Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 determine the effect of inflammation on extrahepatic ceruloplasmin gene expression we examined the ceruloplasmin mRNA content of adult rat tissues after endotoxin injection. Within 8 h of a dose of endotoxin ceruloplasmin mRNA content increased in the liver as expected and was also detectable in the lung. The effect of endotoxin was tissue specific because ceruloplasmin mRNA was not consistently detected in other extrahepatic tissues. The kinetics of ceruloplasmin mRNA accumulation in lung and liver tissue were similar with a maximum seven- to ninefold increase in ceruloplasmin mRNA content in each tissue within 24 h. The relative rate of ceruloplasmin gene transcription was increased in both tissues within 3 h of endotoxin, suggesting similar mechanisms of regulation of ceruloplasmin gene expression during inflammation. One cellular site of ceruloplasmin production in the inflamed lung was found to be the alveolar macrophage, which expressed the ceruloplasmin gene and synthesized ceruloplasmin protein in response to endotoxin in vitro. Because of these findings we also examined the effects of hyperoxia on ceruloplasmin gene expression. Exposure of adult rats to 95% O2 resulted in a five- to sixfold induction of ceruloplasmin mRNA in lung tissue within 46 h, and this response was time dependent, reaching maximum values at 86 h. Hyperoxic induction of ceruloplasmin mRNA was specific to the lung and not the result of systemic inflammation because hepatic ceruloplasmin mRNA content remained constant. These data indicate that the lung is a prominent site of ceruloplasmin gene expression during inflammation and hyperoxia and suggest that this protein may play a previously unappreciated role in pulmonary injury or repair.
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PMID:Induction of ceruloplasmin gene expression in rat lung during inflammation and hyperoxia. 199 64

The effects of hyperoxia and the response of oxygen free radical defense enzymes in the lung and extracellular environment of the lung were measured in Zn-deficient rats. Although lung was the target organ as indicated by the increased lung:body weight ratio in all hyperoxia-exposed rats regardless of dietary regimen, 85% oxygen exposure seemed to impose a stress on the whole animal as indicated by decreased feed intake and body weight in ad libitum-fed rats. Hyperoxia exposure superimposed on Zn deficiency did not further reduce the feed intake or body weight of Zn-deficient rats. After 7 d of hyperoxia exposure, the Zn-repleted and ad libitum-fed groups consistently had increased activity of lung CuZn-superoxide dismutase (CuZnSOD), glutathione peroxidase and catalase; but changes in CuZnSOD activity were not related to lung Cu or Zn concentrations. Although Zn-deficient and pair-fed rats were unable to increase CuZnSOD activity, they had an increased lung Zn concentration compared with their air-exposed counterparts. Hyperoxia exposure also caused an increase in ceruloplasmin activity of pair-fed and ad libitum-fed control rats. We concluded that dietary Zn repletion started at the beginning of 85% oxygen exposure was effective for increasing the activity of the lung oxygen free radical defense enzymes, thus preventing hyperoxia-induced lung damage in Zn-deficient rats.
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PMID:Effect of hyperoxia on oxygen free radical defense enzymes in the lung of zinc-deficient rats. 200 99

Preexposure of male Lewis rats to Cd aerosols (1.6 mg Cd/m3, 3 hr/day, 5 days/week, for 4 weeks) has been found to produce a marked degree of tolerance to hyperoxia (greater than 96% O2). Cd-pretreated animals were still alive after 8 days of continuous exposure to oxygen. In contrast, hyperoxia was fatal to all air-preexposed animals within 54-62 hr. Lungs of Cd-pretreated animals were characterized by hyperplasia and/or hypertrophy of the type II alveolar cell compartment which may have enabled them to more rapidly repair oxidant damage resulting from hyperoxia. Cd pretreatment augmented enzymatic antioxidant enzyme activities, including total lung Se-dependent glutathione peroxidase, catalase, glutathione reductase, and Mn-superoxide dismutase, and caused elevations in pulmonary nonprotein thiols and metallothionein (MT). MT, a thiol-rich, low-molecular-weight protein, was 400-fold higher in Cd-pretreated animals and bound more than 80% of the total Cd in the lung. We have hypothesized that MT serves as an expendable yet renewable cellular target for free radical damage during oxygen exposure. A systemic acute-phase response, characterized by alterations in plasma Zn and Cu concentrations and increased ceruloplasmin oxidase activity, was initiated in Cd-pretreated animals by the fourth day of hyperoxia. This response was accompanied by improvement in pulmonary status and extensive pulmonary repair.
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PMID:Cross-tolerance to hyperoxia following cadmium aerosol pretreatment. 233 May 88

The administration of very low doses of bacterial endotoxin protects rats during exposure to hyperoxia and is associated with the induction of lung antioxidant enzyme activities. Copper-deficient rats have increased susceptibility to O2 toxicity, which may be related to their decreased lung superoxide dismutase activity (SOD) or decreased plasma ceruloplasmin concentrations. To determine whether endotoxin can protect against hyperoxia in this susceptible model, we exposed copper-deficient and control rats to a fractional inspiratory concentration of O2 greater than 0.95 for 96 h after pretreatment with 500 micrograms/kg of bacterial endotoxin or phosphate-buffered saline (PBS). Mortality in the copper-deficient and control rats given PBS and exposed to O2 for 96 h was 100%. Copper-deficient rats died significantly earlier during the exposure than controls. No mortality occurred in either group treated with endotoxin and hyperoxia despite the decreased activity of copper-dependent enzymes in the copper-deficient rats. Copper-deficient rats treated with endotoxin and exposed to hyperoxia did increase lung Cu-Zn-SOD activity, but activity remained below levels found in air-exposed controls. Mn-SOD activity was found to be induced above air-exposed controls in the copper-deficient rats treated with endotoxin and exposed to hyperoxia. Hyperoxic exposure resulted in a marked increase in plasma ceruloplasmin concentrations in the control rats, but no increases in ceruloplasmin occurred in the copper-deficient animals. Endotoxin protects copper-deficient rats from hyperoxia despite their decreased lung Cu-Zn-SOD activity, and decreased plasma ceruloplasmin.
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PMID:Effects of bacterial endotoxin on protecting copper-deficient rats from hyperoxia. 375 84

The antioxidant enzyme superoxide dismutase (SOD) found in the cytosol of eucaryotic cells and the plasma protein ceruloplasmin are copper containing proteins though to be important in providing protection from oxygen toxicity. To investigate the hypothesis that copper deficiency in the rat could result in decreased lung SOD activity and plasma ceruloplasmin concentration resulting in increased susceptibility to O2 lung damage, we performed a series of experiments exposing copper-deficient and control rats to normobaric and hyperbaric hyperoxia. Lung SOD activity in the copper-deficient rats was found to be 56% of control and ceruloplasmin content was 6% of control. The copper-deficient rats exhibited increased mortality and enhanced pulmonary toxicity as evidenced by increased pathologic damage and lung edema during the normobaric exposure to 85% O2. Copper-deficient animals also showed increased susceptibility to a hyperbaric exposure of 4 ata of 100% O2 with a decreased time of survival. The copper-deficient rat represents a new model for the study of oxidant injury.
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PMID:Enhanced pulmonary toxicity in copper-deficient rats exposed to hyperoxia. 672 91

Ceruloplasmin, metallothionein, and ferritin are metal-binding proteins with potential antioxidant activity. Despite evidence that they are upregulated in pulmonary tissue after oxidative stress, little is known regarding their influence on trace metal homeostasis. In this study, we have used copper- and zinc-containing superoxide dismutase (Cu/Zn SOD) transgenic-overexpressing and gene knockout mice and hyperoxia to investigate the effects of chronic and acute oxidative stress on the expression of these metalloproteins and to identify their influence on copper, zinc, and iron homeostasis. We found that the oxidative stress-mediated induction of ceruloplasmin and metallothionein in the lung had no effect on tissue levels of copper, iron, or zinc. However, Cu/Zn SOD expression had a marked influence on hepatic copper and iron as well as circulating copper homeostasis. These results suggest that ceruloplasmin and metallothionein may function as antioxidants independent of their role in trace metal homeostasis and that Cu/Zn SOD functions in copper homeostasis via mechanisms distinct from its superoxide scavenging properties.
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PMID:Cellular response of antioxidant metalloproteins in Cu/Zn SOD transgenic mice exposed to hyperoxia. 1140 60

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