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)

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

Newborn rats were injected with vitamin E or placebo daily until 6 days after birth. The effect of vitamin E pretreatment on in vitro surfactant phospholipid synthesis was examined in isolated type II cells exposed to oxygen or air form 24 h in vitro. Type II cells were also isolated from untreated 6-day-old rats and cultured for 24 h in oxygen or air with control medium or vitamin E supplemented medium. These cells were used to examine the effect of vitamin E exposure in vitro on type II cell phospholipid synthesis and ultrastructure. Phosphatidylcholine (PC) synthesis was reduced in cells cultured in oxygen as compared with air. This decrease was not prevented by in vivo pretreatment or in vitro supplementation with vitamin E. Vitamin E pretreatment increased the ratio of disaturated PC to total PC and increased phosphatidylglycerol synthesis. The volume density of lamellar bodies in type II cells was increased in cells maintained in oxygen. Vitamin E did not affect the volume density of lamellar bodies. We conclude that in vitro hyperoxia inhibits alveolar type II cell phosphatidylcholine synthesis without decreasing lamellar body volume density and that supplemental vitamin E does not prevent hyperoxia-induced decrease in phosphatidylcholine synthesis.
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PMID:Vitamin E alters alveolar type II cell phospholipid synthesis in oxygen and air. 208 5

The extent of in vivo lipid peroxidation and the in vivo antioxidant effects of alpha-tocopherol and alpha-tocopheryl acetate were studied in newborn rabbits exposed to one of two oxidant stresses: hyperoxia (FIO2 greater than 0.9) or parenteral lipid emulsion infusion. Lipid peroxidation was monitored by measurement of expired ethane and pentane, tissue thiobarbituric acid (TBA) reactants, and tissue lipid peroxides. Seventy-two h of hyperoxia did not increase any of the parameters of lipid peroxidation although mortality was higher in oxygen exposed animals. alpha-Tocopherol (100 mg/kg, intravenous) lowered expired hydrocarbons and tissue TBA reactants, but raised liver lipid peroxides in both air and hyperoxia exposed pups. Infusion of soybean oil emulsion increased production of ethane and pentane, liver TBA reactants, and lung lipid peroxides. Both alpha-tocopherol and alpha-tocopheryl acetate prevented the soybean oil emulsion induced increase in volatile hydrocarbons. alpha-Tocopherol (100 mg/kg, intravenous) administration also prevented the increase in liver TBA reactants and lung lipid peroxides. In identically treated animals, alpha-tocopheryl acetate administration decreased liver TBA reactants but had no effect on lung lipid peroxides. We conclude that alpha-tocopherol reduces lipid peroxidation in newborn rabbits including animals exposed to hyperoxia or infused with lipid emulsions. alpha-Tocopheryl acetate results in lower tissue alpha-tocopherol concentrations and is less effective as an antioxidant in lipid emulsion infused rabbits.
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PMID:Lipid peroxidation in newborn rabbits: effects of oxygen, lipid emulsion, and vitamin E. 371 59

The aim of this study was to investigate the effects of an abundance of unsaturated fatty acids, hyperoxia, and vitamin E on free radical formation in vitamin E-deficient rats. The excess of unsaturated fatty acids was achieved by i.v. administration of a lipid emulsion (Intralipid). To assess free radical formation, we measured the autooxidative susceptibility of red blood cells (AOS) and the thiobarbituric acid reacting substrates (TBARS) in LDL and HDL. Intralipid significantly increased all the measured parameters compared with controls (AOS: 1385 +/- 73 versus 1056 +/- 55; LDL-TBARS: 4955 +/- 422 versus 1050 +/- 33; HDL-TBARS: 6855 +/- 573 versus 1033 +/- 26 nmol TBARS/mmol). Hyperoxia alone increased AOS more than Intralipid alone, whereas LDL- and HDL-TBARS concentrations were affected less by hyperoxia than lipid emulsion. The combination of hyperoxia and Intralipid was most effective in raising all measured parameters (AOS: 2285 +/- 141; LDL-TBARS: 6716 +/- 318; HDL-TBARS: 14614 +/- 1000 nmol TBARS/mmol). Vitamin E completely prevented the increase in AOS, LDL-TBARS, and HDL-TBARS without fully reversing the increase in free radical formation caused either by Intralipid or by the combination of hyperoxia and Intralipid. These findings suggest that vitamin E supplementation is beneficial to counter increased free radical formation, such as that in response to hyperoxic attacks or lipid-containing parenteral nutrition, which is frequently encountered in the treatment of premature infants.
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PMID:Long-term effects of unsaturated fatty acid dominance on the release of free radicals in the rat. 780 21

The random, free-radical-mediated oxidations of biological molecules result in membrane degradation leading to cellular deterioration (B. Halliwell, Free Radical Res. Commun. 9, 1-32, 1990). External oxygen, prooxidants, and internally produced oxygen free radicals (oxyradicals), interact and alter the nature of biomembranes. Antioxidants, e.g., tocopherol (Vitamin E), inhibit such oxidative damage of free radicals. In the present study, the nematode Caenorhabditis elegans was grown under hyperoxia (100% oxygen) with or without the addition of Vitamin E to the growth media. The nematodes were viable under such conditions for at least eight generations, although fecundity gradually decreased through successive generations, presumably due to genetic load. Vitamin E was also shown to have a protective effect against paraquat, which is a strong, intracellular, oxidizing agent. Ultrastructural observations of early meiosis showed that the formation of synaptonemal complexes was compromised and that the telomeres failed to attach to the nuclear envelope. Those nematodes grown in 100% oxygen with 200 micrograms/ml Vitamin E had normal meiotic structures and normal fecundity. Thus, the presence of enhanced levels of intracellular Vitamin E resulted in protection against oxidative stress during gametogenesis.
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PMID:Transgenerational, ultrastructural analysis on the antioxidative effects of tocopherol on early gametogenesis in Caenorhabditis elegans grown in 100% oxygen. 812 66

The objective of the present study was to demonstrate an antioxidant function for Zn in vivo by comparing the efficacy of Zn or Vitamin E without additional energy intake for protection of Zn-deficient (ZnDF) or energy-restricted (ER) rats from hyperoxia-induced lung damage. Zn (200 mumol ZnCl2/kg b.wt.) or Vitamin E (100 mg alpha-tocopherol/kg b.wt.) was injected IP before exposure to 85% oxygen or air for 5 d. During the exposure period, all injected ZnDF or ER rats were restricted to 5 g Zn-deficient or Zn-adequate diet/day, respectively, the amount of diet consumed by the untreated ZnDF or ER rats. We clearly demonstrated that injection of Zn without additional energy intake can protect ZnDF and ER rats from hyperoxia-induced lung damage assessed by the histopathological scoring system and magnetic resonance imaging (MRI). Vitamin E was not as effective as Zn in either ZnDF or ER rats for preventing hyperoxia-induced lung damage. Zn injection did not exert its antioxidant effect through increased lung CuZn-superoxide dismutase activity or metallothionein. This difference in the effectiveness of Vitamin E and Zn for hyperoxic protection in lung injury may be due to the specificity of antioxidant function, i.e., vitamin E inhibits oxidation of membrane lipids and Zn protects sulfhydryl groups of proteins.
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PMID:Comparison of Zn and vitamin E for protection against hyperoxia-induced lung damage. 898 Oct 47

Epithelial cells are prone to oxidant injury, which could change epithelial cell homeostasis and lead to degenerative diseases. We examined the effects of hyperoxia on death and proliferation off Madin-Darby canine kidney (MDCK) epithelial cells and antioxidant vitamin protection. Subconfluent and near-confluent MDCK cells were cultured under normoxia or hyperoxia for two days. We measured cell number and viability, mitochondria enzymatic activity, thymidine incorporation, necrosis [lactate dehydrogenase (LDH) release], and apoptosis (DNA fragmentation and morphological changes). When the cells were subconfluent, hyperoxia decreased the number of adherent cells, mitochondrial enzymatic activity, and thymidine incorporation, but neither LDH release nor apoptotic changes increased compared with normoxic controls. In normoxia, near-confluent cells had lower nonadherent cell numbers, mitochondrial enzymatic activity, and thymidine incorporation than subconfluent cells; hyperoxia further decreased the latter two parameters and increased apoptotic changes and LDH release in near-confluent cells. Vitamin E protected mitochondrial enzymatic activity, apoptotic changes, and LDH release against hyperoxic injury but did not affect changes in thymidine incorporation with hyperoxia. Vitamin C partially protected the mitochondrial enzymatic activity and thymidine incorporation in subconfluence, but not in near confluence. These results indicate that cell density is a major determinant of the effects of hyperoxic injury and the profile of antioxidant vitamin protection.
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PMID:Cell density and antioxidant vitamins determine the effects of hyperoxia on proliferation and death of MDCK epithelial cells. 929 Jan 15

The effect of oxidative stress on the function of brain synapse, the difference in susceptibility of synapse to hyperoxia with age, and the changes in vitamin E status by stress and aging were investigated. Synaptic membrane permeability to sucrose was increased with age. When rats were subjected to hyperoxia, the membrane permeability on each age increased significantly. The susceptibility of synapse of 25 month old rats exposed to stress was about 2.5 times higher than unexposed old rats. The synaptic plasma membrane fluidity decreased significantly either in response to hyperoxia or during aging. The thiobarbituric acid reactive substances (TBARS) in the synaptic plasma membranes increased with age, and those in the membranes of oxygen-exposed rats were higher than in the unexposed rats. The cholesterol/phospholipids (C/P) ratio of the membranes increased significantly with age, and the values in the membranes of oxygen-exposed rats increased more significantly than in unexposed rats of each age. In a measurement of fatty acid content in the membranes, the content of docosahexaenoic acid (DHA, C22:6) decreased significantly during aging and by hyperoxia. These results suggest that free radicals derived from oxygen may attack nerve terminals and peroxidize the membrane, resulting in the deterioration of function of brain synapse, and that susceptibility of synapse to oxidative stress was significantly increased with age. Vitamin E content in the synaptic plasma membranes decreased with age. When rats were subjected to oxidative stress, the content was lower in each age than in normal rat membranes. An intraperitoneal administration of vitamin E prior to stress reduced these abnormalities. It is obvious that vitamin E contributes to the protection against nerve terminal dysfunction caused by oxidative stress.
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PMID:Aging and oxidative stress in neurodegeneration. 952 34

A rat clonal pheochromocytoma cell line (PC12) was cultured under normoxic (21% O2) and hyperoxic (50% O2) conditions. PC12 cells underwent apoptotic cell death when they were cultured in charcoal-stripped medium in a high-oxygen atmosphere. Vitamin E homologs, alpha-tocopherol (alphaT), beta-tocopherol (betaT), gamma-tocopherol (gammaT), and delta-tocopherol (deltaT), were added to the culture medium to study their biological activities. AlphaT was more effective than gammaT and deltaT in preventing hyperoxia-induced cell death. Addition of exogenous alphaT to charcoal-treated medium prevented lactate dehydrogenase (LDH) leakage from PC12 cells and also inhibited the apoptosis, which was accompanied by DNA fragmentation. Additional alphaT was rapidly concentrated in PC12 cells, suggesting that it exerts antioxidant effects. Our data show that PC12 cell death under high-oxygen conditions is due to apoptosis and that, among the vitamin E homologs, alphaT most effectively prevents hyperoxic apoptosis.
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PMID:alpha-Tocopherol protects PC12 cells from hyperoxia-induced apoptosis. 957 8

Pre-term neonates and neonates in general exhibit physiological vitamin E deficiency and are at increased risk for the development of acute lung diseases. Apoptosis is a major cause of acute lung damage in alveolar type II cells. In this paper, we evaluated the hypothesis that vitamin E deficiency predisposes alveolar type II cells to apoptosis. Therefore, we measured markers of apoptosis in alveolar type II cells isolated from control rats, vitamin E deficient rats and deficient rats that were re-fed a vitamin E-enriched diet. Bax and cytosolic cytochrome c increased, and the mitochondrial transmembrane potential and Hsp25 expression was reduced in vitamin E deficiency. Furthermore, increased DNA-fragmentation and numbers of early and late apoptotic cells were seen, but caspases 3 and 8 activities and expression of Fas, Bcl-2, Bcl-x and p53 remained unchanged. Vitamin E depletion did not change the GSH/GSSG ratio and the activities of antioxidant enzymes. Thus, vitamin E deficiency may induce a reversible pro-apoptotic response in lung cells and sensitise them for additional insult. In agreement with this hypothesis, we demonstrate that in vivo hyperoxia alone does not induce apoptosis in type II cells of control rats but reversibly increases DNA-fragmentation and numbers of early apoptotic type II cells in vitamin E-depleted cells.
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PMID:Vitamin E deficiency sensitizes alveolar type II cells for apoptosis. 1206 53


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