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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hyperoxic lung injury is an unfortunate consequence of ventilatory oxygen therapy that is necessary to sustain life in certain clinical situations. The biochemical events that accompany
hyperoxia
of the lung, and the molecular mechanisms underlying these events, are incompletely understood. To better understand hyperoxic lung injury, our laboratory has cloned a set of genes corresponding to mRNAs that increase in abundance in the lungs of hyperoxic rabbits. In this report, we focus on three
hyperoxia
-induced cDNA clones, which encode surfactant
apoprotein
A (SP-A), the tissue inhibitor of metalloproteinases (TIMP), and metallothionein. In situ hybridizations and RNA dot blots of isolated lung cell populations indicate that the abundance of mRNA encoding all three proteins is increased by
hyperoxia
in specific cell types. SP-A mRNA increases in type II alveolar epithelial cells and in bronchiolar epithelial cells. TIMP mRNA increases in interstitial fibroblasts, in chondrocytes of the cartilage surrounding airways, and in endothelial cells of a specific subset of vessels, probably venules. Metallothionein transcripts also increase in chondrocytes and pulmonary fibroblasts. A comparison of the increase in these mRNAs during hyperoxic exposure in adults and newborns indicates that adults respond faster and to a greater extent than newborns and suggests that the rate and extent of these increases is correlated with the time course and severity of the injury.
...
PMID:Cell-specific alterations in expression of hyperoxia-induced mRNAs of lung. 195 78
We have examined the effect of dexamethasone on the metabolism of pulmonary surfactant in normal and
hyperoxia
-treated rats. The relative abundance of the surfactant-specific
apoprotein
A (SP-A) mRNA in lung tissues and the contents of disaturated phosphatidylcholine (DSPC) and SP-A were measured in bronchoalveolar lavage fluids and in lung tissues in 4-wk-old rats exposed to room air or greater than 90% oxygen for 7 d with or without simultaneous treatment with dexamethasone (0.5 mg/kg body wt for 7 d). The relative abundance of the SP-A mRNA was marginally increased by
hyperoxia
(1.3-fold over controls). Dexamethasone increased the relative abundance of the SP-A mRNA to a level comparable to that with
hyperoxia
treatment (1.5-fold over controls). In lavage fluids, the contents of DSPC and SP-A were increased by 4- and 6-fold over controls by
hyperoxia
, respectively, but they were increased only by 2-fold by dexamethasone. In lung tissues, the contents of DSPC and SP-A were increased by 3- and 2-fold over controls by
hyperoxia
, respectively. These values in lung tissues in the air-exposed rats were not significantly increased by dexamethasone. In
hyperoxia
-treated rats, dexamethasone did not significantly affect the relative abundance of the SP-A mRNA level and the contents of DSPC and SP-A in lavage fluids and lung tissues. These results indicate that mechanisms other than increased synthesis of SP-A are involved in
hyperoxia
-induced SP-A accumulation and that dexamethasone does not affect the abnormal accumulation of pulmonary surfactant induced by
hyperoxia
.
...
PMID:Effect of dexamethasone on pulmonary surfactant metabolism in hyperoxia-treated rat lungs. 201 54
In this investigation, we tested the hypothesis that the cytochrome P-450 (CYP) inhibitor 1-aminobenzotriazole (ABT) alters the susceptibility of rats to hyperoxic lung injury. Male Sprague-Dawley rats were treated i.p. with ABT (66 mg/kg), i.v. with N-benzyl-1-aminobenzotriazole (1 micromol/kg), or the respective vehicles, followed by exposure to >95% oxygen for 24, 48, or 60 h. Pleural effusion volumes were measured as estimates of hyperoxic lung injury, and lung microsomal ethoxyresorufin O-deethylation (EROD) (CYP1A1) activities and CYP1A1
apoprotein
levels were determined by Western blotting. ABT-pretreated animals exposed to
hyperoxia
died between 48 and 60 h, whereas no deaths were observed with up to 60 h of
hyperoxia
in vehicle-treated animals. In addition, three of four ABT-treated rats exposed to
hyperoxia
for 48 h showed marked pleural effusions. Exposure of vehicle-treated rats to
hyperoxia
led to 6.3-fold greater lung EROD activities and greater CYP1A1
apoprotein
levels than in air-breathing controls after 48 h, but both declined to control levels by 60 h. Liver CYP1A1/1A2 enzymes displayed responses to
hyperoxia
and ABT similar to the effects on lung CYP1A1. N-Benzyl-1-aminobenzotriazole markedly inhibited lung microsomal pentoxyresorufin O-depentylation (principally CYP2B1) activities in air-breathing and hyperoxic animals but did not affect lung EROD or liver CYP activities. In conclusion, the results suggest that induction of CYP1A enzymes may serve as an adaptive response to
hyperoxia
, and that CYP2B1, the major pulmonary CYP isoform, does not contribute significantly to hyperoxic lung injury.
...
PMID:Potentiation of oxygen-induced lung injury in rats by the mechanism-based cytochrome P-450 inhibitor, 1-aminobenzotriazole. 1064 Feb 92
Supplemental oxygen, used to treat pulmonary insufficiency in newborns, contributes to the development of bronchopulmonary dysplasia (BPD). Cytochrome P4501A enzymes are induced by
hyperoxia
in animal models, but their role in human systems is unknown. Here we investigated the molecular mechanisms of induction of CYP1A1 by
hyperoxia
in human lung cell lines. Three human lung cell lines were exposed to
hyperoxia
(95% O2) for 0-72 h, and CYP1A1 activities,
apoprotein
contents, and mRNA levels were determined.
Hyperoxia
significantly induced CYP1A1 activity and protein contents (2-4 fold), and mRNA levels (30-40 fold) over control in each cell line. Transfection of a CYP1A1 promoter/luciferase reporter construct, followed by
hyperoxia
(4-72 h), showed marked (2-6 fold) induction of luciferase expression. EMSA and siRNA experiments strongly suggest that the Ah receptor (AHR) is involved in the hyperoxic induction of CYP1A1. MTT reduction assays showed attenuation of cell injury with the CYP1A1 inducer beta-naphthoflavone (BNF). Our results strongly suggest that
hyperoxia
transcriptionally activates CYP1A1 expression in human lung cell lines by AHR-dependent mechanisms, and that CYP1A1 induction is associated with decreased toxicity. This novel finding of induction of CYP1A1 in the absence of exogenous AHR ligands could lead to novel interventions in the treatment of BPD.
...
PMID:Regulation of cytochrome P4501A1 expression by hyperoxia in human lung cell lines: Implications for hyperoxic lung injury. 1882 9
Sex-specific differences in pulmonary morbidity in adults and preterm infants are well documented.
Hyperoxia
contributes to lung injury in experimental animals and humans. Cytochrome P450 (CYP) 1A enzymes have been shown to play a mechanistic role in hyperoxic lung injury (HLI) in animal models. Whether CYP1A enzymes contribute to gender-specific differences in relation to HLI is unknown. In this investigation, we tested the hypothesis that mice will display gender-specific differences in HLI, and that this phenomenon will be altered in mice lacking the genes for Cyp1a1 or 1a2. Eight week-old male and female wild type (WT) (C57BL/6J) mice, Cyp1a1-/-, and Cyp1a2-/- mice were exposed to 72h of
hyperoxia
(FiO2>0.95). Lung injury and inflammation were assessed and pulmonary and hepatic CYP1A1 and CYP1A2 levels were quantified at the enzyme activity, protein and mRNA level. Upon exposure to
hyperoxia
, liver and lung microsomal proteins showed higher pulmonary CYP1A1 (
apoprotein
level and activity) in WT females compared to WT males and a greater induction in hepatic CYP1A2 mRNA levels and activity in WT females after
hyperoxia
exposure. The gender based female advantage was lost or reversed in Cyp1a1-/- and Cyp1a2-/- mice. These findings suggest an important role for CYP1A enzymes in the gender-specific modulation of hyperoxic lung injury.
...
PMID:Sex-specific differences in hyperoxic lung injury in mice: role of cytochrome P450 (CYP)1A. 2570 76
