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

Water-insoluble proteins of rat brain were studied as affected by hyperbaric oxygenation (oxygen pressure 6 at.ga. convulsion state). Solubilization of proteins under effect of hyperoxia and triton X-100 increases by 32-81%. Changes in the amino acidic composition of proteins extracted by 0.5% triton X-100 are characterized by an increase in the amount of aspartic acid, cystin, leucine and isoleucine and by a decrease in the amount of histidine, arginine and methionine. Electrophoresis in 7.5% polyacrylamide gel of proteins in the 0.5% triton X-100 extract showed changes in the number and mobility of protein bands.
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PMID:[Effect of hyperoxia on water-insoluble proteins of the brain]. 68 68

The objective of this study was to determine whether hyperoxia enhances aminoglycoside activity against Pseudomonas aeruginosa. The existence of tobramycin-oxygen synergy was determined by using the in vitro postantibiotic effect (PAE). P. aeruginosa strains were incubated for 1 h in medium containing tobramycin at four times the MIC in the following gas mixtures: normoxia (21% O2), hyperoxia (100% O2, 101.3 kPa), or hyperbaric oxygen (100% O2, 274.5 kPa). Tobramycin was removed after 1 h and bacteria were incubated under normoxic conditions; growth rates were measured for 5 h. Exposure of three P. aeruginosa strains to hyperoxia prolonged the PAE of tobramycin approximately twofold compared with the PAE after exposure to normoxia (P less than 0.05). Exposure of P. aeruginosa ATCC 27853 to tobramycin and hyperbaric oxygen prolonged the time required for bacteria to increase 1 log10 CFU/ml compared with the time after exposure for this increase to occur in tobramycin-treated, normoxic or hyperoxic groups (P less than 0.02). Pulse-chase labeling of bacteria with L-[35S]methionine, immediately after removal of tobramycin, showed that protein synthesis rates were decreased compared with those in controls (P = 0.0001). Moreover, in tobramycin-treated groups, hyperoxia and hyperbaric oxygen induced 2- and 16-fold decreases, respectively, in protein synthesis rates compared with normoxia; these results did not achieve statistical significance. In the absence of tobramycin, hyperoxia increased bacterial growth (134%; P less than 0.01) and protein synthesis (24%; not significant) compared with normoxia. Hyperbaric oxygen, however, delayed the growth recovery of bacteria (P less than 0.05). We conclude that hyperoxia enhances the bacteriostatic effects of tobramycin in a synergistic manner.+
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PMID:Hyperoxia prolongs the aminoglycoside-induced postantibiotic effect in Pseudomonas aeruginosa. 190 62

A study was made of the blood and tissue oxygen regime in patients with vibratory disease (VD) induced by local vibration and of the importance of lipid peroxidation (LPO) in oxygenation disorders. Venous hyperoxia, a decrease of the arteriovenous difference according to oxygen, the percentage of oxygen utilization by tissues, shift of the acid-base balance towards metabolic acidosis were established, attesting to tissue hypoxia that increased with the gravity of VD. The importance of a steady activation of LPO and depression of the antioxidant system in the pathogenesis of hypoxia associated with VD was supported by the correlation analysis data on oxygen balance and LPO, the functional and metabolic characteristics of red blood cells (according to the viscosity of red blood cell suspension and the content in the cells of SH-groups, lipoproteins and histidine) and platelets (according to aggregation in response to ADP and thrombin) as well as by the level of blood serum fluorescence. The authors provide evidence for the use of antioxidants (a complex of alpha-tocopherol with ascorbic acid and methionine and calcium antagonists of the nifedipine group), giving a membranostabilizing effect, in multimodality treatment of patients afflicted with VD.
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PMID:[Cell-membrane aspects of the pathogenesis of hypoxia in vibration disease induced by local vibration]. 204 32

The potential protective effect of N-acetylcysteine against various types of oxidative stress (exposure to hyperoxia, treatment with paraquat, incubation in the presence of the hypoxanthine-xanthine oxidase system) was tested in primary cultures of porcine aortic endothelial cells. It was compared to that of selenomethionine (Se-Met), known to increase glutathione peroxidase activity, when given either alone or in combination with N-acetylcysteine. LDH release, 3H-thymidine (TdR) incorporation into DNA and DNA content were measured to assess the cytotoxic effect of the conditions tested. Total and oxidized glutathione content was also determined. Whereas Se-Met had a partial protective effect on all the conditions but paraquat treatment, N-acetylcysteine administration had no effect on the hyperoxia induced changes and significantly worsened the cytotoxic action of paraquat. On the other hand, LDH release following an incubation in the presence of the hypoxanthine-xanthine oxidase was significantly reduced after N-acetylcysteine treatment. No major change in total nor in oxidized glutathione followed N-acetylcysteine treatment in control and experimental conditions. A dose-dependent protective effect of N-acetylcysteine was obtained when this agent was given concomitantly with the xanthine oxidase system. These data suggest that in cultured endothelial cells a N-acetylcysteine-related protective effect, if present, is most likely to result from the direct scavenging action of N-acetylcysteine.
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PMID:Comparative study on the selenium- and N-acetylcysteine-related effects on the toxic action of hyperoxia, paraquat and the enzyme reaction hypoxanthine-xanthine oxidase in cultured endothelial cells. 368 96

Rats fed 3% casein diets for 6 days showed an increased susceptibility to greater than 98% oxygen [mean survival time 46.9 +/- 4.1 (SD) h] compared with animals fed 25% casein diets (mean survival time 60 +/- 5 h). The 3% casein diet did not reduce the responses to hyperoxia of lung glucose-6-phosphate dehydrogenase, glutathione peroxidase, and glutathione reductase (NAD(P)H), which maintain tissue levels of reduced glutathione or lung superoxide dismutase levels. While supplementation of the 3% casein diet with the sulfur-containing amino acids (cysteine, cystine, or methionine) prevented the increased oxygen toxicity, supplementation with leucine, a nonsulfur-containing amino acid, had no effect on potentiation of toxicity. Animals fed the unsupplemented 3% casein diet failed to show an elevation of lung glutathione in response to hyperoxia. When the 3% casein diet was supplemented with cysteine, total lung glutathione levels increased normally during oxygen exposure. Supplementation of the 25% protein diet with cysteine did not further protect these animals. We conclude that potentiation of oxygen toxicity by dietary protein deficiency in the rat is due to the low sulfur-containing amino acid content of the diet; the mechanism of increased toxicity by hyperoxia is probably related to an inability to increase glutathione levels due to a shortage of the cysteine component of the glutathione tripeptide.
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PMID:Potentiation of oxygen toxicity in rats by dietary protein or amino acid deficiency. 682 98

Tolerance and adaptation to hyperoxia have been correlated with increases in antioxidant enzymes. This study evaluated whether selenium deficiency would prevent an increase in glutathione peroxidase (GSHPX), a selenium-containing enzyme, during oxygen exposure, and, thus, inhibit adaptation. Because the Torula yeast-based diet, which was used to produce selenium deficiency, was also deficient in cysteine and methionine, the effects of these deficiencies were also evaluated. When rats were exposed to 80% oxygen for 1 week, mortality was 80% for rats deficient in both selenium and the sulfur-containing amino acids, 40% for selenium-deficient rats, 35% for cysteine- and methionine-deficient rats, and 0% for rats fed either a standard laboratory diet or a selenium, cysteine-, and methionine-supplemented Torula yeast diet. However, only one of the six surviving rats with low selenium and none of the rats from any other dietary group died during a subsequent 96 hours of 98% oxygen, indicating adaptation to hyperoxia (LD50 for unadapted rats is 72 hours.) GSHPX activity (per gram of dry weight) was decreased 85% in lungs from unexposed rats fed the low selenium diets. After oxygen exposure, lung GSHPX activity was elevated in all dietary groups. Rats fed the high selenium diets had a 47% increase in enzyme activity, whereas rats with high selenium had a 214% increase. Although hyperoxia caused a relatively high percentage increase in the low Se rats, the resulting absolute GSHPX activity was only 34 to 70% of that of unexposed high selenium rats. The results indicate that both selenium and sulfur-containing amino acids contribute to antioxidant defense. However, although the stress of hyperoxic exposure produces an increase in glutathione peroxidase activity, the absolute lung GSHPX activity is better correlated with tolerance than with adaptation to hyperoxia.
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PMID:Roles of selenium and sulfur-containing amino acids in protection against oxygen toxicity. 687 43

Hyperoxic stress alters expression of genes involved in extracellular matrix (ECM) remodeling. To identify novel ECM-associated gene products positively regulated by hyperoxia, rat kidney cells were exposed to 95% O2, and the complement of [35S]methionine-labeled, saponin-resistant, ECM-associated proteins was compared with normoxic controls. O2-stressed cells accumulated significantly greater ECM levels (approximately 3- to 4-fold that of control cells) of a 52-kDa glycoprotein (p52), recently identified as the matrix form of plasminogen activator inhibitor type 1 (PAI-1) (P.J. Higgins, P. Chaudhari, and M.P. Ryan. Biochem. J. 273: 651-658, 1991; P. J. Higgins, M. P. Ryan, R. Zeheb, T. D. Gelehrter, P. Chaudhari. J. Cell. Physiol. 143:321-329, 1990), which peaked at 48 h of exposure. Hyperoxia-associated increases in ECM p52(PAI-1) content reflected parallel elevations in p52(PAI-1) mRNA abundance. Similar results were obtained using secondary cultures of rat pulmonary fibroblasts. This 48-h period of maximal hyperoxia-induced p52(PAI-1) expression in vitro was used to design subsequent in vivo studies. Adult rats were exposed to 99% O2 for 24-50 h, and RNA was extracted from the pulmonary tissue of stressed and control animals. A 5- to 8-fold and 6- to 15-fold increase in lung p52(PAI-1) mRNA content was evident in hyperoxia-treated rats at 24 and 50 h, respectively. All of this increase occurred in the defined 3.2-kb species of rat p52(PAI-1) mRNA. Actin mRNA levels increased three- to sevenfold as a function of hyperoxic stress, whereas catalase and glyceraldehyde-3-phosphate dehydrogenase mRNA abundance was unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hyperoxic stress elevates p52(PAI-1) mRNA abundance in cultured cells and adult rat pulmonary tissue. 836 24

Oxidation of amino acid residues causes noticeable changes in gating of many ion channels. We found that P/C-type inactivation of Shaker potassium channels expressed in Xenopus oocytes is irreversibly accelerated by patch excision and that this effect was mimicked by application of the oxidant H(2)O(2), which is normally produced in cells by the dismutase action on the superoxide anion. The inactivation time course was also accelerated by high concentration of O(2). Substitution of a methionine residue located in the P-segment of the channel with a leucine largely eliminated the channel's sensitivity to patch excision, H(2)O(2), and high O(2). The results demonstrate that oxidation of methionine is an important regulator of P/C-type inactivation and that it may play a role in mediating the cellular responses to hypoxia/hyperoxia.
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PMID:Acceleration of P/C-type inactivation in voltage-gated K(+) channels by methionine oxidation. 1062 Feb 84

We have studied the effects of hyperoxia and of cell loading with artificial lipofuscin or ceroid pigment on the postmitotic aging of human lung fibroblast cell cultures. Normobaric hyperoxia (40% oxygen) caused an irreversible senescence-like growth arrest after about 4 wk and shortened postmitotic life span from 1-1/2 years down to 3 months. During the first 8 wk of hyperoxia-induced 'aging', overall protein degradation (breakdown of [(35)S]methionine metabolically radiolabeled cell proteins) increased somewhat, but by 12 wk and thereafter overall proteolysis was significantly depressed. In contrast, protein synthesis rates were unaffected by 12 wk of hyperoxia. Lysosomal cathepsin-specific activity (using the fluorogenic substrate z-FR-MCA) and cytoplasmic proteasome-specific activity (measured with suc-LLVY-MCA) both declined by 80% or more over 12 wk. Hyperoxia also caused a remarkable increase in lipofuscin/ceroid formation and accumulation over 12 wk, as judged by both fluorescence measurements and FACscan methods. To test whether the association between lipofuscin/ceroid accumulation and decreased proteolysis might be causal, we next exposed cells to lipofuscin/ceroid loading under normoxic conditions. Lipofuscin/ceroid-loaded cells indeed exhibited a gradual decrease in overall protein degradation over 4 wk of treatment, whereas protein synthesis was unaffected. Proteasome specific activity decreased by 25% over this period, which is important since proteasome is normally responsible for degrading oxidized cell proteins. In contrast, an apparent increase in lysosomal cathepsin activity was actually caused by a large increase in the number of lysosomes per cell. To test whether lipofuscin/ceroid could in fact directly inhibit proteasome activity, thus causing oxidized proteins to accumulate, we incubated purified proteasome with lipofuscin/ceroid preparations in vitro. We found that proteasome is directly inhibited by lipofuscin/ceroid. Our results indicate that an accumulation of oxidized proteins (and lipids) such as lipofuscin/ceroid may actually cause further increases in damage accumulation during aging by inhibiting the proteasome.
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PMID:Proteasome inhibition by lipofuscin/ceroid during postmitotic aging of fibroblasts. 1092 83

High oxygen concentrations are used in the treatment of acute respiratory distress syndrome and hyaline membrane disease. Hyperoxia, however, can damage alveolar epithelial cells through the release of free oxygen radicals. Supplemental glutamine (Gln) has recently been shown to increase survival of A549 cells, a distal epithelial cell line, during hyperoxia (). We found that supplemental Gln (Gln+) is essential for cell growth in A549 cells. In room air, cells without supplemental Gln (Gln-) survived with BCL-2 levels similar to those of Gln+ cells, but cell growth was minimal. We also evaluated the role of glutamine synthetase (GS) in A549 cells during hyperoxia. L-methionine sulfoximine (MSO), an irreversible inhibitor of GS, was added to Gln+ and Gln- cells. In hyperoxia, Gln- cells had greater survival then Gln- cells treated with MSO. Supplemental Gln could rescue cells in hyperoxia from the effect of MSO, suggesting that GS, through the endogenous synthesis of Gln, could attenuate hyperoxic cell injury. In hyperoxia, cells treated with 10-mM concentrations of Gln had increased survival compared with cells receiving 2-mM concentrations. The higher concentration of Gln, however, did not decrease the percentage of cells undergoing necrosis.
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PMID:Inhibition of glutamine synthetase in a549 cells during hyperoxia. 1209 Dec 52


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