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Query: UMLS:C0242706 (hyperoxia)
 5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intravenous infusion of salbutamol 10 mug/min in seven healthy subjects significantly increased their ventilatory responses to inhaled CO2 in both hypoxia and hyperoxia. These changes in chemical control of breathing are unlikely to be significant when the drug is used in severe asthma but may benefit patients with acute exacerbations of chronic ventilatory failure. The infusion also increased heart rate, which was most pronounced when hypoxia was combined with hypercapnia. The infusion produced an average fall in plasma potassium from 3-99 to 3-10 mmol/l, which was associated with an increase in plasma glucose and serum insulin, suggesting that this arose from a shift of potassium from the extracellular to the intracellular space. Routine monitoring of plasma potassium and the electrocardiogram is indicated when an intravenous salbutamol infusion is used to treat severe asthma as the drug may predispose to cardiac dysrhythmias.
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PMID:Effect of intravenous infusion of salbutamol on ventilatory response to carbon dioxide and hypoxia and on heart rate and plasma potassium in normal men. 124 57

Effects of 6 weeks endurance training (5 days per week) under hyperoxia (60% O2 plus 40% N2) on serum and tissue lipid levels were investigated in male rats. Rats were divided into 4 groups: normoxia-control (NC), hyperoxia-control (HC), normoxia-training (NT), and hyperoxia-training (HT). NT and HT groups were run on a treadmill in a chamber at 20 m per min with a 6 degree gradient for 30 min. The chamber was perfused with hyperoxic gas. After training under hyperoxia, high density lipoprotein cholesterol (HDL-C) was higher (p less than 0.01) than in the normoxic condition, but there were no changes in serum lipids and glucose, or liver and aorta cholesterol. Skeletal muscle TG and liver glycogen in hyperoxic condition tended to show the higher values. Basal lipolysis of adipose tissue was increased (p less than 0.05) by hyperoxia, and decreased (p less than 0.01) by training, but there was no change of norepinephrine induced lipolysis in any group. The results suggest that endurance training or resting under hyperoxia induces increased HDL-C or lipolytic activity of adipose tissue. These effects might be caused by greater fat oxidation during exercising or resting under hyperoxia.
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PMID:Effects of endurance training under hyperoxia on serum and tissue lipid levels in rats. 144 Jun 57

Mutants of Escherichia coli lacking superoxide dismutase (SOD) activity were used to explore the sensitivity of aconitase toward O2 and O2-. The aconitase activity in SOD-free extracts was rapidly lost under aerobic conditions and exogenous SOD afforded a concentration-dependent protection. The rate of the inactivating reaction between O2- and aconitase was estimated to be of the order of 10(9) M-1 s-1. The competitive inhibitors fluorocitrate and tricarballylate provided some protection, and at saturating concentrations, they decreased the rate of the inactivating reaction by 100- and 10-fold, respectively. Aconitase was markedly less sensitive to O2 than it was to O2-. Aerobic growth on succinate involves a greater dependence upon aconitase than does growth on glucose and, as expected, the deleterious consequences of SOD deficiency were more pronounced on succinate than on glucose. Moreover, aconitase activity was lower in extracts of aerobically grown SOD mutants, than it was in the parental strain. We suppose that inactivation of aconitase by O2- involves oxidative attack on the prosthetic iron-sulfur cluster. The extreme sensitivity of aconitase to inactivation by O2- suggests that its inactivation will be an early event in the oxidative stress imposed by hyperoxia, ultraviolet irradiation or redox-cycling agents, such as viologens or quinones.
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PMID:Superoxide sensitivity of the Escherichia coli aconitase. 165 83

A new in vivo model for studying brain metabolic and haemodynamic oscillatory phenomena during ischaemia is described. In this model acute or chronic occlusion of one or two carotid arteries in the rat is performed. Due to the partial ischaemia developed, oscillations in the level of intramitochondrial pyridine nucleotides (NADH) as well as flavoproteins (Fp) were recorded from the brain by monitoring the fluorescence of these respiratory chain components. The two fluorescent signals (NADH and Fp) were measured by using the time sharing or DC fluorometer/reflectometer. The changes in the reflected light at the excitation wavelengths (366 and 450 nm) were recorded simultaneously. Bilateral carotid artery occlusion induced immediate oscillations (6-9 waves per min) in the mitochondrial redox state as well as in tissue blood volume in both hemispheres. To verify the accuracy of the NADH monitoring system, including the correction technique for haemodynamic and other artifacts, we used the intracarotid artery saline bolus injection approach. The results could be summarized as follows: (1) unilateral carotid artery occlusion resulted in delayed development of oscillations, particularly in the ipsilateral hemisphere; (2) the oscillation phenomenon was reversible if recirculation restarted within 5 min. Occlusion for more than 30 min resulted in irreversible oscillations; (3) the oscillation appearances and intensities were affected by various physiological conditions. Vasoconstriction, induced by hyperoxia, stimulated the oscillations while vasodilation, induced by hypercapnia, depressed them. Anoxia, hypoxia and spreading depression (SD) abolished the oscillations. Glucose injection was not effective.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oscillations of cortical oxidative metabolism and microcirculation in the ischaemic brain. 167 46

Cellular intoxication by elevated concentrations of O2 may be considered as a model for accelerated cellular aging processes resulting from excessive free radical production by normal metabolic pathways. We describe here that exposure of HeLa cell cultures to 80% O2 for 2 days causes progressive growth inhibition and loss of reproductive capacity. This intoxication was correlated with inhibition of cellular O2 consumption and inactivation of 3 mitochondrial flavoproteins, i.e., partial inactivation of NADH and succinate dehydrogenases and total inactivation of alpha-ketoglutarate dehydrogenase. As alpha-ketoglutarate dehydrogenase controls the influx of glutamine/glutamate into the Krebs cycle, which is the major pathway for oxidative ATP generation in HeLa cells, the inactivation of alpha-ketoglutarate dehydrogenase was expectedly correlated with a net fall in glutamine/glutamate utilization. Furthermore, a simultaneous increase in glucose consumption and lactate production was observed, indicating that the cellular response to respiratory failure is to generate more ATP from glycolysis. In spite of this response, extensive depletion of ATP was observed. Thus, hyperoxia-induced growth inhibition and loss of clonogenicity seem to be due primarily to an impairment of mitochondrial energy metabolism resulting from inactivation of SH-group-containing flavoprotein enzymes localized at or near the inner mitochondrial membrane. These observations may be relevant for theories implicating loss of mitochondrial function as a prime factor in the aging process.
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PMID:Hyperoxia-induced clonogenic killing of HeLa cells associated with respiratory failure and selective inactivation of Krebs cycle enzymes. 223 21

The response of retinal blood flow to acute reduction in plasma glucose levels was studied in 20 poorly controlled type I diabetic patients. Perifoveal flow velocity was determined, using the blue-light entoptoscope, and arterial calibers measured, using a computer-aided digitizing system. Mean plasma glucose level was lowered from 17.7 +/- 4 to 7.0 +/- 1 mmol/l after a subcutaneous insulin infusion and measurements taken at both glucose levels. The autoregulatory change induced by breathing 60% oxygen at the two plasma glucose levels also was compared. Mean flow velocities were 0.54 +/- 0.28 mm/sec at a high plasma glucose level compared with 0.55 +/- 0.32 mm/sec at a low plasma glucose level, whereas hyperoxia reduced these by 16.58 and 16.71%, respectively. No significant difference in the responses of arterial diameters to hyperoxia between the two glucose levels was found. The authors conclude that acute reduction in plasma glucose level in this group of patients is not associated with significant changes in macular blood flow or in alteration in autoregulation.
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PMID:Macular blood flow response to acute reduction of plasma glucose in diabetic patients measured by the blue light entoptic technique. 232 3

Continuous exposure of Chinese hamster ovary (CHO) cells to an atmosphere of 98% O2, 2% CO2 (normobaric hyperoxia) leads within a period of several days to cytostasis and clonogenic cell death. Here we report respiratory failure as an important early symptom of oxygen intoxication in CHO cells, resulting in a more than 80% inhibition of oxygen consumption within 3 days of hyperoxic exposure. This inhibition appeared to be correlated with selective inactivation of three mitochondrial key enzymes, NADH dehydrogenase, succinate dehydrogenase, and alpha-ketoglutarate dehydrogenase. The latter enzyme controls the influx of glutamate into the Krebs cycle and is particularly critical for oxidative ATP generation in most cultured cells, which depends on exogenous glutamine rather than glucose as a carbon source. As expected, the inactivation of alpha-ketoglutarate dehydrogenase was correlated with a fall in cellular glutamine utilization, which became apparent from the first day of hyperoxic exposure. Thereafter, glucose utilization and lactate excretion started to increase, up to 3-fold, indicating a cellular response to respiratory failure aimed at increased ATP generation from glycolysis. However, in spite of this response, the cellular ATP level progressively decreased, up to 2.5-fold. Thus, killing of CHO cells by normobaric hyperoxia seems to be due to a severe disturbance of mitochondrial metabolism eventually leading to a depletion of cellular ATP pools.
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PMID:Respiratory failure and stimulation of glycolysis in Chinese hamster ovary cells exposed to normobaric hyperoxia. 235 58

Fluosol-DA 20% (FDA), an emulsion of fluorocarbons in a glucose electrolyte solution can deliver physiologically significant amounts of oxygen (O2) to the tissues and improve ischaemic hypoxia. To investigate its effect on critical oxygen delivery level (QO2c), four groups of six phenobarbitone anaesthetised air-ventilated splenic clamped mongrel dogs were haemodiluted to a haematocrit (Hct) of 25%; two groups with FDA and two with 6% dextran solution. Oxygen consumption (VO2) was derived from expired gas measurement and analysis, or by using a spirometer and carbon dioxide absorption. Whole body O2 flux (QO2) was calculated from mixed venous and arterial O2 contents and the Fick-derived cardiac output. QO2 was progressively decreased by haemorrhaging in steps of 1.5-2.5 ml per kg. Hct was kept at 25% using packed cells. VO2/QO2 pairs were calculated at each step and QO2c was determined for each animal by least squares fitting of data with 2 straight lines. Analyses of variance were performed. QO2c was significantly less in the FDA and O2 (F+O) group than either the dextran and O2 (D+O) or dextran and air (D+A) groups. Analysis of O2 extraction at QO2c, which effectively normalized results for differences in resting, VO2, had significantly better extraction in the FDA and air (F+A) than the D+A group. When fluorocarbon- and plasma-dissolved oxygen was subtracted, the O2 extraction in the F+A group was significantly better than in the D+A and F+O groups. The results imply that normoxic FDA haemodilution in animals respiring air can improve O2 delivery and that hyperoxia interferes with this process.
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PMID:Critical oxygen delivery levels during shock following normoxic and hyperoxic haemodilution with fluorocarbons or dextran. 244 79

Recent evidence supports the concept that Adriamycin cytotoxicity may be mediated by drug semiquinone free radical and oxyradical generation. We tested this hypothesis further by exposing drug-sensitive (WT) and 500-fold Adriamycin-resistant MCF-7 human breast tumor cells (ADRR) to exogenous superoxide- and hydrogen peroxide-generating systems and subsequently monitored cell proliferation as a measure of cytotoxicity. The ADRR tumor cells tolerated a 4-fold greater exposure than sensitive cells to superoxide generated by the xanthine/xanthine oxidase system. Likewise, exposure to hydrogen peroxide produced by the action of glucose oxidase on glucose revealed a 4-fold diminished susceptibility of the drug-resistant cells to this reduced form of oxygen. Similar results were obtained by the direct application of hydrogen peroxide to cells. For both cell lines, cytotoxicity was dependent upon the magnitude and the duration of reactive oxygen exposure. When WT and ADRR cells were cultured under hyperoxia (95% O2:5% CO2), in order to stimulate the intracellular production of oxyradicals, proliferation was inhibited to a greater extent in the drug-sensitive cell line. Additionally, hyperoxia potentiated the cytotoxicity of Adriamycin to both sensitive and drug-resistant cells, but the effect depended upon the concentration of the drug. Under hyperoxic conditions, Adriamycin caused oxygen radical-dependent cytotoxicity to the WT tumor cells at clinically relevant drug concentrations as low as 2 to 3 nM. With ADRR tumor cells, hyperoxia increased the cytotoxicity of Adriamycin at concentrations above 5 microM. Paradoxically, both the WT and the ADRR tumor cells were equally susceptible to the cytotoxic effects of gamma irradiation. It is known that the Adriamycin-resistant MCF-7 cells greatly overexpress glutathione peroxidase and glutathione transferase activities; however, other biochemical defenses against reactive drug intermediates and oxygen radicals have been reported to be similar in the two cell lines. We have reexamined those observations in this report. The resistance of ADRR breast tumor cells to Adriamycin appears to be associated with a developed tolerance to superoxide, most likely because of a twofold increase in superoxide dismutase activity, and a decreased susceptibility to hydrogen peroxide, most likely because of 12-fold augmented selenium-dependent glutathione peroxidase activity. Acting in concert, these two enzymes would decrease the formation of hydroxyl radical from reduced molecular oxygen intermediates.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Differential oxygen radical susceptibility of adriamycin-sensitive and -resistant MCF-7 human breast tumor cells. 253 95

The importance of respiratory chain activity in the induction of manganese superoxide dismutase biosynthesis was examined in the yeast Saccharomyces cerevisiae by immunological measurement of the level of manganese superoxide dismutase and comparison with copper/zinc superoxide dismutase and two subunits of respiratory chain proteins, cytochrome c1 and core 2, under conditions of growth in which respiratory chain activity was varied. Oxygen consumption by the yeast was also monitored during growth. These comparative studies indicated that under normoxic conditions, glucose repression of the respiratory chain subunits resulted in a parallel repression of the level of manganese superoxide dismutase protein. The increase in the protein levels of manganese superoxide dismutase and core 2 protein under derepressing growth conditions reflected an increase in the level of the mRNA for each protein; thus regulation is, at least in part, at the level of transcription. The following observations support the conclusion that under normoxic conditions manganese superoxide dismutase biosynthesis is primarily regulated by the same means as the respiratory chain components; that is, by glucose (catabolite) repression rather than by oxygen metabolites. 1) When yeast cells were transferred from repressing to derepressing growth conditions in normoxia, manganese superoxide dismutase biosynthesis increased at a rate parallel to that of core 2, and occurred approximately 5 h in advance of increased oxygen consumption by the yeast. 2) When an important site of mitochondrial superoxide radical generation, the cytochrome bc1 complex, was inactivated by deletion of the gene coding for one of its subunits, the level of manganese superoxide dismutase protein was not changed in the mutant compared with the parental strain. However, regulation of manganese superoxide dismutase can be separated from regulation of the respiratory chain proteins in certain instances. During the transition from the logarithmic growth phase to the stationary phase in non-fermentable carbon sources, the level of manganese superoxide dismutase decreased by approximately 50%, whereas the levels of cytochrome c1 and core 2 remained unchanged. Furthermore, yeast grown in hyperoxia of 70-80% oxygen utilizing either repressing or depressing carbon sources, contained significantly higher levels of manganese superoxide dismutase and copper/zinc superoxide dismutase compared to yeast grown in normoxia, whereas the levels of respiratory chain proteins were not affected by hyperoxia.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of manganese superoxide dismutase in Saccharomyces cerevisiae. The role of respiratory chain activity. 283 36


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