Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of ischemia and reperfusion with and without oxygen radical scavengers and xanthine oxidase inhibitors on Ca(2+)-ATPase activity were examined in the rat liver of 5 min ischemia followed by 5 and 10 min reperfusion. Ischemia was produced by the ligation of right hepatic artery and right portal vein. Superoxide dismutase, catalase and allopurinol were administered by subcutaneous injection of 60,000U/kg, 90,000U/kg and 200mg/kg, respectively before ligation. Reaction products of Ca(2+)-ATPase were morphometrically analyzed by RUZEX IIIU. Histochemically, Ca(2+)-ATPase activities were demonstrated on plasma membrane of liver cells, bile canaliculi and Kupffer cells involving mitochondria in liver cells of control rats. Ca(2+)-ATPase activities were depressed in the central lobes of liver after 5 min ischemia followed by 5 and 10min reperfusion. However, the activities of Ca(2+)-ATPase were not depressed by addition of oxygen radical scavengers and xanthine oxidase inhibitor before ischemia. These results suggest that oxygen free radicals may influence Ca(2+)-ATPase activity and contribute to liver cell damage due to ischemia-reperfusion.
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PMID:[The role of Ca(2+)-ATPase and oxygen radical in reperfusion injury of rat liver]. 827 65

In an attempt to elucidate the physiological activities of (6E,12E)-tetradecadiene-8,10-diyne-1,3-diol diacetate (TDEYA), which was detected as a hydrolysis form (TDEY) in the plasma after oral administration of a decoction of Atractylodes rhizome in rats, we examined the inhibitory effects of various enzymes which are considered to participate in the regulation of body fluid levels and inflammatory reactions. TDEY and TDEYA did not show inhibitory effects on carbonic anhydrase (CA) or angiotensin converting enzyme (ACE) at concentrations less than 1.0 x 10(-3) M. However, both acetylene compounds inhibited Na+,K+ adenosine triphosphatase (Na+,K(+)-ATPase) weakly and xanthine oxidase (XO) strongly. From the results of several acetylene compounds examined on XO inhibition, it is clear that the active structure of the compounds is due to the presence of conjugated triple and double bonds. In the in vivo experiment of TDEYA, urine volume, urinary electrolytes and uric acid excretion showed no significant differences from the control. However, the administration of TDEYA to rats tended to increase xanthine excretion.
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PMID:Enzyme inhibitory activities of acetylene and sesquiterpene compounds in atractylodes rhizome. 839 28

To understand the influence of oxidant stress on the barrier function of airway epithelium, we conducted studies to determine the effects of chemically generated reactive oxygen species on permeability, permselectivity, and active ion transport of ferret trachea. We examined the consequences of oxidant injury using ferret trachea mounted in Ussing-type chambers and bathed with a modified Krebs-Henseleit solution containing mannitol and xanthine. We added xanthine oxidase to the luminal bathing solution, which reacted with the xanthine to generate reactive oxygen species. Tissue electrical conductance and short-circuit current were significantly increased after the addition of xanthine oxidase. Simultaneous measurement of mannitol flux (as a marker of paracellular conductance) and the backflux of chloride (lumen to submucosa) demonstrated a significant oxidant-induced increase in mannitol flux and backflux of chloride. Mannitol flux and the backflux of sodium (submucosa to lumen) also increased after oxidant stress. Comparison of the diffusion of sodium relative to the diffusion of chloride in relation to predicted diffusion in free solution indicated that the paracellular pathway was cation selective after oxidant stress. Active ion transport, as reflected by the short-circuit current, was significantly increased transiently after oxidant stress. Studies with furosemide, amiloride, and diphenylamine-2-carboxylate are suggestive that oxidant stress transiently stimulates the Na-K-ATPase. These studies demonstrated that exposure to reactive oxygen species significantly altered the permeability of the tracheal epithelium as well as active ion transport.
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PMID:Oxidant injury alters barrier function of ferret tracheal epithelium. 844 29

This study was investigated to clarify the role of intracellular Ca2+ following endotoxin treatment (1 mg/kg, intraperitoneally) to D-galactosamine-sensitized mice (400 mg/kg, intraperitoneally), and to observe lipid peroxide levels, an index of hepatotoxicity, in endotoxin/galactosamine (Ga1N)-challenged mice under activation of macrophages, especially Kupffer cells, by zymosan. The liver lipid peroxide level and serum glutamic pyruvic transminase activity in mice 18 hr after administration of endotoxin/Ga1N were markedly higher than those in mice treated only with endotoxin. In spite of an increase in lipid peroxide formation, there was little or no effect of Ga1N administration on xanthine oxidase and superoxide dismutase activities in mice given endotoxin. However, the injection of verapamil (10 mg/kg, subcutaneously) markedly decreased lipid peroxide levels in liver of endotoxin/Ga1N-injected mice. In the mice given a Ca(2+)-deficient diet, lipid peroxide level in liver after endotoxin/Ga1N injection was markedly decreased compared to that in mice fed a normal diet. Administration of dexamethasone (200 micrograms/kg, intraperitoneally) in mice 1 hr before treatment with endotoxin/Ga1N did not induce lipid peroxide formation. Administration of endotoxin to Ga1N-treated mice resulted in a higher level of liver cytosolic free Ca2+ ([Ca2+]i) than that in endotoxin-treated mice. On the other hand, Ca(2+)-ATPase activity in liver plasma membrane in the endotoxin/Ga1N-treated mice was markedly decreased as compared with endotoxin alone. On the contrary, the Ca(2+)-ATPase activity in liver mitochondria was higher in endotoxaemic mice treated with GA1N than in mice given endotoxin alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of Ca2+ on endotoxin-sensitivity by galactosamine challenge: lipid peroxide formation and hepatotoxicity in zymosan-primed mice. 858 8

We have studied the regulation of Na+/K(+)-ATPase function in alveolar type II cells submitted to oxidative stress. Alveolar type II cells were isolated from Sprague Dawley rats and suspended in Dulbecco's modified Eagle's medium. 500 muM xanthine plus 0.5 or 5 mU/ml xanthine oxidase (group 1 and 2, respectively) were added to the cell suspensions. Following various exposure times the reaction was stopped by adding allopurinol and cells were processed to assay H2O2 steady state concentrations, enzymatic activity of catalase and Na+/K(+)-ATPase function. Hydrogen peroxide production by the xanthine-xanthine oxidase system reached maximal values at 30 min of incubation in both groups. H2O2 steady state concentration increased 2- and 10-fold, respectively. Catalase activity was not changed after slight oxidative stress (group 1) but decreased in severe oxidative stress (group 2). Decreases in the Na+/K(+)-ATPase activity (10 and 60% for groups 1 and 2) were found during the first hour of exposure coinciding with the peak in H2O2 steady state concentration. This early inactivation was followed by progressive increases in the activity up to 70% over the control value in group 1, and to the control value in group 2. [3H]Ouabain binding studies showed that the increase in Na+/K(+)-ATPase activity after oxidative stress was due to an increase in the number of phosphorylated pump molecules in the plasma membrane of alveolar type II cells.
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PMID:Hydrogen peroxide increases Na+/K(+)-ATPase function in alveolar type II cells. 864 6

We have investigated the role of an aprotinin-sensitive protease in regulating Ca(2+)-ATPase activity and Ca2+ uptake (ATP-dependent and Na(+)-dependent) in microsomes of bovine pulmonary vascular smooth muscle during treatment with the O2(-.)-generating system hypoxanthine plus xanthine oxidase. Treatment of the smooth muscle microsomes with the O2(-.)-generating system produced a protease in a gelatin-containing zymogram with an apparent molecular mass of 16 kDa. This 16 kDa proteolytic protein was found to be inhibited by superoxide dismutase (SOD) and aprotinin but not by PMSF. Using polyclonal antiserum to aprotinin, we found that it is an ambient antiprotease of the smooth muscle microsomes. Treatment of the microsomes with the O2(-.)-generating system stimulated protease activity tested with a synthetic substrate N-benzoyl-DL-arginine p-nitroanilide and also enhanced Ca(2+)-ATPase activity. It also stimulated ATP-dependent Ca2+ uptake. In contrast, Na(+)-dependent Ca2+ uptake was found to be inhibited by the O2(-.)-generating system. Pretreatment of the microsomes with SOD and aprotinin preserved the increase in protease activity, Ca(2+)-ATPase activity and ATP-dependent Ca2+ uptake. In addition, O2(-.)-caused inhibition of the Na(+)-dependent Ca2+ uptake which was reversed by SOD and aprotinin. Pretreatment with PMSF did not cause any discernible alteration in the protease activity, Ca(2+)-ATPase activity. ATP-dependent Ca2+ uptake and Na(+)-dependent Ca2+ uptake in the microsomes caused by the O2(-.)-generating system. These results suggest that an aprotinin-sensitive protease plays a pivotal role in regulating Ca(2+)-ATPase and Ca(2+)-uptake activities in microsomes of pulmonary vascular smooth muscle under oxidant O2(-.)-triggered conditions.
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PMID:Role of an aprotinin-sensitive protease in the activation of Ca(2+)-ATPase by superoxide radical (O2-.) in microsomes of pulmonary vascular smooth muscle. 876 Mar 78

Na,K-ATPase activity, membrane lipid peroxidation (TBARM), and membrane 'leakiness' for small molecules were examined in rat cerebromicrovascular endothelial cells (RCEC) following exposure to hydrogen peroxide and xanthine/xanthine oxidase. Whereas short-term (15-30 min) exposure to either oxidant decreased ouabain-sensitive 86Rb uptake and increased TBARM in a concentration-dependent fashion, significant release of 51Cr (30-40%) from cells was observed only after one hour exposure to the oxidants. By comparison, much longer exposure times (i.e., 4 hours) were needed to induce significant lactate dehydrogenase release from oxidant-treated cells. The oxidant-evoked decrease in Na,K-ATPase activity and increases in TBARM and RCEC 'permeability' were abolished in the presence of the steroid antioxidants U-74500A and U-74389G (5-20 microM). Reduced glutathione (4 mM) partially attenuated oxidant-induced changes, whereas ascorbic acid (2 mM) and the disulfide bond-protecting agent, dithiothreitol (1 mM), were ineffective. These results suggest that the oxidant-induced loss of Na,K-ATPase activity in RCEC results primarily from changes in membrane lipids, and implicate both the inhibition of Na,K-ATPase and membrane lipid peroxidation in the mechanism responsible for the delayed free radical-induced increase in RCEC membrane 'permeability'.
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PMID:Free radical-induced endothelial membrane dysfunction at the site of blood-brain barrier: relationship between lipid peroxidation, Na,K-ATPase activity, and 51Cr release. 878 3

In the present study we demonstrated that synaptosomes isolated from rabbit brain cortex contain NO synthase and xanthine oxidase that can be activated by ultraviolet B radiation and Ca2+ accumulation to produce nitric oxide and superoxide which react together to form peroxynitrite. Irradiation of synaptosomes with ultraviolet B (up to 100 mJ/cm2), or increase the intrasynaptosomal calcium concentration using various doses (up to 100 mu M) of the calcium ionophore A 23187, a gradual increase in both nitric oxide and peroxynitrite release that was inhibited by N-monomethyl-L-arginine (100 mu M) was observed. The rate of nitric oxide release and cyclic GMP production by NO synthase and soluble guanylate cyclase, both located in the soluble fraction of synaptosomes (synaptosol), were increased approximately eight fold after treatment of synaptosomes with Ultraviolet B radiation (100 mJ/cm2). In reconstitution experiments, when purified NO synthase isolated from synaptosol was added to xanthine oxidase, in the presence of the appropriate cofactors and substrates, a ten fold increase in peroxynitrite production at various doses (up to 20 mJ/cm2) of UVB radiation was observed. Ultraviolet B irradiated synaptosomes promptly increased malondialdehyde production with subsequent decrease of synaptosomal plasma membrane fluidity estimated by fluorescence anisotropy of 1-4-(trimethyl-amino-phenyl)-6-phenyl-hexa-1 ,3,5-triene. Desferrioxamine (100 mu M) tested in Ultraviolet B-irradiated synaptosomes showed a decrease (approximately 80%) in malondialdehyde production with subsequent restoration of the membrane fluidity to that of non-irradiated (control) synaptosomes. Ca(2+)-stimulated ATPase activity was decreased after Ultraviolet B (100 mJ/cm2) radiation of synaptosomes indicating that the subsequent increase of intrasynaptosomal calcium promoted peroxynitrite production by a calmodulin-dependent increase of NO synthase and xanthine oxidase activities. Furthermore, it was shown that UVB-irradiated synaptosomes were subjected to higher oxidative stress by exogenous peroxynitrite (100 mu M) compared to non-irradiated (control) synaptosomes. In summary, the present results indicate that activation of NO synthase and xanthine oxidase of brain cells lead to the formation of peroxynitrite providing important clues in the role of peroxynitrite as a causative factor in neurotoxicity.
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PMID:NO synthase and xanthine oxidase activities of rabbit brain synaptosomes: peroxynitrite formation as a causative factor of neurotoxicity. 883 24

Although in vitro studies have shown that oxygen free radicals depress the sarcolemmal Ca(2+)-pump activity and thereby may cause the occurrence of intracellular Ca2+ overload for the genesis of contractile failure, the exact relationship between changes in sarcolemmal Ca(2+)-pump activity and cardiac function due to these radicals is not clear. In this study we examined the effects of oxygen radicals on sarcolemmal Ca2+ uptake and Ca(2+)-stimulated ATPase activities as well as contractile force development by employing isolated rat heart preparations. When hearts were perfused with medium containing xanthine plus xanthine oxidase, the sarcolemmal Ca(2+)-stimulated ATPase activity and ATP-dependent Ca2+ accumulation were depressed within 1 min whereas the developed contractile force, rate of contraction and rate of relaxation were increased at 1 min and decreased over 3-20 min of perfusion. The resting tension started increasing at 2 min of perfusion with xanthine plus xanthine oxidase. Catalase showed protective effects against these alterations in heart function and sarcolemmal Ca(2+)-pump activities upon perfusion with xanthine plus xanthine oxidase whereas superoxide dismutase did not exert such effects. The combination of catalase and superoxide dismutase did not produce greater effects in comparison to catalase alone. These results are consistent with the view that the depression of heart sarcolemmal Ca2+ pump activities may result in myocardial dysfunction due to the formation of hydrogen peroxide and/or hydroxyl radicals upon perfusing the hearts with xanthine plus xanthine oxidase.
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PMID:Relationship between mechanical dysfunction and depression of sarcolemmal Ca(2+)-pump activity in hearts perfused with oxygen free radicals. 890 72

In order to examine the mechanisms of the beneficial effects of vanadate on cardiac dysfunction in chronic diabetes, rat hearts were perfused with xanthine plus xanthine oxidase, an oxyradical generating system in the absence or presence of vanadate. The heart failed to generate contractile force and increased the resting tension markedly within 5 min of perfusion with xanthine plus xanthine oxidase. These changes were prevented by the addition of 4 microM vanadate in the perfusion medium. The protective effects of vanadate on the loss of developed tension and increased resting tension due to xanthine plus xanthine oxidase were dose-dependent (0.1-5 microM). Perfusion of the hearts with glucose-free medium did not abolish the protective actions of vanadate. The sarcolemmal Ca(2+)-pump (ATP-dependent Ca2+ uptake and Ca(2+)-stimulated ATPase) and Na(+)-dependent Ca2+ uptake activities were decreased upon perfusing the hearts with a medium containing xanthine plus xanthine oxidase for 5 min; these effects were prevented by the addition of 2-4 microM vanadate in the perfusion medium. The signals for superoxide radicals produced by xanthine plus xanthine oxidase, as detected by electron paramagnetic resonance spectroscopic technique, were inhibited by 5-100 microM vanadate. These results suggest that vanadate is an oxyradical scavenger and thus may prevent heart dysfunction under some pathological conditions by its antioxidant action.
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PMID:Protective effect of vanadate on oxyradical-induced changes in isolated perfused heart. 892 51


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