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: UMLS:C0242706 (hyperoxia)
5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyperoxia activates superoxide dismutase (SOD) while inactivating catalase and glutathione peroxidase in polymorphonuclear leucocytes (PMN) and alveolar marcophages (AM) obtained from guinea-pigs exposed to 85% oxygen for 90 h. The influence of these altered enzyme activities on the rate of oxygen consumption and release of superoxide anion (O--2) and hydrogen peroxide (H2O2) was investigated. By 18 h O--2 released from resting PMN increased two-fold and remained elevated through the entire periods of the study, whereas H2O2 release and oxygen consumption at the same time points remained normal. At 66 h PMN phagocytizing opsonized zymosan particles released additional quantities of O--2 and H2O2 and consumed significantly more oxygen compared to the usual increase noted at earlier time points. Although oxygen consumption was almost two-fold higher in AM than PMN, phagocytizing AM released three-fold less O--2 and five-fold less H2O2 than did PMN. Furthermore, AM of animals exposed to hyperoxia no longer exhibited enhanced O--2 production upon exposure to opsonized zymosan. Hydrogen peroxide release progressively decreased at rest but progressively increased during phagocytosis of opsonized zymosan during the 90 h exposure to hyperoxia. No changes in oxygen consumption of AM occurred during hyperoxia. The divergent oxidative responses in PMN and AM of guinea-pigs exposed to hyperoxia suggest different biochemical adaptive mechanisms.
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PMID:Effect of hyperoxia on superoxide anion and hydrogen peroxide production of polymorphonuclear leucocytes and alveolar macrophages. 19 22

Adult rats show evidence of severe lung damage after 72h of continuous exposure to hyperoxia (96-98% O2). Treatment of adult rats with a solution of Plasmanate, inadvertently contaminated with endotoxin-producing organisms, or with purified endotoxin itself markedly altered the lung toxicity associated with hyperoxic exposure (survival in treated animals = 110/113 [97%] versus survival in untreated animals = 56/172 [33%]). After 72h of hyperoxic exposure, the endotoxin-treated rats demonstrated significant increases in lung superoxide dismutase, catalase, and glutathione peroxidase activity, a protectant enzyme response not seen in untreated adult rats. The basis for endotoxin's protective effect from hyperoxic lung damage is believed to be related to the stimulated increase in activity of the pulmonary antioxidant enzyme defense system. Some previously known actions of endotoxin are speculated to also serve a protective function by opposing some of the usual detrimental effects of high concentrations of O2 on the lung.
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PMID:The role of endotoxin in protection of adult rats from oxygen-induced lung toxicity. 62 Dec 74

Neonatal and adult animals of five species were exposed to 95+% O2. Survival time and changes in lung antioxidant enzyme activity (superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GP)) in response to hyperoxia were determined. Adult animals succumbed to O2 lung toxicity in 3--5 days. Neonatal rats, mice and rabbits showed minimal lung changes after 7 days of hyperoxic exposure and these same neonatal animals showed rapid and significant increases in lung antioxidant enzyme activities. In contrast, neonatal guinea pigs and hamsters had no lung antioxidant enzyme response to hyperoxia and these neonates died in 95+% O2 as readily as their respective parent animals. Results from an in vitro hyperoxic exposure system suggest that the lack of enzymic response of the guinea pig (and hamster) neonates to O2 challenge is due to an inherent pulmonary biochemical unresponsiveness rather than to a deficiency of a necessary "serum factor." The results of this species and age study support the important role of the lung antioxidant enzyme defense system in protection of the lung from O2-induced injury.
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PMID:Oxygen toxicity in neonatal and adult animals of various species. 73 May 65

Single injection to mice of a perified preparation of superoxide dismutase (1000 units, intravenously) combined with catalase (0.5 mg) or without it failed to protect from the toxic action of 100% oxygen under the pressure of 5 ata. 1,4-diazobicyclo (2.2.2) octane (6 mg, intraperitoneally) increased the preconvulsive survival period of mice under these conditions. The formation of single oxygen under hyperoxia in vivo is supposed.
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PMID:[Effect of exogenous superoxide dismutase and 1,4-diazobicyclo-(2,2,2,)-octane on the resistance of mice to acute oxygen poisoning]. 85 14

The increase of cytochrome P-450 by 34% and its catalytic activity with substrate amidopyrine by 57% as compared with control has been shown under hypoxia (0.029 MPa, 1 h). Hyperoxia (0.2 MPa, 1 h) increases the metabolism of amidopyrine by 148%, benzo[a]pyrene by 158% and aniline by 114% and consecutive affection of hypoxia and hyperoxia--by 247, 45 and 138% correspondingly at fixed cytochrome P-450 amount in both series. The amount of diene conjugates and Schiff's bases under hypoxia increases by 40 and 69% correspondingly, the activity of SOD and catalase decreases by 25 and 23%. The activity of hyperoxia raises the diene conjugate content by 19% at all this SOD activity increases by 95%. Consecutive affection of hypoxia and hyperoxia increases the level of diene conjugates and Schiff's bases by 26 and 23% correspondingly, without changing SOD and catalase activity. The relative microsomal viscosity of lipid layer and zones of enzyme-lipid contacts decreased by 20 and 24% under hypoxia, but under hyperoxia and consecutive affection and hypoxia and hyperoxia it increases by 29-28% and 56-40% correspondingly.
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PMID:[The effect of hypoxia and of subsequent baro-oxygenation on the function of the microsomal oxidation system in the rat liver]. 130 2

The aim of this study was to investigate superoxide dismutase, glutathione peroxidase, glutathione reductase, catalase and glucose-6-phosphate dehydrogenase as well as malondialdehyde, conjugated dienes and hydroperoxide levels in rat lungs after 12-, 24-, and 48-h normobaric hyperoxia. It was stated that activities of the above-mentioned enzymes and peroxidation products are increased as early as after 12 hours of hyperoxia. It is suggested that normobaric hyperoxia can induce anti-oxidant enzymes and lipid peroxidation as early as in 12th hour of hyperoxia.
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PMID:The influence of normobaric hyperoxia on anti-oxidant enzymes activities and peroxidation product levels in rat lungs. 133 69

Oxygen free radicals and hydroperoxides have been postulated to play a causal role in the aging process, implying that antioxidant enzymes may act as longevity determinants. Catalase (H2O2:H2O2 oxidoreductase; EC1.11.1.6) is the sole enzyme involved in the elimination of H2O2 in Drosophila melanogaster; glutathione peroxidase being absent. A genomic fragment containing the Drosophila catalase gene was used to construct transgenic Drosophila lines by means of P element-mediated transformation. Enhanced levels of catalase (up to 80%) did not prolong the life span of flies, nor did they provide improved protection against oxidative stress induced by hyperoxia or paraquat treatment. However, enhanced resistance to hydrogen peroxide was observed in the overexpressors.
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PMID:The effects of catalase gene overexpression on life span and resistance to oxidative stress in transgenic Drosophila melanogaster. 137 30

The influence of oleic, linoleic (LIN), and eicosapentaenoic (EPA) acids incorporated into cellular lipids on susceptibility to O2-induced toxicity was evaluated in Chinese hamster fibroblasts (HA1) using a clonogenic cell survival assay. Fatty acid incorporation was achieved by incubating HA1 cells in 21% O2 for 72 h in the presence or absence of media supplemented with 25 microM oleic acid, 25 microM LIN, or 2, 4, and 25 microM EPA. This fatty acid incorporation period increased the percentage of composition in phospholipids 2-fold for oleic acid, 6-fold for LIN, and 6- to 20-fold for EPA. Vitamin E, total glutathione, superoxide dismutase activity, glutathione transferase activity, and catalase activity were unchanged, relative to control, in the 25-microM EPA-treated group, and only total glutathione was elevated in the LIN-treated group. After the incorporation period, the cells were placed in non-fatty acid supplemented media and exposed to 95% O2, and clonogenic survival responses were evaluated at time intervals up to 100 h. Sensitization to O2 toxicity in EPA-treated cells was apparent after 24 h of O2 exposure, whereas LIN-treated cells were significantly (p less than 0.05) sensitized to hyperoxia after 54 h of exposure, indicating that EPA was a more potent sensitizer for O2 injury. Furthermore, cells supplemented with 4 and 25 microM EPA were more sensitive to O2 toxicity than cells supplemented with 2 microM EPA. In contrast, cells treated with 25 microM oleic acid were significantly more resistant to O2 toxicity at 51, 72, and 98 h of O2 exposure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of monosaturated and polyunsaturated fatty acids on oxygen toxicity in cultured cells. 140 77

Undernutrition may exacerbate hyperoxia-induced lung injury, a finding that may be of significance in the early clinical management of the premature human infant. Addressing this specific problem, we found that 72 h of food restriction in guinea pig pups delivered 3 days preterm increased mortality rates among pups exposed to 95% oxygen (8/18) and yet had no effect on 21% oxygen (air)-exposed pups (0/10). Reduced tolerance of hyperoxic conditions was not, however, associated with increased lung injury, assessed as pulmonary microvascular leakage. Pulmonary antioxidant enzyme activities [Cu,Zn superoxide dismutase (SOD), Mn SOD, glutathione peroxidase, and catalase] were unaltered by starvation or hyperoxia. Lung glutathione concentration was slightly decreased after food restriction, whereas hyperoxic exposure did not change either lung or bronchoalveolar lavage fluid glutathione concentrations or lung antioxidant enzyme activities. Increased susceptibility to the lethal effects of oxygen in the starved preterm guinea pig pup could not be attributed to a deficiency of pulmonary antioxidant defenses.
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PMID:Effect of food restriction on hyperoxia-induced lung injury in preterm guinea pig. 141 61

The lung activity of the antioxidant enzymes (AOEs) copper, zinc superoxide dismutase (Cu,Zn SOD), catalase (CAT), and glutathione peroxidase (GP), but not manganese superoxide dismutase (Mn SOD), increases in rats during late gestation; the concentrations of Cu,Zn SOD mRNA and CAT mRNA also rise. During early postnatal exposure to > 95% O2, the lung activity of Cu,Zn SOD, CAT, and GP increases. We now show 1) the lung concentration of Mn SOD mRNA and GP mRNA does not increase in late gestation; 2) Mn SOD activity and the concentration of its mRNA and of GP mRNA increase during exposure of neonatal rats to > 95% O2; and 3) as previously shown for CAT mRNA, the increase in lung concentration of the mRNAs for Cu,Zn SOD, Mn SOD, and GP during early postnatal hyperoxia occurs with a 70-80% prolongation of the half-life of these mRNAs. We conclude that 1) in late gestation the level at which lung AOE gene expression is regulated differs among the enzymes, 2) the level at which lung AOE gene expression is regulated shortly after birth in response to > 95% O2 is uniform among the enzymes, and 3) the lung's AOE response to neonatal hyperoxia is not merely a step-up of its prenatal regulation but involves different regulatory mechanisms based on increased stability of AOE mRNAs.
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PMID:Rat lung antioxidant enzymes: differences in perinatal gene expression and regulation. 141 24


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