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)

To test whether polyunsaturated fatty acids (PUFA) might be associated with protection against oxygen toxicity in newborn experimental animals, we performed two series of experiments. In the first series, adult female rats were fed one of three diets--regular Rat Chow, a high-PUFA (safflower oil-based) diet, or a low-PUFA (palm oil-based) diet--for several weeks before and throughout pregnancy and lactation. Newborn offspring of the three diet groups had similar antioxidant enzyme activities and surfactant development. Offspring of dams fed the high-PUFA diet had total lung lipid fatty acids characterized by increased linoleic acid (18:2 omega 6) and arachidonic acid (20:4 omega 6) and a significantly increased PUFA/saturated fatty acid ratio, compared with offspring of dams fed the regular diet or low-PUFA diet; associated with this increased PUFA pattern was markedly superior survival (80 of 84 (95%) vs 56 of 84 (67%) for regular-diet offspring, P less than 0.01) after 7 days in greater than 95% oxygen. Conversely, offspring born to dams fed the low-PUFA diet had decreased lung PUFA content and inferior tolerance to prolonged high O2 exposure (survival 38 of 84 (45%)). In the second experimental series, the postnatal provision of high PUFA rat milk to offspring born to dams fed the low-PUFA diet (via "cross-nurturing" by high-PUFA diet dams) rapidly increased their lung lipid PUFA and improved their hyperoxic survival (44 of 50 vs 25 of 50 for low-PUFA diet newborn animals kept with their low-PUFA mother rats, P less than 0.01). These studies suggest that increasing lung lipid PUFA can confer a protective effect against the toxic effects of hyperoxia on the newborn animal lung.
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PMID:Polyunsaturated fatty acids and protection of newborn rats from oxygen toxicity. 335 90

The effects of chronic intake of dietary alcohol upon left ventricular function, activities of myocardial antioxidant enzymes, reduced glutathione (GSH) content and lipoperoxidation (measured as the formation of diene conjugates and lipid-soluble fluorescence) were studied in adult domestic Nicholas turkeys. The non-invasive evaluation of left ventricular function by echocardiography revealed an impaired contractile function (the calculated fractional shortening values were 31.1 +/- 4.1% in the alcoholic group and 38.8 +/- 4.4% in the controls) and dilatation of the heart in the alcoholic birds. The changes in the non-invasive parameters of the left ventricle indicate that the adult Nicholas turkey developed congestive cardiomyopathy secondary to the ingestion of ethanol. In the hearts of normal adult turkeys, high GSH content (2.39 +/- 0.25 mumol/g wet weight) and superoxide dismutase activity were found, as compared to other animals, indicating the relatively higher development of antioxidant defence systems. Compared to the controls, significant increases were noted for all the antioxidant enzymes investigated (superoxide dismutase, catalase and glutathione peroxidase) and a moderately significant decrease in the GSH content was found in the left ventricle of alcoholic birds. The changes in GSH concentration and antioxidant enzyme activities might indirectly indicate some involvement of free radicals in the pathogenesis of ethanol-induced myocardial lesion. However, the levels of in vivo lipoperoxidation in the alcoholic birds did not significantly vary from those of control turkeys. Based on these findings, it appears that the reactive oxygen radicals may play a less important role in the pathogenesis of alcohol-induced cardiomyopathy in turkeys--probably due to the higher development of myocardial antioxidant defence systems.
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PMID:Alcohol-induced congestive cardiomyopathy in adult turkeys: effects on myocardial antioxidant defence systems. 343

The human hepatoma cell line Hep 3B, which has the hepatitis B virus genome, shows over 80% decrease of copper/zinc superoxide dismutase activity, over 90% decrease of manganese superoxide dismutase activity, over 70% decrease of catalase activity, absence of glutathione peroxidase and glutathione S-transferase activities, over 270-fold increase of ferritin content and 25-fold increase of total iron compared to normal autopsy liver. These conditions of low antioxidant enzyme activities and iron overload are those which support the accumulation of oxygen free-radicals and DNA damage commonly considered to be carcinogenic mechanisms.
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PMID:Antioxidant systems in tumour cells: the levels of antioxidant enzymes, ferritin, and total iron in a human hepatoma cell line. 350 92

Monolayer cultures of fetal rat mixed lung cells respond to sublethal concentrations (50%) of oxygen by a reduced growth rate. Exposure to 95% O2 causes growth arrest and cell loss. In the presence of serum the addition of dexamethasone (5.5 nM), tri-iodothyronine (5.5 nM), or insulin (5 microU/ml) appeared to increase the cytotoxicity of 95% O2. Under growth-arrested conditions, in the absence of serum or elevated O2 concentrations, all three agents influence cellular antioxidant enzyme activities. Dexamethasone (0.055 nM) increased CuZn superoxide dismutase activity by 72% and glutathione peroxidase activity by 94%. Triiodothyronine (5.5 nM) increased CuZn superoxide dismutase activity 93%. Insulin (5 microU/ml) increased CuZn superoxide dismutase activity 90%, and catalase activity 58%. Dexamethasone, but not tri-iodothyronine or insulin, seems to have a protective effect against subsequent acute hyperoxia under serum-free conditions. Local non-hormonal factors may also influence lung cell responses to acute increases in oxygen concentrations, since cells acutely exposed to 50% or 95% O2 release a transferable factor(s) into their culture medium which increases antioxidant enzyme activities of non-hyperoxic lung cells.
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PMID:Hormonal and local factors influence antioxidant enzyme activity of rat fetal lung cells in vitro. 352 18

Fetal rat lung fibroblasts were cultured in a gas phase of 20% O2, 5% CO2 (PO2 measured, 150 Torr) or 2% oxygen, 5% CO2 (PO2 measured, 25 Torr) with or without 100 nM dexamethasone (Dex). Superoxide dismutase (SOD) activity per cell increased spontaneously during 4 days of incubation at both PO2, but catalase (CAT) activity tended to fall during this time and glutathione peroxidase (GPx) activity showed no consistent trend during this interval. Cells cultured at a low PO2 had a lower protein content and SOD activity compared with air controls. Dex inhibited cell proliferation and enhanced intracellular accumulation of protein at the low PO2 but prevented the increase in protein content without affecting cell multiplication at a PO2 of 150 Torr. SOD activity per cell was enhanced by Dex at a low PO2 but reduced in 20% O2, 5% CO2. An increase in CAT and GPx activity per cell resulted on exposing fibroblasts to Dex in the presence of low PO2. These results show that Dex affects the growth and antioxidant enzyme activity of fetal lung fibroblasts, and this action of Dex can be modulated by changing the ambient PO2.
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PMID:PO2-dexamethasone interactions in fibroblast growth and antioxidant enzyme activity. 356 58

Adult rats were exposed to room air, 50%, 65%, or 80% oxygen for 6 wk. Subsets were sacrificed periodically in order to establish alterations in growth parameters and lung antioxidant responses. Prolonged exposure to 50% or 65% oxygen did not result in weight loss or changes in lung-to-body weight ratios relative to control values. Treatment with 50% oxygen produced delayed increases in nonprotein sulfhydryl (NPSH) content and catalase (CAT) activity, while treatment with 65% oxygen produced delayed increases in NPSH, CAT, and glutathione peroxidase (GPx) content. Rats treated for 6 wk with either 50% or 65% oxygen died significantly earlier than room-air control animals when these groups were subsequently exposed to 100% oxygen. Rats exposed to 80% oxygen had significantly decreased body weight, increased lung-to-body weight ratios, and increased levels of NPSH, CAT, GPx, total superoxide dismutase, and glutathione reductase by 11 days of treatment. At 6 wk they had significantly altered growth parameters and increased GPx catalase, and NPSH levels. Their final antioxidant profile was not significantly different from 65% oxygen-exposed rats. However, these animals survived significantly longer than any group when exposed to 100% oxygen. In summary, lower concentrations of sublethal hyperoxia (less than or equal to 65%) were capable of eliciting significant antioxidant enzyme responses. Levels of antioxidant enzymes in the lungs of rats chronically exposed to sublethal hyperoxia did not appear to be solely responsible for enhanced survival in subsequent lethal hyperoxia.
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PMID:Adaptation to chronic hyperoxia. Biochemical effects and the response to subsequent lethal hyperoxia. 357

We examined the chronology of development of both fetal lung antioxidant enzymes (superoxide dismutase, catalase, and glutathione peroxidase) and disaturated phosphatidylcholine ("surfactant") during late gestation in four laboratory animal species: rat, rabbit, hamster, and guinea pig. An essentially similar pattern of prenatal biochemical maturation was found in all four species. The developmental changes were characterized by (1) rapid elevations in fetal lung antioxidant enzyme levels during the final 10% to 15% of gestation, and (2) an essentially parallel rapid rise in lung surfactant content during the final 10% to 15% of gestation. The increase in the lung activity of the individual antioxidant enzymes prior to birth averaged approximately 150% to 200%. Our findings suggest that late gestational changes in the principal pulmonary antioxidant defense system (like the changes in the surfactant system) represents a normal "preparation for birth," required to assure successful functioning of the neonatal lung in the relatively oxygen-rich ex utero environment.
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PMID:Prenatal development of lung antioxidant enzymes in four species. 379 68

Total glutathione levels and the activity of enzymes associated with antioxidant protection in neonatal lung are increased in response to hyperoxia. Glutathione levels in developing rat lung decreased from 24 nmol/mg protein on day 19 of gestation to approximately 12 nmol/mg protein at birth. The initial decrease in glutathione may be due to emergence of other antioxidant systems. Newborn rats placed in 100% oxygen showed a rapid and sustained increase in total glutathione levels which was primarily due to an increase in reduced glutathione. Explants obtained from 16-wk gestation human fetal lung or from 17- to 18-day fetal rat lung also showed increased total and reduced glutathione when cultured in 95% oxygen, 5% CO2 as compared with explants cultured in room air. Type II cells isolated from neonatal rats maintained in oxygen for 6 days also showed glutathione levels twice those found in cells isolated from animals in room air. The activity of antioxidant enzymes (glucose-6-phosphate dehydrogenase, glutathione peroxidase, glutathione reductase) was increased in lungs of newborn rats exposed to 100% oxygen either at birth or 2 days of age. Antioxidant enzyme activity of lung explants cultured in 95% oxygen, 5% CO2 was also higher than in explants maintained in room air. These results suggest that the increases in glutathione and of antioxidant enzymes in vivo and in vitro are a direct effect of oxygen exposure in lung and that the increase of both glutathione and antioxidant enzyme activity is intrinsic to the lung cell itself. It is likely that increases in glutathione in lung represent an important protective mechanism against oxidant injury.
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PMID:The responses of glutathione and antioxidant enzymes to hyperoxia in developing lung. 403 84

Rete mirabile and gas gland epithelium from the swim bladders of six species of marine fishes were assayed for catalase, glutathione peroxidase, and superoxide dismutase activity. Correlation of the results of these assays with measurements of the concentration of oxygen in the lumen of the normal steady state swim bladders revealed that swim bladders in species containing higher levels of oxygen also exhibited higher levels of superoxide dismutase activity in the rete mirabile/gas gland epithelium region. There appeared to be no correlation between oxygen concentration and the level of catalase or glutathione peroxidase activity. Induction of the inflatory reflex in Opsanus tau by a single deflation of the swim bladder resulted in an increase in the percent of oxygen in the swim bladder lumen 18 to 24 hours later, but this was not accompanied by any significant increases in antioxidant enzyme activity. Swim bladders that were deflated three times at 24-hour intervals showed further increases in oxygen concentration at the end of the 72-hour period but no alteration in superoxide dismutase activity.
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PMID:Catalase, glutathione peroxidase, and superoxide dismutase in the rete mirabile and gas gland epithelium of six species of marine fishes. 650 92

The antioxidant enzyme superoxide dismutase (SOD) found in the cytosol of eucaryotic cells and the plasma protein ceruloplasmin are copper containing proteins though to be important in providing protection from oxygen toxicity. To investigate the hypothesis that copper deficiency in the rat could result in decreased lung SOD activity and plasma ceruloplasmin concentration resulting in increased susceptibility to O2 lung damage, we performed a series of experiments exposing copper-deficient and control rats to normobaric and hyperbaric hyperoxia. Lung SOD activity in the copper-deficient rats was found to be 56% of control and ceruloplasmin content was 6% of control. The copper-deficient rats exhibited increased mortality and enhanced pulmonary toxicity as evidenced by increased pathologic damage and lung edema during the normobaric exposure to 85% O2. Copper-deficient animals also showed increased susceptibility to a hyperbaric exposure of 4 ata of 100% O2 with a decreased time of survival. The copper-deficient rat represents a new model for the study of oxidant injury.
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PMID:Enhanced pulmonary toxicity in copper-deficient rats exposed to hyperoxia. 672 91


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