71

Oxidants are toxic, but at low doses they can stimulate rather than inhibit the growth of mammalian cells and play a role in the etiology of cancer and fibrosis. The effect of oxidants on cells is modulated by multiple interacting antioxidant defense systems. We have studied the individual roles and the interaction of Cu,Zn-superoxide dismutase (SOD) and catalase (CAT) in transfectants with human cDNAs of mouse epidermal cells JB6 clone 41. Since only moderate increases in these enzymes are physiologically meaningful, we chose the following five clones for in-depth characterization: CAT 4 and CAT 12 with 2.6-fold and 4.2-fold increased catalase activities, respectively, SOD 15 and SOD 3 with 2.3-fold and 3.6-fold increased Cu,Zn-SOD activities, respectively, and SOCAT 3 with a 3-fold higher catalase activity and 1.7-fold higher Cu,Zn-SOD activity than the parent JB6 clone 41. While the increases in enzyme activities were moderate, the human cDNAs were highly expressed in the transfectants. As demonstrated for the clone SOD 15, this discordance between message concentrations and enzyme activities may be due to the low stability of the human Cu,Zn-SOD mRNA in the mouse recipient cells. According to immunoblots the content of Mn-SOD was unaltered in the transfectants. While the activities of glutathione peroxidase were comparable in all strains, the concentrations of reduced glutathione (GSH) were significantly lower in SOD 3 and SOD 15. This decrease in GSH may reflect a chronic prooxidant state in these Cu,Zn-SOD overproducers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The balance between Cu,Zn-superoxide dismutase and catalase affects the sensitivity of mouse epidermal cells to oxidative stress. 165 93

Unsporulated oocysts of Eimeria tenella have high superoxide dismutase (SOD: superoxide:superoxide oxidoreductase, EC 1.15.1.1.) activity and contain several electrophoretically distinct forms of the enzyme, including two forms of Cu/Zn-containing SOD, two forms of Fe-SOD and two forms of Mn-SOD. SOD activity remains high during 12 h of sporulation but diminishes slowly during prolonged sporulation. Oocysts sporulated for 48 h have low levels of superoxide dismutase and contain only one form of the enzyme (Mn-SOD), which was also found in sporozoites. In vitro, sporozoites are oxidant-sensitive and die within minutes of superoxide radical (O2-) generation but SOD/catalase and mannitol protect sporozoites against oxidative damage. These data suggest that E. tenella sporulated oocysts and sporozoites lack soluble cytoplasmic SOD and that this deficiency may contribute to the oxidant sensitivity of the parasite.
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PMID:Superoxide dismutases in Eimeria tenella. 165 47

To explore the level of regulation of the expression of the major antioxidant enzymes in response to hyperoxia, we exposed human umbilical vein endothelial cells to 95% O2 for 3 and 5 days and measured (1) the steady-state mRNA levels, (2) the activities, and (3) the immunoreactive content of CuZn and Mn superoxide dismutases (SOD), catalase (CAT), and glutathione peroxidase (GP). We found that a 3-day exposure to 95% O2 caused (1) an increase in CuZnSOD mRNA (by 41%), CAT mRNA (by 26%), and GP mRNA (by 173%); (2) an increase in CuZnSOD activity (by 30%), a decrease in CAT activity (by 37%), and an increase in GP activity (by 60%); and (3) an increase in CuZnSOD immunodetectable protein (by 26%) and a loss in CAT immunoreactive protein (by 27%). After a 5-day exposure to 95% O2, there was (1) a 93% increase in CuZnSOD mRNA, a 71% increase in CAT mRNA, and a 127% increase in GP mRNA; (2) a 56% increase in CuZnSOD activity, a 70% decrease in CAT activity, and an 89% increase in GP activity; and (3) a 35% increase in CuZnSOD immunoreactive protein and a 55% loss in CAT immunoreactive protein. There was no change in the steady-state MnSOD mRNA level after 3 days in 95% O2, but a 100% increase was observed on day 5 of oxygen exposure. MnSOD activity was unchanged in cells exposed to hyperoxia for 3 and 5 days. These data suggest that, in human umbilical vein endothelial cells, the regulation of antioxidant enzymes expression in response to O2 is complex and exerted at different levels.
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PMID:Response of human endothelial cell antioxidant enzymes to hyperoxia. 172 89

The antioxidant responses of human cell differentiation and membrane fusion are not known and may be important in understanding cellular response to injury in the human placenta. We studied the regulation of antioxidant enzymes in human trophoblasts which differentiate from mononucleated cellular trophoblasts to synctium in vivo and in culture. We characterized morphological and biochemical differentiation of cultured trophoblasts from term placenta in the presence or absence of serum, on different growth surfaces, and with a range of plating densities. Culture of cellular trophoblasts consistently and transiently induced the mRNAs of the mitochondrial antioxidant manganese superoxide dismutase (Mn SOD) but not the mRNAs for the antioxidant enzymes copper zinc SOD or catalase. Fibrin and type I collagen substrates modulated only the expression of the placental specific proteins, human chorionic gonadotropin, and human placental lactogen. Both Mn SOD induction and terminal differentiation, as reflected by human chorionic gonadotropin expression, were dependent on trophoblastic plating density. Increased levels of a smaller Mn SOD mRNA species correlated temporally with an increase in Mn SOD enzyme activity in cultured trophoblasts. These results demonstrate that Mn SOD gene expression and enzyme activity precede or are coordinately regulated with morphological and biochemical trophoblastic differentiation.
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PMID:Induction of manganese superoxide dismutase in cultured human trophoblast during in vitro differentiation. 172 88

Antioxidant enzyme activities, H2O2 clearance, and H2O2 generation by rat alveolar epithelial type II cells were compared between in situ, freshly isolated (6 h ex vivo), and cultured cells (48 h ex vivo). Immunocytochemical studies did not show changes in catalase, Mn superoxide dismutase, or CuZn superoxide dismutase labeling density in cytoplasm, peroxisomes, or mitochondria. Numbers of peroxisomes and mitochondria per cell decreased in cultured cells. Biochemical studies showed that cell culture resulted in a significant decrease in activities of catalase (49%), glutathione reductase (50%), glutathione peroxidase (74%), and in the capacity of the cells to scavenge extracellular H2O2. Addition of the specific catalase inhibitor, aminotriazole, decreased the rate of consumption of exogenously added H2O2 in freshly isolated cells but not in cultured cells. Neither aminotriazole nor 1,3-bis (2-chloroethyl)-1-nitrosourea, which inactivates glutathione reductase, altered H2O2 consumption by cultured cells. The rate of extracellular H2O2 release in both freshly isolated and cultured cells was 0.71 nmol.min-1.mg protein-1. It can be concluded that levels of some antioxidant enzymes fall in cultured alveolar epithelial type II cells, and that, although catalase likely plays a significant role in protection of freshly isolated cells against oxidant stress, this pathway may be less important after culture.
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PMID:Oxidants and antioxidants in alveolar epithelial type II cells: in situ, freshly isolated, and cultured cells. 173 83

The existence of a relationship between clofibrate-induced peroxisome proliferation and oxidative stress mediated by activated oxygen species was studied in intact peroxisomes purified from Pisum sativum L. plants. Incubation of leaves with 1 mM clofibrate produced a remarkable increase in the peroxisomal activity of acyl-CoA oxidase and, to a lesser extent, of xanthine oxidase, whereas there was a nearly complete loss of catalase activity and a decrease in Mn-superoxide dismutase. Ultrastructural studies of intact leaves showed that clofibrate induced a five- and twofold proliferation of the peroxisomal and mitochondrial populations, respectively, in comparison with those in control leaves. Prolonged incubation with clofibrate produced considerable alterations in the ultrastructure of cells. In peroxisomal membranes, the NADH-induced generation of O2- radicals, as well as the lipid peroxidation of membranes, increased as a result of treatment of plants with clofibrate. In intact peroxisomes treated with this hypolipidemic drug, the H2O2 concentration was higher than in peroxisomes from control plants. These results demonstrate that clofibrate stimulates the production of activated oxygen species (O2- and H2O2) inside peroxisomes, as well as the lipid peroxidation of peroxisomal membranes. This effect is concomitant with a decrease of catalase and Mn-SOD activities, the main peroxisomal enzymatic defenses against H2O2 and O2-, and indicates that in the toxicity of clofibrate, at the level of peroxisomes, an oxidative stress mechanism mediated by activated oxygen species is involved.
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PMID:Peroxisome proliferation and oxidative stress mediated by activated oxygen species in plant peroxisomes. 189 96

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