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)

Prolonged exposure to hyperoxia can result in significant lung injury and has been associated with the development of bronchopulmonary dysplasia. Leukotrienes (LT) recruit polymorphonuclear leukocytes (PMN) to the lung, increase vascular permeability, and have therefore been postulated to play a role in the pathogenesis of hyperoxic lung injury. This study investigates ICI 198,615 (ICI), an LTD4 and LTE4 receptor antagonist in preventing hyperoxic lung injury in newborn rabbits. Matched littermates of 7-day-old rabbits received ICI (0.1 or 1.0 microM/kg/h) or vehicle alone, were exposed to greater than 95% O2, and sacrificed after 48, 72, 84 and 96 h of exposure. Bronchoalveolar alveolar lavage fluid (BAL) of the left lung was analyzed for white cell count, differential, absolute number of PMNs, total protein, and cyclooxygenase products 6-keto-PGF1 alpha, and thromboxane B2. Lung water was quantified utilizing the right lung. Results demonstrated no significant differences between the ICI groups or between the ICI groups and controls. In conclusion, the administration of the LTD4 and LTE4 receptor antagonist ICI 198,615 was insufficient to reduce the formation of pulmonary edema, reduce mortality or attenuate hyperoxic lung injury. These experiments suggest that a number of other mediators may be involved in the hyperoxic lung injury process and that the functional inhibition of a portion of the arachidonic acid cascade was not sufficient to either prevent or attenuate hyperoxic lung injury in newborn rabbits.
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PMID:Evaluation of a leukotriene receptor antagonist in prevention of hyperoxic lung injury in newborn rabbits. 131 78

We tested the hypothesis that prior exposure to alveolar hyperoxia prevents the hypoxia-induced enhancement of bronchial reactivity, possibly via a cyclooxygenase-dependent mechanism. In 15 sheep, specific lung resistance (sRL) was measured before and after 30 min of exposure to either air or a hypoxic gas mixture (13% O2). The sheep then inhaled 50 breaths of aerosolized 5% histamine solution (n = 9) or 10 breaths of 2.5% carbachol solution (n = 9), and measurements of sRL were repeated. On subsequent days the above protocols were repeated after a 30-min exposure to hyperoxia (O2 greater than or equal to 95%), without or after pretreatment with indomethacin (2 mg/kg). After air-sham exposure, carbachol and histamine increased mean sRL to 370 +/- 40 (SE) and 309 +/- 65% of baseline, respectively. Exposure to the hypoxic gas mixture had no effect on baseline sRL but enhanced the airway responsiveness to carbachol and histamine; mean sRL increased to 740 +/- 104 and 544 +/- 76% of baseline, respectively (P less than 0.05). Prior 30-min exposure to hyperoxia prevented the hypoxia-induced enhancement of bronchial reactivity to carbachol (sRL = 416 +/- 66% of baseline) and histamine (sRL = 292 +/- 41% of baseline) without affecting the airway responsiveness to these agents after air. Pretreatment with indomethacin did not reverse the protective effects of hyperoxia or the hypoxia-induced enhancement of bronchial reactivity. We conclude that 1) prior exposure to alveolar hyperoxia prevents the hypoxia-induced enhancement of bronchial reactivity and 2) neither the protective effects of hyperoxia nor the hypoxia-induced enhancement of bronchial reactivity is mediated via a cyclooxygenase-dependent mechanism.
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PMID:Hyperoxia prevents hypoxia-induced bronchial hyperreactivity via a cyclooxygenase-independent mechanism. 190 58

Our objectives were 1) to describe the quantitative light microscopy and ultrastructure of newborn lamb lungs and 2) to correlate hemodynamic changes during normoxia and hypoxia with the morphology. By light microscopy, we measured the percent muscle thickness (%MT) and peripheral muscularization of pulmonary arteries and veins from 25 lambs aged less than 24 h, 2-4 days, 2 wk, and 1 mo. At the same ages, lungs were isolated and perfused in situ and, after cyclooxygenase blockade with indomethacin, total, arterial (delta Pa), middle (delta Pm), and venous pressure gradients at inspired O2 fractions of 0.28 (mild hyperoxia) and 0.04 (hypoxia) were determined with inflow-outflow occlusion. During mild hyperoxia, delta Pa and delta Pm fell significantly between 2-4 days and 2 wk, whereas during hypoxia, only delta Pm fell. The %MT of all arteries (less than 50 to greater than 1,000 microns diam) decreased, and peripheral muscularization of less than 100-microns-diam arteries fell between less than 4 days and greater than 2 wk. Our data suggest that 1) the %MT of arteries determines normoxic pulmonary vascular resistance, because only arterial and middle segment resistance fell, 2) peripheral muscularization is a major determinant of hypoxic pulmonary vasoconstriction, because we observed a fall with age in peripheral muscularization of less than 100-micron-diam arteries and in delta Pm with hypoxia, and 3) the arterial limit of the middle segment defined by inflow-outflow occlusion lies in 100- to 1,000-microns-diam arteries.
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PMID:Development of the pulmonary vasculature in newborn lambs: structure-function relationships. 203 91

Age-related changes in pulmonary formation of arachidonic acid (AA) metabolites are thought to play an important role in regulating cardiopulmonary function. This study addresses the potential role of reduced glutathione (GSH) in modulating cyclooxygenase product formation in the developing lung. Prostaglandin H2 (PGH2) metabolism was studied in microsomal fractions isolated from the lungs of unventilated fetal, neonatal and adult goats. GSH-dependent PGH2 to PGE2 isomerase activity in microsomal fractions from the perinatal (fetal and neonatal) goat lung was not saturable with respect to GSH and can respond to changes in GSH concentration over the range of 0.01 to 30 mM, which encompasses the full range the intracellular GSH levels reported in the literature. However, in fractions from the adult, a lower rate of PGE2 formation is observed at higher GSH concentrations. In addition, the tissue levels of GSH exhibited developmental stage-related differences with fetal being higher than neonatal or adult. The present observations may have physiologic relevance, in that decreases in pulmonary GSH levels after birth may contribute to decreases in plasma PGE2 levels by decreasing pulmonary PGE2 synthesis, thereby contributing to closure of the ductus arteriosus; conversely, increased GSH levels associated with hyperoxia may contribute to persistence of ductal patency. Formation of 6-keto-PGF1 alpha and of TXB2 (the stable metabolites of prostacyclin and TXA2) was decreased when PGE2 formation was increased by GSH activation of PGE2 isomerase in fractions isolated from all three developmental stages. A similar pattern of product formation was observed when AA was employed as substrate. These data suggest the possibility that changes in GSH concentration may modulate eicosanoid formation in cells that contain GSH-dependent PGE2 isomerase, as well as either or both prostacyclin or thromboxane synthase(s).
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PMID:Concentration-activity profile of the modulation of cyclooxygenase product formation by reduced glutathione in microsomal fractions from the goat lung. 211 78

Metabolites of arachidonic acid (AA) released into bronchoalveolar lavage fluid of animals exposed to hyperoxia have previously been implicated as mediators of pulmonary oxygen toxicity. The alveolar macrophage (AM) represents an important potential source of these eicosanoids. We have therefore investigated the effects of in vitro hyperoxia (95% O2/5% CO2) versus normoxia (95% air/5% CO2) on the metabolism of AA in the AM of the rat. Exposure to 95% O2 for up to 72 h did not impair the viability or affect the protein content of cultured AMs. Hyperoxia for 24 to 72 h increased the accumulation of free AA liberated from endogenous stores in cultures of resting AMs. Despite this increase in free AA, no changes in synthesis of thromboxane B2, prostaglandin (PG) E2, PGF2 alpha, leukotriene (LT) B4, or LTC4 were observed in resting AMs exposed to hyperoxia for up to 72 h. This was not due to degradation of eicosanoids in hyperoxia. However, formation of cyclooxygenase metabolites from exogenously supplied AA was reduced in hyperoxia-incubated AMs, suggesting that hyperoxia inhibited the cyclooxygenase enzyme. In AMs stimulated with calcium ionophore A23187, both AA release and synthesis of cyclooxygenase and lipoxygenase eicosanoids were augmented after incubation in hyperoxia for 24 to 72 h. The increase in A23187-stimulated LTB4 synthesis caused by hyperoxia was inhibited by the antioxidants catalase, superoxide dismutase, and the intracellular cysteine loading agent L-2-oxothiazolidine-4-carboxylic acid, suggesting that the augmentation by hyperoxia of A23187-induced AA metabolism was mediated by reactive oxygen metabolites. Thus, hyperoxia has complex effects on AA metabolism in the AM, which include the ability to augment the release of AA and formation of bioactive eicosanoids. These findings support a possible role for eicosanoid synthesis by the AM in the pathogenesis of oxygen toxicity of the lung.
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PMID:Complex effects of in vitro hyperoxia on alveolar macrophage arachidonic acid metabolism. 215 14

The effects of HCl infusion on multipoint mean pulmonary arterial pressure (PAP)/cardiac index (CI) plots in pentobarbital-anesthetized dogs whose lungs were ventilated alternately in hyperoxia (fraction of inspired O2 [FIO2], 0.4) and hypoxia (FIO2, 0.1) were investigated. Over the range of CI studied (1 to 5 l.min-1.m-2), hypoxia increased PAP in 22 dogs (responders) and did not affect PAP in 16 other dogs (nonresponders). In eight nonresponders, two repetitions of alternated 0.4 and 0.1 FIO2 exposures did not restore hypoxic pulmonary vasoconstriction (HPV), defined as a hypoxia-induced increase in PAP at a given flow. Intravenous infusion of 2 M HCl (2 mmol.kg-1.h-1) decreased arterial pH from normal to around 7.20 in eight responders and eight nonresponders. This metabolic acidosis increased PAP at all levels of CI in hyperoxia and in hypoxia in all the dogs, enhanced HPV in the responders, and restored HPV in the nonresponders. In eight responders, 2 M HCl infusion (2 mmol.kg-1.h-1) together with a 7% sodium bicarbonate infusion (adjusted to maintain arterial pH unchanged) did not affect hyperoxic or hypoxic PAP/CI plots. Pretreatment with 1 g acetylsalicylic acid iv (6 dogs) did not affect the pulmonary vasoreactivity to HCl-induced (2 M HCl, 2 mmol.kg-1.h-1) metabolic acidosis. It was concluded that in intact dogs: 1) metabolic acidosis enhances HPV; 2) at the given dose, HCl does not produce pulmonary vascular effects unrelated to the circulating blood pH; and 3) it is unlikely that the pulmonary vasoreactivity to metabolic acidosis is mediated by products of the cyclooxygenase pathway.
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PMID:Enhancement of hypoxic pulmonary vasoconstriction by metabolic acidosis in dogs. 216 53

Effects of ibuprofen (I), a cyclooxygenase inhibitor, and of nordihydroguaiaretic acid (NDGA), a lipoxygenase inhibitor, on bleomycin (B) and hyperoxia (H) induced acute lung damage and mortality were studied in hamsters. Hamsters, after receiving bleomycin, 0.25 unit, intratracheally were treated subcutaneously with vehicle (BHV group), ibuprofen, 10 mg/kg, (BHI group) or NDGA 10 mg/kg (BHNDGA group) and then exposed to 70% oxygen (O2) for 72 h. Daily treatment in each case continued for 14 days. The cumulative mortality at 0, 2, 4, 7, and 14 days after O2 exposure was as follows: 0, 5, 13, 26, and 50%, in BHV; 0, 10, 21, 33, and 67% in BHI; and 2, 21, 51, 71, and 92% in BHNDGA groups, respectively. The lung hydroxyproline content in pooled control hamsters averaged 721.1 +/- 22.3 (SE) micrograms/lung. The lung hydroxyproline content in animals in BHV, BHI, and BHNDGA groups was significantly increased at 4, 7, and 14 days after exposure when compared to controls. There were, however, no significant differences in the hydroxyproline content of the lungs among animals in BHV, BHI, and BHNDGA groups at any post-exposure time. Morphology of lungs of the BHV group showed an infiltrate of monocytes, lymphocytes, and some neutrophils (PMN) at 2 days but was composed primarily of monocytes and macrophages at 4, 7, and 14 days post-exposure. Multifocal fibrosis was observed at 7 days and was more diffuse by 14 days. Multifocal fibrosis in lungs from the BHI group was seen at 4 days with foci being larger at 7 and 14 days. Multifocal epithelial necrosis was observed at 14 days.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increases in severity of lung damage and mortality by treatment with cyclo and lipoxygenase inhibitors in bleomycin and hyperoxia model of lung injury in hamsters. 245 5

Deleterious pulmonary effects of hyperoxia are thought, in part, to be mediated by high-energy radicals and inflammatory reactions. It has been suggested that arachidonate metabolites, such as leukotrienes, may be responsible for the latter mechanism. We sought to demonstrate that concurrent exposure to hyperoxia and indomethacin, a potent inhibitor of cyclooxygenase, would increase pulmonary inflammation. A total of 50 female guinea pigs were treated as pairs with 95.6% oxygen or air and separately with 0.3 mg/kg of indomethacin or normal saline every 12 h for 3 days. A significant increase in leukocytes in bronchopulmonary lavage subsequent to combined oxygen and indomethacin treatment was observed when compared with either oxygen, indomethacin, or air treatments alone (p less than 0.05). Although oxygen treatment did alter pulmonary volume-pressure relations (p less than 0.05), hyperoxia alone or with concurrent indomethacin treatment did not alter elastance or histologic structures. These findings suggest that pulmonary inflammation in response to hyperoxia may be augmented by indomethacin. We speculate that increased lipoxygenase products of arachidonate metabolism may be partially responsible for these changes.
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PMID:Pulmonary oxygen toxicity in the guinea pig. Effect of indomethacin. 271 57

This study investigated the response of bovine pulmonary artery endothelial cells to incubation in hyperoxia (95% O2-5% CO2). Changes in cell number and morphology, release of lactate dehydrogenase, and production of arachidonic acid metabolites were assessed during continuous exposure of confluent endothelial monolayers to air (air-5% CO2, "controls") or O2 (95% O2-5% CO2, "O2-exposed") for periods of 12-72 h. Control monolayer cell numbers remained constant (approximately 2,000,000 cells/flask), whereas the number of cells in O2-exposed monolayers decreased progressively to 30% of controls (P less than 0.01) by 72 h. As assessed by radioimmunoassay, both control and O2-exposed cells produced the prostacyclin metabolite, 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha), and prostaglandin F2 alpha (PGF2 alpha), but no thromboxane metabolite (TxB2) was detected. The O2-exposed cells released significantly more 6-keto-PGF1 alpha and PGF2 alpha than control cells when apparent net production rates over the entire 72-h period were compared. In addition, both control and O2-exposed (48 h) endothelial monolayers released immunoreactive leukotriene B4 (LTB4) on stimulation with calcium ionophore (10 microM A23187). As with the cyclooxygenase products, O2-exposed cells released more immunoreactive LTB4 than did controls. Both cyclooxygenase and lipoxygenase metabolites of arachidonic acid are released by cultured endothelial cells during the development of O2 toxicity.
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PMID:Production of arachidonic acid metabolites by endothelial cells in hyperoxia. 301 13

The acute phase of oxygen-induced retinopathy is associated with vasoconstriction and occlusion of the retinal vessels. Because this acute vasoobliterative phase could be due to the inhibition in retinal vessels of the production of the potent vasodilator and antithrombotic metabolite prostacyclin, animal experiments were performed to assess this possibility. Eight litters of 27 kittens (four to six days of age) were used. Control kittens were left in room air; hyperoxic kittens were placed in 80% oxygen for 48 hours; recovery kittens were returned to room air for 24 hours following hyperoxic exposure. Following treatments, the animals were killed, retinas isolated, and prostaglandin formation assessed. Retinal tissues produced 6-keto-prostaglandin F1 alpha, prostaglandin F2 alpha, prostaglandin E2, and thromboxane B2 from exogenous arachidonate. A significant (approximately 33%) reduction in retinal 6-keto-prostaglandin F1 alpha (the end product of prostacyclin) was observed both in the hyperoxic and recovery litter mates when compared with controls. Both of the experimental groups also demonstrated a reduction in total retinal prostanoids that paralleled the changes observed in prostacyclin, suggesting that the biochemical effect of hyperoxia on retinal vascular arachidonic acid metabolism occurred at the level of cyclooxygenase. A decrease in the local production of prostacyclin during hyperoxia is consistent with the histologic retinal changes observed during the acute phase of oxygen-induced retinopathy.
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PMID:Changes in oxygen tension and effects on cyclooxygenase metabolites: III. Decrease of retinal prostacyclin in kittens exposed to hyperoxia. 313 33


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