Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P47989 (xanthine oxidase)
 8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several reports state that oxygen uptake changed in direct correlation with changes in total oxygen delivery to the tissues in the adult respiratory distress syndrome (ARDS). Oxygen uptake appeared to be limited by oxygen delivery even at normally adequate levels so that uptake was abnormally dependent on supply. These reports are discussed with respect to whether or not such a result could have been due to errors in measurement or to mathematical coupling by relating two quantities that shared a common variable. Having rejected that proposition, animal experiments are cited in which abnormal oxygen supply dependency was produced by microembolization. The accompanying loss of reactive hyperemia and inability to extract oxygen were consistent with a progressive loss of recruitable capillaries. Evidence is presented that the potential for embolization in ARDS is greatly enhanced by activation of the complement and arachidonic acid cascades as well as by the xanthine oxidase system. The resultant use of molecular oxygen by non-ATP producing oxidase systems might also account for the increase of supply dependent oxygen demand in ARDS.
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PMID:Supply dependency of oxygen uptake in ARDS: myth or reality? 648 62

Erythrocytes of five strains of mice had ATP concentrations of ca 2.7 mumol/ml packed cells, while those of CBA mice were 23% lower, and those of BALB/C mice were 40% lower. The ratio of the concentrations of ATP and GTP were ca 3.3 in four strains but greater than 27 in three other strains. When erythrocytes from different mouse strains were incubated with radioactive precursors, appreciable strain differences were found in the apparent activities of adenine and hypoxanthine-guanine phosphoribosyltransferase, adenosine kinase, adenosine deaminase, guanine deaminase and xanthine oxidase. The activities of adenosine deaminase and guanine deaminase in sera of mice of different strains also varied.
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PMID:Variation in erythrocyte purine metabolism among mouse strains. 668 81

Generation of H2O2 by rat liver mitochondria with choline, glycerol 1-phosphate and proline as substrates has been shown by using high-concentration phosphate buffer. Rates obtained under these conditions were higher and more consistent as compared with the earlier reports with high-concentration mannitol/sucrose/Tris buffer. Sulphate ions could replace phosphate indicating a requirement for a high concentration of oxygen-containing anions. H2O2 generation was dependent on the presence of native mitochondria and substrate. Maximal rates with various substrates were found to be the same as with succinate. Values of Km and Vmax for H2O2 generation were considerably less than those obtained for respective dehydrogenase activities, measured by dye reduction. Scavengers of O2-. and OH. inhibited generation of H2O2. ATP, ADP, thyronine derivatives and a number of phenolic compounds also showed very potent inhibitory effects of H2O2 generation, whereas phenyl compound had no effect. Phenolic compounds did not have any effect on mitochondrial superoxide dismutase and choline dehydrogenase activities as well as on O2-. generation by the xanthine-xanthine oxidase system. Inhibition by phenolic compounds may have potential for regulation of the intracellular concentration of H2O2, that is not considered to have a "second messenger' function.
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PMID:Inhibition of H2O2 generation in rat liver mitochondria by radical quenchers and phenolic compounds. 730 14

Oxygen-derived free radicals (FRs) and other reactive oxygen species (ROS) have been implicated in the deleterious aspects of myocardial infarction, neutrophil infiltration and post-ischaemic reperfusion. We studied their actions on the main intracellular organelles of Ca-compartmentation and force production (the sarcoplasmic reticulum (SR) and myofilaments) in rat heart preparations by using two forms of chemical 'skinning'. We recorded Ca(2+)-activated isometric tension or, in saponin-treated trabeculae where SR function is maintained, either tension alone or tension and [Ca2+] transients evoked by caffeine. A single, brief application of xanthine/xanthine oxidase (generating superoxide; O2-) rapidly and irreversibly inhibits Ca(2+)-activated force with a dose- and time-dependent action. The kinetics of residual force production are slowed. Rigor induction (by ATP withdrawal) before and during exposure to .O2- prevents this action, suggesting the .O2(-)-sensitive site is occluded in rigor. Myofilament Ca-sensitivity and SR function were unaffected by .O2- or physiologically relevant [H2O2] (< 10 microM). Briefly applying 10-50 microM hypochlorous acid (HOCl) increased Ca-sensitivity and resting tension, but reduced Ca-activated force, in a manner consistent with 'rigor-like' crossbridges being involved. HOCl also provoked spontaneous Ca-release but reduced net SR Ca-uptake. Electron microscopy reveals that the myofilament lattice suffers a characteristic disruption by HOCl but not by .O2-. We conclude that FRs and ROS associated with myocyte dysfunction, reperfusion and inflammation could contribute to post-ischaemic myocardial dysfunction.
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PMID:Intracellular effects of free radicals and reactive oxygen species in cardiac muscle. 747 29

Hypoxia-induced hepatocyte injury results not only from ATP depletion but also from reductive stress and oxygen activation. Thus the NADH/NAD+ ratio was markedly increased in isolated hepatocytes maintained under 95% N2/5% CO2 in Krebs-Henseleit buffer well before plasma membrane disruption occurred. Glycolytic nutrients fructose, dihydroxyacetone or glyceraldehyde prevented cytotoxicity, restored the NADH/NAD+ ratio, and prevented complete ATP depletion. However, the NADH generating nutrients sorbitol, xylitol, glycerol and beta-hydroxybutyrate enhanced hypoxic cytotoxicity even though ATP depletion was not affected. On the other hand, NADH oxidising metabolic intermediates oxaloacetate or acetoacetate prevented hypoxic cytotoxicity but did not affect ATP depletion. Restoring the cellular NADH/NAD+ ratio with the artificial electron acceptors dichlorophenolindophenol and Methylene blue also prevented hypoxic injury and partly restored ATP levels. Ethanol which further increased the cellular NADH/NAD+ ratio increased by hypoxia also markedly increased toxicity whereas acetaldehyde which restored the normal cellular NADH/NAD+ ratio, prevented toxicity even though hypoxia induced ATP depletion was little affected by ethanol or acetaldehyde. The viability of hypoxic hepatocytes is therefore more dependent on the maintenance of normal redox homeostasis than ATP levels. GSH may buffer these redox changes as hypoxia caused cell injury much sooner with GSH depleted hepatocytes. Hypoxia also caused an intracellular release of free iron and cytotoxicity was prevented by desferoxamine. Furthermore, increasing the cellular NADH/NAD+ ratio markedly increased the intracellular release of iron. Hypoxia-induced hepatocyte injury was also prevented by oxypurinol, a xanthine oxidase inhibitor. Polyphenolic antioxidants or the superoxide dismutase mimic, TEMPO partly prevented cytotoxicity suggesting that reactive oxygen species contributed to the cytotoxicity. The above results suggests that hypoxia induced hepatocyte injury results from sustained reductive stress and oxygen activation.
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PMID:Modulating hypoxia-induced hepatocyte injury by affecting intracellular redox state. 748 48

By correlating lactate/pyruvate ratios and ATP levels, cytotoxicity induced by the mitochondrial respiratory inhibitors or hypoxia:reoxygenation injury can be attributed not only to ATP depletion but also to reductive stress and oxygen activation. Thus hypoxia, cyanide or antimycin markedly increases reductive stress, non-heme Fe release and H2O2 formation in hepatocytes. Cytotoxicity was partly prevented with the ferric chelator desferoxamine, the xanthine oxidase inhibitor oxypurinol and the hydrogen peroxide scavenger glutathione. No lipid peroxidation could be detected and phenolic anti-oxidants had little effect. However, polyphenolic antioxidants or the superoxide dismutase mimics TEMPO or TEMPOL partly prevented cytotoxicity. Furthermore, increasing the hepatocyte NADH/NAD+ ratio with NADH generating compounds such as ethanol, glycerol, or beta-hydroxybutyrate markedly increased cytotoxicity (prevented by desferoxamine) and further increased the intracellular release of non-heme iron. Cytotoxicity could be prevented by glycolytic substrates (eg. fructose, dihydroxyacetone, glyceraldehyde) or the NADH utilising substrates acetoacetate or acetaldehyde which decreased the reductive stress and prevented intracellular iron release. These results suggest that liver injury resulting from insufficient respiration involves reductive stress which releases intracellular Fe, converts xanthine dehydrogenase to xanthine oxidase and causes mitochondrial oxygen activation. The cell's antioxidant defences are compromised and ATP catabolism contributes to oxygen activation.
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PMID:Hepatocyte injury resulting from the inhibition of mitochondrial respiration at low oxygen concentrations involves reductive stress and oxygen activation. 758 49

While the free radical-generating enzyme xanthine oxidase is a central mechanism of injury in postischemic tissues, questions remain regarding how xanthine oxidase-mediated radical generation is triggered during ischemia and reperfusion. There is controversy regarding whether radical generation is caused by enzyme formation of that of its substrates xanthine and hypoxanthine. Therefore, studies were performed in isolated rat hearts correlating the magnitude and time course of radical generation with alteration in xanthine oxidase and its substrates. Radical generation was measured by electron paramagnetic resonance spectroscopy and correlated with spectrophotometric assays of tissue xanthine oxidase activity and chromatographic measurements of tissue and effluent concentrations of xanthine oxidase substrates and products. Xanthine oxidase was present in preischemic hearts and slightly increased during 30-min global ischemia. Hypoxanthine and xanthine were not present prior to ischemia but accumulated greatly during ischemia due to ATP degradation. These substrate concentrations rapidly declined over the first 5 min of reperfusion matching the observed time course of radical generation, whereas xanthine oxidase activity was largely unchanged. Both substrates were also observed in the coronary effluent during the first 5 min of reflow along with the product uric acid. Thus, the burst of xanthine oxidase-mediated free radical generation upon reperfusion is triggered and its time course controlled by a large increase in substrate formation that occurs secondary to the degradation of ATP during ischemia.
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PMID:Substrate control of free radical generation from xanthine oxidase in the postischemic heart. 764 30

Our previous studies have shown that isolated adult rat cardiomyocytes with normal and reduced Cu/Zn SOD activities are equally susceptible to extracellularly generated oxidants (hydrogen peroxide, glucose oxidase/glucose and xanthine oxidase/xanthine systems). In the present study we exposed myocytes with reduced SOD activity to doxorubicin (adriamycin). Cardiotoxicity of doxorubicin has been attributed to the production of superoxide anion inside the cell. Cardiomyocytes with reduced SOD activity, but normal ATP content and viability, were obtained by the treatment of isolated cells with diethyldithiocarbamate (DDC). DDC-treated myocytes were significantly less resistant to doxorubicin than controls. Doxorubicin-stimulated superoxide anion formation, measured by the rate of SOD-inhibitable acetylated cytochrome C reduction, was significantly higher in the cytosolic fraction of DDC-treated cells compared to controls. These results indicate that for isolated cardiac myocytes an essential part of cytotoxicity of doxorubicin can be explained by the formation of superoxide anion and that the level of intracellular SOD activity should be considered as a significant factor for cell protection.
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PMID:Effects of doxorubicin on cardiomyocytes with reduced level of superoxide dismutase. 764 16

The aim of the research was to study the role played by extracellular O2-radicals, which are implicated in cardiac cell damage and the protective effect by cell-permeable, nitroxide, superoxide dismutase-mimics. Cardiomyocytes cultures from 1-day-old rats served as the test-system. Experiments were performed since 5th day in culture when > 80% of the cells were beating myocardial cells. Oxidative damage was induced by 0.5 mM hypoxanthine and 0.06 U/ml xanthine oxidase or by 10 mM glucose and 0.15 U/ml glucose oxidase. The parameters used to evaluate damages were spontaneous beating, lactate dehydrogenase release and ATP level. The rhythmic pulsation was followed microscopically. To determine the kinetics of cytosolic enzyme release from the cells, media samples were collected at various points of time and assayed for enzyme activity. To determine the cellular ATP, cells were washed with sodium phosphate buffer, scraped off and boiled for 3 min with sodium phosphate buffer. Following centrifugation the supernatant was collected and ATP was determined by the chemiluminogenic assay using firefly tails. The present results indicate that nitroxide stable free radicals in the millimolar concentration range, provide full protection without toxic side-effect. Unlike exogenously added SOD that failed to protect, exogenous catalase provided almost full protection. In addition, the metal-chelating agent dipyridyl, but not diethylene-triamine-pentaacetate or desferrioxamine, protected the cultured cells. The present results suggest that H2O2 is the predominant toxic species mediating the oxidative damage whereas extracellular superoxide radical does not contribute to cultured cardiomyocyte damage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Do nitroxides protect cardiomyocytes from hydrogen peroxide or superoxide? 767 30

The present study investigated the effect of the administration of oxypurinol (40 mg/kg), an inhibitor of xanthine oxidase, on adenosine and adenine nucleotide levels in the rat brain during ischemia and reperfusion. The brains of the animals were microwaved before, at the end of a 20-min period of cerebral ischemia, and after 5, 10, 45, and 90 min of reperfusion. Cerebral ischemia was elicited by four-vessel occlusion with arterial hypotension to 45-50 mm Hg. Adenosine and adenine nucleotide levels in the oxypurinol-pretreated (administered intravenously 20 min before ischemia) rats were compared with those in nontreated animals exposed to the same periods of ischemia and reperfusion. Oxypurinol administration resulted in significantly elevated ATP levels at the end of ischemia and 5 min after ischemia, but not at 10 min after ischemia. ADP levels were also elevated, in comparison with those in the control rats, at the end of the ischemic period. Conversely, AMP levels were significantly reduced at the end of ischemia and during the initial (5 min) period of reperfusion. Adenosine levels were lower in oxypurinol-treated rats, during ischemia, and in the initial reperfusion phase. Oxypurinol administration resulted in a significant increase in the energy charge both during ischemia and after 5 min of reperfusion. Physiological indices, namely, time to recovery of mean arterial blood pressure and time to onset of respiration, were also shortened in the oxypurinol-treated animals. These beneficial effects of oxypurinol may have been a result of its purine-sparing (salvage) effects and of its ability to inhibit free radical formation by the enzyme xanthine oxidase. Preservation of high-energy phosphates during ischemia likely contributes to the cerebroprotective potency of oxypurinol.
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PMID:Oxypurinol-enhanced postischemic recovery of the rat brain involves preservation of adenine nucleotides. 772 3


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