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Query: UNIPROT:P30044 (
antioxidant enzyme
)
8,037
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Oxygen toxicity
to the lung is characterized by injury of the pulmonary capillary endothelium with progressive loss of functioning alveolar-capillary units. Current concepts suggest that the risk of O2 toxicity in human subjects is greatly increased with O2 concentrations exceeding 50% to 60%, although there are no data to support a cellular basis for this apparent threshold of toxicity. Our study suggests that a cellular threshold may exist in human pulmonary endothelial cells for O2 toxicity. Hyperoxia was directly toxic to cultured human pulmonary artery endothelial (HPAE) cells, with impairment of replicative function, expressed as growth impairment (GI) index, monitored by two independent parameters: cell number determination and tritiated thymidine incorporation. Impaired cell growth occurred as early as 8 hours after beginning exposure to 95% O2 and with concentrations as low as 60% during a 48-hour incubation. For example, 60% O2 resulted in an impairment of HPAE cell growth at 48 hours with a GI index (cell number) of 37.5 +/- 2.1 (p less than 0.001, comparison with control cells in normoxia). Furthermore, 95% O2 impaired cell growth, as monitored by tritiated thymidine incorporation, as early as 8 hours after exposure (GI index of 43.6 +/- 4.9) however, the injury was completely reversible when cells were reincubated in normoxia for 6 hours (GI index of 4.2 +/- 4.7), p less than 0.001. O2 toxicity was associated with an increase in cellular glutathione levels but was not associated with a detectable loss of
antioxidant enzyme
activity.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Oxygen-mediated impairment of human pulmonary endothelial cell growth: evidence for a specific threshold of toxicity. 246 57
1. Small mammals have been used to study the effects of O2 toxicity. The aim of the present study was to investigate whether body size should be considered when applying the results of these studies to man. 2.
Oxygen toxicity
is enhanced as perfusion and metabolism increase: specific animal tissues of high perfusion are more susceptible to O2 toxicity. Exercise, high metabolic rate, and increased brain blood flow enhance O2 toxicity. 3. Increased specific O2 consumption and perfusion as body mass decreases may enhance O2 toxicity in small mammals. 4. Survival time in normobaric hyperoxia (1 atm O2) and the time to first appearance of convulsions in hyperbaric oxygen (4-5 atm) were collected from the literature and showed no relation to body size. 5. Known difference in
antioxidant enzyme
activity cannot explain the findings. 6. Independence of tissue PO2 on body size, or equal rates of free radical formation and degradation, are suggested as possible mechanisms. 7. Small mammals can serve as a good model for O2 toxicity in man.
...
PMID:Oxygen toxicity is not related to mammalian body size. 290 37
