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)

Hypoxia decreases plasma aldosterone in vivo without a decrease in PRA, angiotensin II (ANG II), ACTH, or cortisol. The present study evaluated whether this could be due to a direct, specific inhibitory effect on the zona glomerulosa related to the magnitude of the decrease in oxygen (O2). Bovine adrenocortical cells were dispersed with collagenase and studied in vitro within 48 h. Cells were stimulated for 2 h with ANG II (0.1-1000 nM) or (Bu)2cAMP (0.3-3 mM) under oxygen levels ranging from 0 to 100% O2 (PO2 from 66 +/- 4 to 561 +/- 46 torr) vs. a reference gas mixture (21% O2 PO2 approximately 140 torr). Exposure to 123 +/- 8, 110 +/- 12, 100 +/- 16, and 66 +/- 4 torr led to 27%, 30%, 40% and 70% inhibition, respectively, of 3 nM ANG II-stimulated aldosterone secretion as compared to 140 +/- 16 torr (reference). Exposure to hyperoxia (288 +/- 36 to 561 +/- 46 torr) led to a small (10%) increase in ANG II-stimulated aldosterone secretion which was not statistically significant. The P50 (half-maximal PO2) for aldosteronogenesis was approximately 95 torr. The results for other doses of ANG II and for cAMP were similar. The inhibitory effect of low O2 was reversed by returning the cells to reference conditions (140 +/- 16 torr). Cortisol secretion was not significantly affected by changes in oxygen tension. We conclude that small changes in O2 within the physiological range directly and specifically inhibit aldosteronogenesis in a dose-dependent manner with a P50 of approximately 95 torr. Inhibition of cAMP-stimulated aldosterone secretion suggests a postreceptor site of action. This direct, reversible, and specific effect on the zona glomerulosa of the adrenal cortex may account for the dissociation of renin and aldosterone during hypoxia in vivo.
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PMID:The effect of oxygen on aldosterone release from bovine adrenocortical cells in vitro: PO2 versus steroidogenesis. 216 17

The contractile effects of 19 factors on isolated human arterial segments at term pregnancy were quantified, and 14 contractile agents were similarly applied to preterm (23 to 35 weeks) umbilical arteries. Responses to potassium chloride were used to normalize the data. At comparison with the term vessel, the preterm artery contracted more to angiotensin II and arachidonic acid and was more sensitive to oxytocin. Contractions were greater in term arteries to vasopressin, norepinephrine, prostaglandin D2, and prostaglandin E2 but similar in both group of arteries to bradykinin, histamine, acetylcholine, and prostaglandin F2 alpha. Neuropeptide Y, linoleic acid, uridine triphosphate, and thrombin were ineffective. Hyperoxia inconsistently induced weak, short-lived contractions. Contractions to cooling manifested marked desensitization and tachyphylaxis. Serotonin was the only agonist that displayed the pharmacodynamic features most likely to be important for closure: potency, efficacy, and long duration of action (greater than 2.5 hours). It was postulated that cellular elements surrounding umbilical vessels are primary sources of vasoactive agents that are important to closure of the fetoplacental circulation at birth.
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PMID:Pharmacodynamic study of maturation and closure of human umbilical arteries. 291 87

Recent work with isolated blood vessels has emphasized the importance of intact endothelium when the relaxation of vascular smooth muscle is induced by acetylcholine (ACh). However, the physiologic significance of this endothelial-dependent ACh response in a complete organ circulation is unclear. We questioned whether diminished ACh vasodilation would result from damage of lung vascular endothelium and whether this response could be used as an indication of endothelial injury. We therefore induced pulmonary endothelial cell injury in one rat model by repeated injections of alpha-naphthyl thiourea (ANTU) and in a second rat model by exposing rats for 52 h to 100% oxygen at a barometric pressure of 760 torr (hyperoxia). Rats injected with Tween 80, the solvent for ANTU, or exposed to ambient Denver air served as the respective control animals. The isolated lungs of these rats were perfused with a recirculating cell- and plasma-free, physiological salt solution to study the effect of ACh or NaCl infusion on pulmonary perfusion pressure and vascular responsiveness. ANTU-treated rats demonstrated an intact vasodilatory response after ACh infusion when compared with the solvent control animals. The immediate pulmonary vasodilation after ACh infusion was slightly enhanced in the hyperoxic rat lung when compared with the rats exposed to ambient air, but there was no difference between these groups in the prolonged depression of vascular responsiveness to hypoxia or angiotensin II. Thus, in both models of lung endothelial cell injury, the pulmonary vascular responses to ACh were intact.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acetylcholine-induced pulmonary vasodilation in lung vascular injury. 300 69

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

Breathing 87% O2 for 7 days causes pulmonary vascular remodeling and pulmonary hypertension in the rat. In the isolated perfused lung of the normal and O2-exposed rat, change in pre- and postcapillary resistance was determined in response to challenge with angiotensin II (ANG II; 5, 25, and 50 micrograms) or histamine (0.5 and 1.0 microgram). In the hyperoxic lung both pre- and postcapillary resistance were increased at base line, although the latter less consistently so. In response to each agent precapillary resistance increased more than postcapillary resistance in the hyperoxic lung. In the normal lung pre- and postcapillary reactivity to histamine were similar but the latter was the greater in response to ANG II. In the hyperoxic lung only the pre- and postcapillary response to the first challenge of ANG II (5 micrograms) was greater than normal. The magnitude of the precapillary response was not related to the level of base-line resistance, and this response was significantly increased in a small number of hyperoxic lungs with base-line resistance in the normal range. Tachyphylaxis occurred after the first dose of ANG II. In the hyperoxic lung only the precapillary response to 0.5 micrograms histamine was greater than normal. We conclude that exposure to hyperoxia for 7 days causes an increase in pulmonary arterial reactivity. Furthermore, the alteration in reactivity is not caused by vascular restriction. We hypothesize that it is attributable to peripheral extension of smooth muscle in alveolar wall arteries.
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PMID:Pulmonary vascular reactivity in hyperoxic pulmonary hypertension in the rat. 321 63

Prostanoid formation in human umbilical vessels perfused in vitro was assessed at different oxygen tensions. At an atmosphere of 5% oxygen the production rate of prostacyclin (measured as 6-keto-PGF1 alpha) was higher, while those of thromboxane A2 (measured as TXB2), PGE2 and PGF2 alpha were lower than with 20%, 50% and 95% oxygen. The stimulatory effect of angiotensin II on prostanoid production was found to be independent on the prevailing oxygen tension. Vascular formation of prostanoids thus seems to be at least partially affected by the ambient oxygen tension. Though altered oxygen tension does not seem to affect angiotensin induced prostanoid formation, the action of other vasoactive agents influencing vascular formation of prostanoids may respond differently to hypoxia or hyperoxia.
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PMID:Altered prostanoid formation in human umbilical vasculature in response to variations in oxygen tension. 343 54

Hyperoxia has been shown to disrupt certain membrane bound enzyme systems within the pulmonary endothelium which are responsible for the metabolism of several endogenous vasoactive compounds. This study was to evaluate whether the potential disruption of the prostaglandin dehydrogenase/reductase and angiotensin converting enzymes, as a consequence of hyperoxia, would alter the activation/deactivation of prostaglandins or the angiotensins (I and II) and thereby alter their peripheral cardiovascular actions. Two groups of anesthetized dogs, one group ventilated with ambient air and the other with 100% oxygen, were given bolus injections of angiotensin I, angiotensin II, prostaglandin E2, sodium nitroprusside, and phenylephrine before and during 8 h of exposure to air or oxygen. The hyperoxic animals demonstrated a significant increase in mean arterial pressure responsiveness to both angiotensin I and angiotensin II. The responsiveness to the drugs increased by 41% for angiotensin I and 43% for angiotensin II. The ambient air control dogs showed no significant changes for any compounds tested. These data indicate that with 8 h of hyperoxia the renin-angiotensin system's ability to influence cardiovascular function is augmented, whereas, the hemodynamic effects of prostaglandins are unaltered.
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PMID:Effects of 100 percent oxygen on the cardiovascular responses to vasoactive compounds in the dog. 386 38

1. The effects of moderate degrees of hypercapnia in hypoxia and in hyperoxia on the baroreceptor-cardiodepressor reflex have been studied in nine normal men.2. The beat-by-beat relation between pulse interval (I) and systolic pressure (P) during transient elevations of arterial pressure induced by intravenous injections of angiotensin II and phenylephrine was used to assess the sensitivity (DeltaI/DeltaP) and setting (I at a single reference arterial pressure) of the reflex.3. There was no consistent change in reflex sensitivity in any of the conditions studied.4. In hyperoxia (P(A, O2) approximately 200 torr) hypercapnia was associated with significant re-setting of the reflex in the direction of tachycardia. The extent of the re-setting was correlated with the degree of hypercapnia and with the accompanying increase in breathing.5. When hyperoxia with hypercapnia was replaced by hypoxia (P(A, O2) approximately 55 torr) with hypercapnia (which causes substantial arterial chemoreceptor activity), pulse interval at constant arterial pressure was further decreased.6. The tachycardia of hypoxia could not be accounted for by change of arterial pressure, P(A, CO2) or pulmonary ventilation, since it was most clearly demonstrable at constant values of pressure and either P(A, CO2) or ventilation.
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PMID:The effects of hypercapnia, hypoxia and ventilation on the baroreflex regulation of the pulse interval. 432 95

To determine the effects of high oxygen (O2) tension on pulmonary vascular reactivity, we exposed rats either to 100% O2 for 48 hours or 40% O2 for 3 to 5 weeks. Lungs from all rats were isolated, blood perfused and ventilated, and pressor responses to airway hypoxia and to infused angiotensin II were measured. We found that chronic subtoxic hyperoxia did not augment subsequent hypoxic vasoconstriction, and that 48 hrs of 100% O2 markedly blunted hypoxic vasoconstriction. Meclofenamate restored hypoxic vasoconstriction to control levels in the lungs with blunted responses. Evidence for O2 toxicity in the lungs exposed to 100% O2 included interstitial swelling with alveolar exudates seen by light microscopy, and lung edema by water content calculations. We conclude that 1) chronic subtoxic hyperoxia does not influence subsequent hypoxic vasoconstriction, and 2) a dilator prostaglandin produced in the lung is a potent inhibitor of hypoxic vasoconstriction in O2 toxic lungs.
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PMID:Blunted pulmonary pressor responses to hypoxia in blood perfused, ventilated lungs isolated from oxygen toxic rats: possible role of prostaglandins. 729 93

To determine if angiotension converting enzyme activity is altered by acute pathophysiological insults, we assessed angiotensin I conversion using a blood pressure response technique in anesthetized dogs studied during acute 100% O2 breathing and acute acid-base derangements. Also, we determined systemic vascular reactivity to angiotensin II by measuring the magnitude and duration of the arterial blood pressure response to intra-arterial injections of angiotensin II under these same conditions. Angiotensin I conversion found in normoxia [91 +/- 7 (SD)%] was unchanged by acute acidosis, alkalosis, and hyperoxia. During acute hyperoxia the mean half time of the hypertensive response increased from 68 +/- 25 (SD) s at a PaO2 of 112 +/- 18 (SD) Torr to 100 +/- 34 (SD) s at a PaO2 of 491 +/- 47 (SD) Torr (P less than 0.01). No other pathophysiological condition studied had any effect on reactivity of systemic vasculature to angiotensin II. We conclude that, except during acute hypoxia as previously shown, converting enzyme activity is resistant to other pathophysiological insults and that vascular responsiveness to angiotensin II is enhanced by hyperoxia.
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PMID:Angiotensin I conversion and vascular reactivity in pathophysiological states in dogs. 736 17


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