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:P30044 (antioxidant enzyme)
8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Instillation of exogenous surfactant into rabbits exposed to 100% O2 increases survival time and decreases alveolar epithelial injury. In this study we investigated whether rabbits with increased levels of endogenous pulmonary surfactant are more resistant to hyperoxia. Rabbits were exposed to 100% O2 for 64 h and then returned to room air for 8 days (preexposed). At this time, they had normal gas exchange and alveolar permeability to solute and increased levels of lavageable alveolar phospholipids compared with control rabbits breathing air (26 +/- 2 vs. 12 +/- 2 mumol/kg). Preexposed rabbits survived significantly longer than control rabbits when reexposed to 100% O2 (166 +/- 24 vs. 80 +/- 6 h; n = 7; P less than 0.05) and had significantly higher values of total lavageable phospholipids after 72 h in 100% O2 (15 +/- 2 vs. 5 +/- 2 mumol/kg). Controls developed arterial hypoxemia after 72 h in 100% O2. On the other hand, preexposed rabbits maintained arterial PO2 values greater than 100 Torr throughout the hyperoxic exposure and developed progressive respiratory acidosis. Specific activities of CuZn and Mn superoxide dismutase, catalase, and glutathione peroxidase in lung homogenates and isolated alveolar type II pneumocytes of preexposed rabbits were unchanged from those of controls before O2 reexposure and after 72 h in 100% O2. We concluded that 1) increases in pulmonary antioxidant enzyme specific activities are not necessary for the development of O2 tolerance in rabbits and 2) pulmonary surfactant may play a role in O2 adaptation.
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PMID:Development of O2 tolerance in rabbits with no increase in antioxidant enzymes. 273 59

The activity of antioxidant enzymes were measured in alveolar type II cells isolated from control and 85% oxygen-exposed rats to determine if type II cells, an oxygen-resistant lung cell type had constitutively high enzyme activities and to measure the effect of hyperoxia on these antioxidant enzyme. Type II cells were isolated from lungs of control rats and rats exposed to 85% O2 for 7 days. In whole lungs of rats exposed to 85% oxygen there is an increase in activity (per lung or per mg lung DNA) in the antioxidant enzymes CuZn superoxide dismutase, Mn superoxide dismutase, catalase, glutathione peroxidase and glucose-6-phosphate dehydrogenase. Oxygen exposure significantly increased (p less than 0.05) all type II cell antioxidant enzyme activities when expressed per mg DNA. The protein content of oxygen exposed type II cells increased 25% from (63.9 +/- 4.8 micrograms/10(6) cells to 79.6 +/- 4.2 micrograms/10(6) cells, p less than 0.05). When type II cell enzyme activities were expressed in U/mg cell protein, only CuZn superoxide dismutase and Mn superoxide dismutase increased in activity following oxygen exposure (by 43% and 28% relative to air exposed lung type II cells, respectively, p less than 0.05). This suggested that most lung cell antioxidant enzymes increased in activity following oxidant stress in proportion to increased cell mass. CuZn and Mn superoxide dismutase increased activity to an extent greater than the increase in type II cell protein content after oxygen exposure. Alveolar macrophages lavaged from control and oxygen-exposed rats were also evaluated, and they had no significant change in CuZn and Mn superoxide dismutase activities. Type II cells accounted for 10% and 17% of alveolar cells in control and oxygen treated rats. By knowing the antioxidant enzyme activities in type II cells, the total enzyme activity of whole lung and the number of type II cells in control and oxygen exposed rats from morphometric data, we calculated the percent of whole lung enzyme activity accounted for by type II cells. Type II cells accounted for a high percentage of lung glucose-6-phosphate dehydrogenase (58% in control rats, 65% in oxygen exposed rats) but a low percentage of Mn superoxide dismutase (4% in control rats, 6% in oxygen exposed rats).
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PMID:Antioxidant enzyme activity in alveolar type II cells after exposure of rats to hyperoxia. 300 82

The administration of very low doses of bacterial endotoxin protects rats during exposure to hyperoxia and is associated with the induction of lung antioxidant enzyme activities. Copper-deficient rats have increased susceptibility to O2 toxicity, which may be related to their decreased lung superoxide dismutase activity (SOD) or decreased plasma ceruloplasmin concentrations. To determine whether endotoxin can protect against hyperoxia in this susceptible model, we exposed copper-deficient and control rats to a fractional inspiratory concentration of O2 greater than 0.95 for 96 h after pretreatment with 500 micrograms/kg of bacterial endotoxin or phosphate-buffered saline (PBS). Mortality in the copper-deficient and control rats given PBS and exposed to O2 for 96 h was 100%. Copper-deficient rats died significantly earlier during the exposure than controls. No mortality occurred in either group treated with endotoxin and hyperoxia despite the decreased activity of copper-dependent enzymes in the copper-deficient rats. Copper-deficient rats treated with endotoxin and exposed to hyperoxia did increase lung Cu-Zn-SOD activity, but activity remained below levels found in air-exposed controls. Mn-SOD activity was found to be induced above air-exposed controls in the copper-deficient rats treated with endotoxin and exposed to hyperoxia. Hyperoxic exposure resulted in a marked increase in plasma ceruloplasmin concentrations in the control rats, but no increases in ceruloplasmin occurred in the copper-deficient animals. Endotoxin protects copper-deficient rats from hyperoxia despite their decreased lung Cu-Zn-SOD activity, and decreased plasma ceruloplasmin.
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PMID:Effects of bacterial endotoxin on protecting copper-deficient rats from hyperoxia. 375 84

Studies have implicated active oxygen species (AOS) in the pathogenesis of various lung diseases. Many chemical and physical agents in the environment are potent generators of AOS, including ozone, hyperoxia, mineral dusts, paraquat, etc. These agents produce AOS by different mechanisms, but frequently the lung is the primary target of toxicity, and exposure results in damage to lung tissue to varying degrees. The lung has developed defenses to AOS-mediated damage, which include antioxidant enzymes, the superoxide dismutases [copper-zinc (CuZnSOD) and manganese-containing (MnSOD)], catalase, and glutathione peroxidase (GPX). In this review, antioxidant defenses to environmental stresses in the lung as well as in isolated pulmonary cells following exposure to a number of different oxidants, are summarized. Each oxidant appears to induce a different pattern of antioxidant enzyme response in the lung, although some common trends, i.e., induction of MnSOD following oxidants inducing inflammation or pulmonary fibrosis, in responses to oxidants occur. Responses may vary between the different cell types in the lung as a function of cell-cycle or other factors. Increases in MnSOD mRNA or immunoreactive protein in response to certain oxidants may serve as a biomarker of AOS-mediated damage in the lung.
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PMID:Regulation of antioxidant enzymes in lung after oxidant injury. 752 4

Premature rabbits, unlike full-term rabbits, are unable to mount a protective increase in pulmonary antioxidant enzyme (AOE) activities in response to 48 h of hyperoxic exposure and demonstrate increased pulmonary O2 toxicity compared with full-term rabbits. To examine AOE gene expression of CuZn superoxide dismutase (SOD), Mn SOD, catalase, and glutathione peroxidase in preterm versus term rabbits in response to hyperoxia, 29.5 d preterm rabbits (delivered by hysterotomy) and term rabbits (spontaneously vaginally delivered) were exposed to 48 h of > 90% O2 or room air. Preterm rabbits had a significant increase in CuZn SOD mRNA without corresponding AOE activity increases, suggesting translational/posttranslational inhibition. In full-term rabbits, the magnitude of lung AOE mRNA changes was associated with concordant magnitude changes in activities of CuZn SOD, Mn SOD, and catalase, suggesting pretranslational regulation of AOE gene expression; glutathione peroxidase, however, appears to be regulated translationally/posttranslationally. To investigate potential pharmacologic means of overcoming the susceptibility of the preterm rabbit to O2 toxicity, 29.5 d preterm rabbits received 20-40 micrograms/kg of Salmonella typhimurium endotoxin or diluent S.C. (after birth and at 24 h); in separate experiments, pregnant rabbits received intramuscular injections of dexamethasone (0.01-0.05 mg/kg) or saline on gestational d 27.5 and 28.5 and underwent hysterotomy at 29.5 d.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Failure of premature rabbits to increase lung antioxidant enzyme activities after hyperoxic exposure: antioxidant enzyme gene expression and pharmacologic intervention with endotoxin and dexamethasone. 759 87

Pancreatic superoxide dismutase (SOD) and glutathione peroxidase (GSHPx) activities were measured during the development of diabetes in diabetes-prone BB rats (BBdp) prior to insulin dependence. The pancreata from seven to eight BBdp rats of each sex were examined at ages 5, 7, 10, and 18 weeks and compared with age-matched control BB rats (BBc). At Week 18, BBdp rats had moderate to high insulitis but normal levels of blood glucose and insulin. Pancreatic CuZnSOD activity in BBdp rats was two times higher than the activity seen in BBc rats at age 5-10 weeks but then declined to the same level as seen in BBc rats at 18 weeks of age. MnSOD activity increased over time in the BBdp rats but remained very low in BBc rats. These changes in CuZnSOD and MnSOD activity resulted in BBdp rats having twice the pancreatic total SOD activity compared with BBc rats (P < 0.0001). Total GSHPx activity was significantly reduced in the pancreata from both male and female BBdp rats compared with their respective controls (P < 0.01 and P < 0.0001, respectively). The lower total GSHPx activity was due to reduced selenium-dependent GSHPx (SeGSHPx) activity. Erythrocyte and plasma activity of these enzymes was not different between rats with or without insulitis, indicating that differences in enzyme activities were confined to the pancreas. Thus, changes in pancreatic antioxidant enzyme activities occur prior to the development of diabetes symptoms in BBdp rats and may be related to the destruction of the pancreatic B cells and ultimate development of diabetes.
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PMID:Changes in pancreatic glutathione peroxidase and superoxide dismutase activities in the prediabetic diabetes-prone BB rat. 793 51

The effect of alloxan-induced diabetes on CuZn- and Mn-superoxide dismutase (SOD), catalase and glutathione peroxidase (GPX) activities, as well as the content of thiobarbituric acid reactive substances (TBARs) were examined in rat lymphoid organs (mesenteric lymph nodes (MLN), thymus and spleen) and, for comparison, red and white muscle fibres. The capacity for generation of reduced equivalents was also evaluated by measuring the activities of glucose-6-phosphate dehydrogenase (pentose-phosphate pathway-cytosol) and citrate synthase (Krebs cycle-mitochondria). Diabetes raised the capacity for the generation of reducing equivalents in the lymphoid organs: in the mitochondria of the thymus and spleen and in the cytosol of the mesenteric lymph nodes and thymus. In muscles, diabetes reduced CuZn-SOD activity in soleus and raised the activity in gastrocnemius, and depressed the activities of catalase in soleus and of glutathione peroxidase in both soleus and gastrocnemius. In relation to the lymphoid organs, the spleen showed a decrease in the antioxidant enzyme activities (except for glutathione peroxidase), whereas the thymus showed an increased level (except for Mn-SOD), and the MLN presented a reduction in Mn-SOD and catalase activities and an increase in GPX activity caused by diabetes. The content of TBARs in the tissues followed the changes in GPX activity inversely: i.e. a decrease in the lymphoid organs (except in the spleen) and an increase in the muscles of diabetic rats compared with the control group. All these changes found in diabetic rats were reversed by insulin treatment and were not modified by the normalization of glycaemia.
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PMID:Superoxide dismutase, catalase and glutathione peroxidase activities in the lymphoid organs of diabetic rats. 796 75

MnSOD is an antioxidant enzyme whose decrease in activity appears involved in tumorigenesis. We had previously reported the production of a monoclonal antibody, named 35.8, against rat MnSOD. In the present paper we show that it recognizes human and mouse MnSODs, although with different detection limits. We also use the antibody for immunofluorescence studies and observed that the antibody yields a positive staining of a non-nuclear protein, in rat and human organs where high concentration of MnSOD activity have been reported, and a lack of staining in rat kidney where MnSOD activity is decreased. Two tumors, an experimental rat hepatocarcinoma and a human liver metastasis from a gastrointestinal adenocarcinoma, are found negative for immunostaining.
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PMID:Monoclonal antibody 35.8 recognizes human, mouse and rat MnSODs in western blot and immunostaining. 808 Dec

Our previous in vivo study demonstrated that methylprednisolone (MP) activates glomerular antioxidant enzymes and attenuates glomerular oxidant injuries, including those in experimental nephrosis. The present study investigates the cellular mechanism of the MP-induced activation of antioxidant enzymes and their contribution to the attenuation of cellular oxidant toxicity. When bovine glomerular endothelial cells (GECs) were treated with 10 microM MP, cellular manganese superoxide dismutase (Mn-SOD, 3.95 +/- 0.33 mu/mg protein, M +/- SE) and catalase (1.64 +/- 0.06 k/mg protein) activities were significantly (P < 0.05) elevated above control GECs (2.23 +/- 0.43 mu/mg protein and 1.06 +/- 0.09 k/mg protein, respectively). When GECs pretreated with MP (10 microM 24 hrs) were exposed to xanthine (0.1 mM)+xanthine oxidase (5 mU/ml) for four hours, levels of specific membrane lipid peroxidation products, that is, phosphatidylcholine- and phosphatidylethanolamine-hydroperoxides, remained at levels 10 to 25% of those measured in non-MP-treated (xanthine/xanthine oxidase-exposed) control cells. Moreover, the degree of cell damage following exposure to the superoxide generating system, assessed by 51Cr release, was significantly attenuated in MP-treated cells (approximately 50% of MP-non-treated controls, N = 6). Thus, MP-treated GECs with elevated antioxidant enzyme activities by MP were more resistant to the toxic effect of reactive oxygen metabolites. The mechanism of antioxidant enzyme induction by MP was studied for Mn-SOD. MP was shown to enhance Mn-SOD mRNA in bovine GECs and rat glomerular mesangial cells (GMCs) in dose-dependent manners.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of manganese superoxide dismutase by glucocorticoids in glomerular cells. 812 10

Seven beagle dogs were administered sucrose (control animals) or different doses of (-)deprenyl orally by means of capsules for 3 weeks. Activities of Cu Zn-SOD and Mn-SOD were determined in striatum and hippocampus in these animals. There was a significant dose-dependent increase in activities of total as well as in both types of SOD enzymes in striatum but not in hippocampus. The results suggest that this monoamine oxidase B inhibitor can increase antioxidant enzyme activities in striatum but not in hippocampus in the dog, thus showing brain region selectivity. These results are in accordance with previously published observations in rats.
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PMID:(-)Deprenyl increases activities of superoxide dismutase (SOD) in striatum of dog brain. 819 23


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