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)

To evaluate the relative contributions of three possible mechanisms that can be advanced to explain the observation that hyperoxia decreases serotonin uptake by endothelial cells, we examined the effect of high O2 tensions on Na+-K+-ATPase activity, ATP content, and plasma membrane fluidity in cultured endothelial cells. Confluent monolayers of pulmonary artery and aortic endothelial cells were exposed to 95% O2 (hyperoxia) or 20% O2 (controls) in 5% CO2 at 1 ATA for 4-42 h. Exposure to high O2 tensions had no effect on Na+-K+-ATPase activity or ATP content in pulmonary artery or aortic endothelial cells in culture. However, hyperoxia decreased the fluidity of the plasma membrane of pulmonary artery and aortic endothelial cells in culture, and the time course for the decrease in fluidity parallels that of the hyperoxic inhibition of serotonin transport. These results indicate that hyperoxia decreases fluidity in the hydrophobic core of the plasma membranes of cultured endothelial cells. Such decreases in plasma membrane fluidity may be responsible for hyperoxia-induced alterations in membrane function including decreases in transmembrane transport of amines.
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PMID:Hyperoxia reduces plasma membrane fluidity: a mechanism for endothelial cell dysfunction. 300 28

Hyperoxia inhibited concanavalin A stimulated O2- release (respiratory burst) of alveolar macrophages obtained by bronchoalveolar lavage from rats. After 36 h of normobaric 100% O2, a partial reversal (48%) of the inhibition was produced by addition of glucose. Since oxidant-induced, reversible NADPH depletion correlates with reversible inhibition of the respiratory burst, intracellular NADPH was assayed to determine whether irreversible inhibition of the respiratory burst was related to persistent changes in this metabolite. The cellular concentrations of ATP, glutathione, and ascorbate were also measured. After 36 h of hyperoxia, NADPH concentration in alveolar macrophages rose slightly while ATP and glutathione content remained at control levels. Ascorbate levels fell significantly but were not responsible for respiratory burst inhibition. Thus, irreversible loss of cellular function in hyperoxia is not due to persistent alterations in these metabolites. Significant amounts of both glutathione and ascorbate were found in extracellular fractions of lung washings, indicating high concentrations in the aqueous subphase in the lung fluid lining. There was no change in total content of these extracellular antioxidants following O2 exposure.
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PMID:Oxygen toxicity: loss of lung macrophage function without metabolite depletion. 301 77

The level of adenosine was measured in monthly biopsied livers from rats fed ethanol and a high fat/low protein diet in order to test a hypothesis that hepatic adenosine is increased due to enhanced breakdown of adenine nucleotides in which ATP and total adenylate pool were decreased by chronic ethanol feeding. The ethanol-fed rats showed a significantly higher average level of adenosine compared to the pair-fed controls. When investigated monthly, however, adenosine in ethanol-fed rats increased only after the decrease in ATP had stabilized and AMP remained unchanged, indicating that these changes were not temporarily related. The average percentage of change in adenosine after acute hyperoxia or hypoxia were variable both in ethanol-fed and pair-fed rats. There was a tendency for a positive correlation between the percentage of change of adenosine and AMP after hyperoxia regardless of ethanol feeding. A negative correlation between the percentage of change of adenosine and energy charge, and a positive correlation between the percentage of change of adenosine and AMP were seen after hypoxia regardless of ethanol feeding. Adenosine levels changed rapidly in response to changes in systemic of pO2 in both the ethanol-fed and control rats, indicating that the liver maintained its normal response to the changes in energy state. The results indicate that chronic ethanol feeding does increase the level of adenosine in the liver and that this level remains responsive to acute changes in pO2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatic adenosine in rats fed ethanol: effect of acute hyperoxia or hypoxia. 305 72

Mitochondrial energy coupling in the gerbil brain was characterized by the relationship between intracellular phosphocreatine (PCr)/inorganic phosphate (Pi), phosphorylation ratio, and the mitochondrial redox state in graded hypoxia. Phosphorus-nuclear magnetic resonance (NMR) spectra of the brain and whole head were taken by surface and saddle coil, respectively. The NADH level of the brain cortex was monitored by in vivo fluororeflectometry. The PCr and Pi of the head and brain did not change between 100 and 10% O2 inhalation. PCr progressively decreased and Pi progressively increased with 6 and 4% 0% inhalation in the head. The PCr/Pi of the brain decreased by 44% at 6% fraction of inhaled oxygen (FIO2) and 57% at 4% FIO2. The ATP level did not change during hypoxia. The calculated phosphorylation ratio of the brain ([PCr] Kck[H+]/[Cr][Pi]) = ([ATP]/[ADP][Pi]) was 4.1 X 10(4) M-1 in normoxia. Hypoxia of increasing severity induced increasing NAD reduction of the brain cortex with 17% NAD reduction at 10% FIO2 when there was no change in phosphorylation ratio. The phosphorylation ratio decreased, i.e., the mitochondria failed to maintain the energy level of the brain when the magnitude of the change in NAD reduction to hypoxia was half of the total redox change between hyperoxia and anoxia. These studies demonstrated the feasibility of combined 31P-NMR and NADH fluorometry measurements on brain in vivo. The observations show similarities between the responses of mitochondrial oxidative phosphorylation to hypoxia in vivo and in vitro.
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PMID:Correlated in vivo 31P-NMR and NADH fluorometric studies on gerbil brain in graded hypoxia and hyperoxia. 336 55

Further characteristics of an oxygen-tolerant variant of Chinese hamster ovary cells (CHO-99) capable of stable proliferation at 99% O2/1% CO2, and O2 level that is lethal to the parental line (CHO-20), are described. Previous work has revealed that CHO-99 cells have 2- to 4-fold increased activities of superoxide dismutases, catalase and glutathione peroxidase, and substantially increased relative volumes of mitochondria and peroxisomes. To document possible additional mechanisms of O2 tolerance we compared CHO-20 cells growing at 20% O2 (normoxia) and CHO-99 cells at 99% O2 (normobaric hyperoxia). We show the following: (1) the estimated total (oxidative and glycolytic) ATP production in CHO-99 cells was 36% decreased. ATP production through oxidative phosphorylation was 52% lower in CHO-99 cells, while the relative contribution from glycolysis was increased from 6% to 30%. The ATP content was 29% lower in CHO-99 cells, the adenylate energy charge being also significantly decreased, indicating that energy production through oxidative phosphorylation is compromised in CHO-99 cells. Cyanide-resistant respiration was 4-fold higher in CHO-99 cells, probably reflecting, at least partly, the increased peroxisomal activity in these cells. (2) The level of reduced glutathione was several fold increased in CHO-99 cells, oxidized glutathione being unaltered; (NADPH + NADP+) levels were elevated 2.7-fold, while the ratio of NADPH to NADP+ was increased almost two-fold. These changes were associated with a 50% increased metabolism of glucose through the hexose monophosphate pathway. (3) No evidence was obtained for an increased steady-state level of endogenous lipid peroxidation in CHO-99 cells, in spite of a 50% increased content of polyunsaturated fatty acids in the phospholipid fraction.
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PMID:Characterization of oxygen-tolerant Chinese hamster ovary cells. II. Energy metabolism and antioxidant status. 338 44

Isolated alveolar epithelial type II cells were exposed to paraquat and to hyperoxia by gas diffusion through the thin Teflon bottom of culture dishes. After exposure, type II cells were further incubated in the presence of labelled substrates to assess their capacity to synthesize lipids. Hyperoxia alone (90% O2; 5 h) had minor effects on lipid metabolism in the type II cells. At low paraquat concentrations (5 and 10 microM), hyperoxia enhanced the paraquat-induced decrease of [Me-14C]choline incorporation into phosphatidylcholines. The incorporation rates of [Me-14C]choline, [1-14C]palmitate, [1-14C]glucose and [1,3-3H]glycerol into various phospholipid classes and neutral lipids were decreased by paraquat, depending on the concentration and duration of the exposure. The incorporation of [1-14C]acetate into phosphatidylcholines, phosphatidylglycerols and neutral lipids appeared to be very sensitive to inactivation by paraquat. At 5 microM-paraquat the rate of [1-14C]acetate incorporation was decreased to 50% of the control values. The rate of [1-14C]palmitate incorporation into lipids was much less sensitive; it even increased at low paraquat concentrations. At 10 microM-paraquat both NADPH and ATP were significantly decreased. It is concluded that lipid synthesis in isolated alveolar type II cells is extremely sensitive to paraquat. At low concentrations of this herbicide, lipid synthesis, and particularly fatty acid synthesis, is decreased. The effects on lipid metabolism may be partly related to altered NADPH and ATP concentrations.
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PMID:Phospholipid synthesis in isolated alveolar type II cells exposed in vitro to paraquat and hyperoxia. 366 39

Oxidants are generated in vivo by multiple mechanisms, including stimulation of leukocytes, hyperoxia, metabolism of arachidonic acid, and the activation of various oxidases. When the biochemical defences to the oxidants are inadequate, injury of tissues results. This injury was observed in rabbits and rhesus monkeys when pulmonary inflammation was induced with phorbol esters or formylated peptide given intrabronchially. We have recently investigated metabolic changes in various cells exposed to oxidants that are generated from stimulated leukocytes, including H2O2, O2, and HOCl. The target cells used were P388D1 murine macrophage-like tumour cells, human peripheral lymphocytes, GM 1380 human fibroblasts and rabbit alveolar macrophages. The oxidants used were H2O2 and PMA stimulated PMNs or neutroplasts. Lysis could only be prevented when catalase was added within the first 30-40 min of H2O2 exposure indicating that early metabolic changes determined the fate of the cell. Within seconds after the addition of H2O2 to P388D1 cells activation of the hexose monophosphate shunt (HMPS) was observed indicative of increased glutathione cycle activity. At the same time DNA strand breaks (determined by an alkaline unwinding technique) were detected. They resulted in the activation of the DNA repair enzyme poly-ADP-ribose polymerase (pADP-RP) within minutes after the addition of H2O2. At the same time ATP and NAD (the substrate of pADP-RP) concentrations dropped and nicotinamide accumulated extracellularly. 10-15 min after oxidant exposure free intracellular Ca++ concentrations determined by Quin 2 fluorescence started to increase due to release from intracellular stores.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidant and protease injury of the lung. 369 17

The effect of noradrenalin (NA, 0.008 microgram/ml) on the rate of heat release (V) during a single isometric contraction of an isolated diaphragm was investigated in rats kept in air and 99% oxygen for 3 hours. The effect was measured by the electrothermometric method in the presence and in the absence of ATP (0.01 mg/ml) in the incubation solution. Hyperoxia doubled V of muscle contraction. The calorigenic effect of NA was not detected in the norm and was very distinct during hyperoxia so that VNA = 0.14X XVinit + 10.88. ATP addition increased V both in the normal and hyperoxic state. However, the increase of the initial V level was 5.3-fold in the hyporexoc state and 1.5-fold in the norm. It is concluded that hyperoxia disturbs energy metabolism of muscle contraction through NA-dependent acceleration of ATP-lytic processes and increase of energy expenditures of heat formation in the course of muscle contraction.
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PMID:[Noradrenaline regulation of the energy of heat production and ATP utilization during normal single muscle contraction and in hyperoxia]. 376 57

The effects of hypoxic hypoxia on high-energy phosphate metabolites and intracellular pH (pHi) in the brain of the anesthetized infant rabbit were studied in vivo using 31P nuclear magnetic resonance spectroscopy. Five 10- to 16-day-old rabbits were anesthetized with 1.5% halothane. Ventilation was controlled to maintain normocarbia. Inspired O2 fraction was adjusted to produce three states of arterial oxygenation: hyperoxia (PaO2 greater than 250 mm Hg), normoxia (PaO2 approximately 100 mm Hg), and hypoxia (PaO2 25-30 mm Hg). During hypoxia, blood pressure was kept within 20% of control values with a venous infusion of epinephrine. During hyperoxia, the phosphocreatine-to-ATP ratio was 0.86, a value that is 2-2.5 times less than that reported for adults. During normoxia, ATP decreased by 20% and Pi increased by 90% from hyperoxia values. During 60 min of hypoxia, the concentrations of high-energy phosphate metabolites did not change, but intracellular and arterial blood pH (pHa) decreased significantly. When hyperoxia was reestablished, pHi returned to normal and pHa remained low. These results suggest that during periods of hypoxemia, the normotensive infant rabbit maintains intracellular concentrations of cerebral high-energy phosphates better than has been reported for adult animals.
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PMID:Effects of hypoxic hypoxia on cerebral phosphate metabolites and pH in the anesthetized infant rabbit. 405 24

For almost 10 years, numerous studies have shown that the pulmonary endothelium is endowed with a certain number of metabolic properties related to the uptake and hydrolysis of circulating vasoactive substances. Noradrenaline, serotonin, adenosine and possible certain prostaglandins are transported in the endothelial cells, according to processes which have now been clearly defined, and are there metabolised. Other compounds, including peptides (bradykinin, angiotensin I), or nucleotides (ATP, ADP, AMP) are hydrolysed in contact with the plasma membrane of the endothelium, without penetrating within the cell. For certain substrates (serotonin, angiotensin I), the properties of the pulmonary endothelial cell may be extended to systemic endothelial cells. For other substances, there would appear to be a specificity of endothelial function according to the site. It would appear that the lung, by virtue of its richness in endothelial cells, is capable of influencing concentrations of the circulating substances and, as a result, vascular tone. The existence of delicate processes of the uptake of substances has also been used to test the integrity of the cellular function of the pulmonary endothelium under experimental pathological condition, such as hyperoxia. However, before such a technique, based upon measurement os extraction of amines or other substances from various parts of the pulmonary circulation could be applied clinically, a critical consideration must be undertaken of the multiple factors involved in these processes. The major problem lies in the difficulty of distinguishing between dysfunction of the endothelial cells or a decrease in their number.
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PMID:[Measurement of pulmonary endothelial function; its potential clinical value]. 611 Dec 67


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