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

Intracellular glutathione was increased by 80% after exposure of bovine pulmonary arterial endothelial cells to 80% O2 (hyperoxia) for 24 h. No change in glutathione occurred in cells exposed to hypoxia (3% O2) for a corresponding period of time. The rate of uptake of [3H]glutamic acid also increased by 35-55% after 24 h of exposure of cells to hyperoxia, whereas exposure to hypoxia had no effect on the [3H]glutamic acid uptake. The increase in glutamic acid uptake reflected a specific effect on amino acid transport systems rather than a change in cell membrane permeability. The major portion of the increased uptake was inhibited by the elimination of sodium and the addition of the competitive inhibitor, cystine, to the incubation medium. Thus increases in glutamic acid uptake parallel increases in cellular glutathione, and glutamic acid may be a regulating factor in the increase in glutathione after exposure to hyperoxia.
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PMID:Effect of hyperoxia on glutathione levels and glutamic acid uptake in endothelial cells. 289 77

We investigated the effects of surgical peripheral chemoreceptor denervation, chemical sympathectomy with 6-hydroxydopamine (6-OHDA), and the peripheral chemoreceptor stimulant almitrine on multipoint pulmonary arterial pressure-cardiac index (PAP/Q) plots in 30 pentobarbital sodium-anesthetized dogs ventilated alternatively in hyperoxia [fraction of inspired O2, (FIO2) = 0.4] and hypoxia (FIO2 = 0.1). A hypoxic pulmonary vasoconstriction (HPV), i.e., a hypoxia-induced increase in PAP over the entire range of Q studied, from 2 to 5 l.min-1.m-2, was elicited in all the animals. Surgical denervation of the carotid and aortic chemoreceptors in a first group of nine dogs increased PAP at the lowest Q of 2 and 3 l.min-1.min-2 in hyperoxia and increased PAP at all levels of Q in hypoxia, so that HPV was enhanced. Chemical sympathectomy in a second group of eight dogs increased PAP at all levels of Q to a comparable extent in hyperoxia and hypoxia so that HPV remained unchanged. Almitrine (8 micrograms.kg-1.min-1 iv) in a third group of eight dogs increased PAP at all levels of Q in hyperoxia but had no effect on PAP/Q plots in hypoxia, so that HPV was inhibited. Almitrine had these same pulmonary vascular effects when administered to the chemodenervated and the sympathectomized dogs. Sham operation and a 2-h delay in a final group of five dogs had no effect on hyperoxic or hypoxic PAP/Q plots. We conclude that in intact dogs 1) the sympathetic nervous system reduces both hyperoxic and hypoxic pulmonary vascular tone, 2) stimulation of the peripheral chemoreceptors inhibits HPV, and 3) almitrine has direct pulmonary vasoconstricting effects in hyperoxia but not hypoxia.
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PMID:Pulmonary vascular responses to surgical chemodenervation and chemical sympathectomy in dogs. 291 46

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

The effects of normobaric hyperoxia on carotid body chemosensory function in the cat were studied. The hypothesis was that carotid body chemosensory function would be affected by chronic exposure to 100% O2 at sea level. It was based on the assumptions that carotid body tissue is exposed to high PO2 because of its high blood flow and that its O2 chemosensing mechanism is sensitive to O2 radical-induced reactions. Twelve cats were exposed to 100% O2 for 60-67 h, and 10 control cats were maintained in room air at sea level. They were anesthetized with pentobarbital sodium (Nembutal), and chemosensory afferents from a cut carotid sinus nerve were isolated and identified. The responses of single or a few clearly identifiable chemoreceptor afferents to isocapnic hypoxia and hypercapnia during hyperoxia and to the bolus injections of cyanide, nicotine, and dopamine were studied. We found that chronic hyperoxia severely blunted or eliminated the O2-sensitive response of the carotid chemoreceptors while augmenting the hypercapnic response. The response to cyanide but not to nicotine and dopamine were attenuated. Thus the hypoxic and hypercapnic responses that normally interact were separable. The lack of the cyanide response was consistent with the lack of the hypoxic response, suggesting a possible shared mechanism of carotid chemoreceptor response. Qualitatively normal responses to dopamine and nicotine indicated that the respective receptors were relatively intact after chronic exposure to hyperoxia and that the sensory nerves themselves were not affected by the prolonged O2 exposure.
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PMID:Carotid body chemosensory function in prolonged normobaric hyperoxia in the cat. 311 Jan 24

We investigated the effects of nitroprusside and isoflurane on multipoint pulmonary arterial pressure (PAP)/cardiac index (Q) plots in pentobarbital sodium-anesthetized dogs ventilated alternatively in hyperoxia (fraction of inspired O2, FIO2, 0.4) and hypoxia (FIO2 0.1). Over the entire range of Q studied, 2-5 l.min-1.m-2, hypoxia increased PAP in 16 dogs ("responders") and did not affect PAP in 16 other dogs ("nonresponders"). A hypoxic pulmonary vasoconstriction (HPV) was restored in the nonresponders by intravenous administration of 1 g of acetylsalicylic acid (ASA). Nitroprusside (5 micrograms.kg-1.min-1) inhibited HPV in responders (n = 8) and nonresponders treated with ASA (n = 8). End-tidal 1.41% isoflurane (a minimal alveolar concentration equal to one for dogs) did not affect HPV in responders (n = 8) and nonresponders treated with ASA (n = 8). In the latter group isoflurane increased PAP at the highest Q studied (3-5 l.min-1.m-2) in hyperoxia and hypoxia. In a final group of eight dogs with Q kept constant, PAP remained unchanged during two consecutive sequences of alternated 30-min periods (maximum time to generate a PAP/Q plot) successively at FIO2 0.4 and 0.1, and the hypoxia-induced increase in PAP was reproducible. Thus the present experimental model appeared suitable for the study of the effects of hypoxia and drugs on pulmonary vascular tone of intact dogs. At the given doses HPV was inhibited by nitroprusside and not affected by isoflurane. Products of arachidonic acid metabolism possibly could be implicated in the pulmonary vascular effects of isoflurane.
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PMID:Pulmonary arterial pressure-flow plots in dogs: effects of isoflurane and nitroprusside. 311 56

Hypercapnia attenuates the effects of static airway pressure (Paw) on phrenic burst frequency (f) and the expiratory duration (TE) in chloralose-urethan-anesthetized dogs. Surgical removal of the carotid bodies abolishes this interaction. Since halothane anesthesia in hyperoxia greatly impairs peripheral chemoreflexes, experiments were conducted to determine whether hypercapnia would attenuate the effects of Paw on f and TE in halothane-anesthetized dogs (approximately 1.5 minimum alveolar concentration). Integrated activity of the phrenic nerve was monitored as a function of Paw (2-12 cmH2O) in a vascularly isolated left lung at varied levels of arterial PCO2 (PaCO2; 38-80 Torr) controlled by inspired gas concentrations ventilating the denervated but perfused right lung. Halothane was administered only to the right lung. The results were as follows: 1) integrated phrenic amplitude increased with PaCO2 but was unaffected by Paw; 2) f decreased as Paw increased but was not affected by PaCO2; 3) the inspiratory duration (TI) increased as PaCO2 increased but was unaffected by Paw; 4) TE increased as Paw increased but was unaffected by PaCO2; and 5) there was no phrenic response to intravenous sodium cyanide (50-100 micrograms/kg). Thus, unlike chloralose-urethan-anesthetized dogs, hypercapnia does not attenuate the effect of lung inflation on f or TE in halothane-anesthetized dogs. Furthermore, hypercapnia increases TI during halothane anesthesia, an effect found after carotid denervation but not found in intact chloralose-urethan-anesthetized dogs. It is suggested that these differences between chloralose-urethan- and halothane-anesthetized dogs may be due to functional carotid chemoreceptor denervation by halothane.
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PMID:Ventilatory responses to lung inflation and arterial CO2 in halothane-anesthetized dogs. 313 47

This study evaluated the effect of hyperoxia on the pharmacokinetic function of the lung. Hyperoxia is known to disrupt the activities of the pulmonary prostaglandin dehydrogenase/reductase and angiotensin converting enzymes. This would be predicted to alter the activation/deactivation of prostaglandins or angiotensin. The ability of these enzyme systems to act upon these compounds was evaluated by measuring the changes in the peripheral vascular responses to exogenous prostaglandin and angiotensin. Two groups of conscious, chronically catheterized rabbits, one exposed to ambient air and the other to greater than 98% oxygen, were given bolus injections of angiotensin I, angiotensin II, prostaglandin E2, sodium nitroprusside, and phenylephrine before and during up to 88 h of air or oxygen exposure. The hyperoxic animals' responsiveness to angiotensin I and angiotensin II decreased by 47% and 55%, respectively, after 72 h of oxygen exposure. The hyperoxic animals demonstrated a 54% increase in the vasodilatory response to arterial prostaglandin E2. Normoxic rabbits demonstrated no changes in response to any of the compounds tested. These data indicate that chronic hyperoxia influences either the synthesis/degradation and/or vascular receptors to both angiotensin I and II and prostaglandins.
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PMID:Effects of chronic hyperoxia on the cardiovascular responses to vasoactive compounds in the rabbit. 316 78

Marked damage to the endothelium is associated with the pulmonary hypertension that develops during in vivo exposure to hyperoxia at normobaric pressures. We hypothesized that endothelial cell damage may contribute to initial increases in vascular tone during the development of hypertension by altering the metabolism of vasoactive compounds and/or modulating vessel responses to those agents that require an intact endothelium for their actions. This study reports the effects of in vivo hyperoxic damage to the lung on the pharmacologic properties of isolated pulmonary vessels. Proximal pulmonary arteries isolated from adult and weanling rats that breathed 85% O2 for 7 days were studied using myograph techniques. Isometric tension development was recorded in response to the cumulative addition of prostaglandin F2 alpha (PGF2 alpha) and the ability of acetylcholine (ACh) to relax precontracted vessels was subsequently assessed. Sensitivities to PGF2 alpha were increased in both adult and weanling hyperoxic vessels relative to control. Conversely, relaxation to acetylcholine was reduced following hyperoxic injury. Control vessels relaxed completely to acetylcholine addition, while only a 30% relaxation was recorded in adult hyperoxic arteries and a 50% relaxation was measured in weanling hyperoxic tissues. This effect on vasodilation was specific for the endothelium-dependent dilator ACh. By contrast, relaxation responses to sodium nitroprusside and papaverine, endothelium-independent agonists, were unaffected following hyperoxic injury. These results demonstrate that in vivo exposure to high O2 concentrations increases the sensitivity of isolated pulmonary arteries to the vasoconstrictor PGF2 alpha and markedly diminishes the ability of ACh to relax precontracted pulmonary vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacologic properties of isolated proximal pulmonary arteries after seven-day exposure to in vivo hyperoxia. 320 69

Plasma membrane vesicles were prepared from porcine pulmonary artery endothelial cells by a dextran-polyethylene glycol two-phase system. Specific carrier-mediated transport of 5-hydroxytryptamine (5-HT) into the vesicles was examined. Transport required a Na+ gradient (out greater than in) across the membrane, and accumulated 5-HT rapidly effluxed out of the vesicles when the ionophore gramicidin was added. Transport was inhibited by the antidepressant imipramine. 5-HT transport into plasma membrane vesicles appeared saturable and exhibited Michaelis-Menten kinetics (Km 7.4 microM, maximal velocity 217 pmol.min-1.mg membrane protein-1). A 24-h exposure to 95% O2 at 1 atmosphere absolute resulted in a 21% decrease (P less than 0.05) in specific 5-HT transport by plasma membrane vesicles. Hyperoxia also caused a significant (P less than 0.01) decrease in plasma membrane fluidity, as measured with the fluorescence probe 1,6-diphenyl-1,3,5-hexatriene. These results indicate that pulmonary artery endothelial cell plasma membrane vesicles provide a good model for studying 5-HT transport activity in vitro. Hyperoxia affects plasma membrane fluidity and 5-HT transport in pulmonary artery endothelial cells, suggesting a possible cause-and-effect relationship between the two.
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PMID:Serotonin transport and fluidity in plasma membrane vesicles: effect of hyperoxia. 337 69

The effects of cytochrome P-450 inducers on O2 toxicity were studied in mice. We first examined three cytochrome P-450 inducers, which differ by their specific tissue affinity: phenobarbital sodium (PB), essentially active in the liver, and 3-methylcholanthrene (3-MC) and beta-naphthoflavone (BNF), which are also active in the lung. Both BNF and 3-MC increased the survival rate and significantly decreased pulmonary edema (pulmonary water and wet-to-dry weight ratio) in C57BL/6J mice exposed to hyperoxia (O2 greater than or equal to 95%), whereas PB had no protective effect. In the second part of this study, we compared the action of BNF in two strains of mice. In one (C57BL/6J), cytochrome P-450 can be induced by aromatic hydrocarbons, whereas in the other (DBA/2J) cytochrome P-450 is not inducible by these compounds. Protection against O2 toxicity was assessed in terms of lethality and pulmonary edema and of lung lipid peroxidation (assessed by measuring malondialdehyde). BNF only protected against O2 toxicity in the inducible strain. This protective effect of BNF on O2 toxicity in C57BL/6J mice was associated mainly with a large increase in the components of the cytochrome P-450 system (cytochrome P-450 and cytochrome b5) in the lung. The activity of pulmonary superoxide dismutase was also slightly increased, but the enhancement was not statistically significant. In contrast, in DBA/2J mice neither the components of the cytochrome P-450 system nor the activity of superoxide dismutase showed any increase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic differences in response to pulmonary cytochrome P-450 inducers and oxygen toxicity. 337 72


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