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: EC:1.17.3.2 (xanthine oxidase)
8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Isoelectric variants of Cu,Zn-superoxide dismutase (Cu,Zn-SOD) have been reported to exist in various organs including rat liver. To elucidate the biochemical characteristics of the variants, rat liver Cu,Zn-SOD was purified and isolated into eight variants, i.e., pI 5.15, 4.88, 4.80, 4.75, 4.70, 4.65, 4.60, and 4.50. The pI 4.88 variant had the highest specific activity (4245 U/mg protein) and the highest yield (45% of original activity). The descending order of specific activity for the other variants was pI 4.80, 4.75, 5.15, 4.70, 4.65, 4.60, and 4.50. The specific activity correlated well with metal content. The specific activity for most variants was 5-9 times greater when determined at pH 10.0 than at pH 7.8. However, three preparations of pI 4.80 and 4.70 variants had 13.9-16.3 times greater specific activity at pH 10.0 versus 7.8, while one of the pI 4.60 variants was only 3.5 times greater. The rate of Coomasie brilliant blue G-250 binding was lowest with pI 4.88 followed by pIs 4.80 and 4.75. To evaluate the mechanisms which might produce these variants, the pI 4.88 variant was incubated with xanthine-xanthine oxidase or a mixture of rat liver microsome, NADPH, and sodium azide, and a shift to variants pI 4.80 and pI 4.75 was found. The shift was greatly inhibited by the presence of mannitol or by the omitting of azide, respectively. The existence of these variants was also confirmed by other methods: (i) direct application of rat liver 105,000g supernatant to an isoelectric focusing, and (ii) extraction of SOD from acetone powder prepared from rat liver homogenate. Results indicate that several variants most likely arise in tissue as a result of activated oxygen radical modification of variant pI 4.88.
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PMID:Multiple isoelectric variants of copper, zinc-superoxide dismutase from rat liver. 214 34

Myofibrils from rat hearts were prepared in conditions maintaining their redox state, and their sulfhydryl groups were measured using a solution of urea and sodium dodecyl sulfate (SDS) as denaturant. The sulfhydryl content was 92 n mol/mg of protein, indicating that cysteins are in reduced form. In the presence of superoxide radicals generated in vitro with purine and xanthine oxidase, the myofibrillar sulfhydryl groups were oxidized.
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PMID:[Assay of sulfhydryl groups in cardiac myofibrillar proteins: effect of oxygen radicals in vitro]. 215 Jul 78

The effect of the new orally active antiallergic compound ethyl 2-(4'-carboxybenzamido)-4-propionamidobenzoate sodium salt (AM-682) and its main metabolite (met-A) were evaluated on respiratory burst in isolated human polymorphonuclear neutrophils (PMN). Both compounds exhibited inhibitory effect with concentration dependency on the n-formyl-methionyl-leucyl-phenylalanine (FMLP)-induced superoxide (O-2) production by human PMN. The inhibitory activity of met-A (IC50 1.1 mumol/l) was higher than that of AM-682 (IC50 85 mumol/l). By contrast, these compounds affected neither PMN O-2 production induced by phorbol 12-myristate 13-acetate (PMA) nor extracellular O-2 generation by the reaction of xanthine oxidase with hypoxanthine. These results indicate that the effects of these compounds act specifically on the generation of O-2 and is not simply a scavenger of O-2. This anti-inflammatory effect may also be beneficial in the treatment of asthma.
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PMID:Effect of the new anti-allergic compound ethyl 2-(4'-carboxybenzamido)-4-propionamidobenzoate sodium salt on human neutrophil superoxide production. 216 Feb 41

Isolated myocytes of rat heart, and sealed sarcolemmal vesicles of bovine heart, were used to examine the selectivity of the effects of partially reduced oxygen species (generated by a mixture of xanthine and xanthine oxidase) on cardiac sodium pump and several other ion transporters of the plasma membrane. When myocytes were exposed to xanthine plus xanthine oxidase, there were time-dependent inhibitions of ouabain-sensitive 86Rb+ uptake and (Na+ + K+)-ATPase activity that could be prevented by allopurinol, or by catalase and superoxide dismutase; suggesting the involvements of H2O2 or oxygen free radicals in the inhibition of the pump. This inhibition preceded any significant decrease in cellular ATP or in the number of viable cells. While ouabain increased 45Ca2+ uptake by myocytes as expected, exposure to xanthine plus xanthine oxidase decreased 45Ca2+ uptake; suggesting that the Na+, Ca2(+)-exchanger of the intact myocytes is also inhibited by oxygen metabolites. Simultaneous inhibitions of the pump, the Na+, Ca2(+)-exchange, the Na+, H(+)-exchange, and the Na+, Pi-cotransport activities also occurred in sarcolemmal vesicles that were treated with xanthine plus xanthine oxidase. These findings indicate that inactivations of the sodium pump and other sarcolemmal ion carriers are early events in the oxidant-induced damage to the cardiomyocyte. In the rat heart myocytes, a fraction of (Na+ + K+)-ATPase that seems to be more sensitive to ouabain, was inactivated more rapidly upon exposure of myocytes to xanthine plus xanthine oxidase; raising the possibility of the existence of different pump populations with different sensitivities to extracellularly generated oxygen metabolites.
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PMID:Studies on the specificity of the effects of oxygen metabolites on cardiac sodium pump. 217 59

A highly sensitive method for determining the superoxide dismutase (EC 1.15.1.1) in various tissues and blood cells is described. This method involves inhibition of a cypridina luciferin analog that is chemiluminescence dependent upon O2- generated by hypoxanthine-xanthine oxidase. Manganeous superoxide dismutase, which is sensitive to sodium dodecyl sulfate, was determined and calculated by subtraction of superoxide dismutase activity in tissue extract treated with this detergent (Cu-Zn superoxide dismutase) from that in untreated tissue extract (total superoxide dismutase). Both Mn- and Cu-Zn superoxide dismutase activities were expressed as equivalent nanograms of bovine erythrocyte superoxide dismutase per milliliter. Sensitivity limits of the chemiluminescence methods with 2-methyl-6-(p-methoxyphenyl)-3,7-dihydroimidazo[1,2-alpha]pyraz in-3-one and 2-methyl-6-phenyl-3,7-dihydroimidazo[1,2-alpha]pyrazin-3-one as cypridina luciferin analogs were 1 ng and 2-3 ng of superoxide dismutase/ml, respectively.
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PMID:A highly sensitive method for determining both Mn- and Cu-Zn superoxide dismutase activities in tissues and blood cells. 220 Mar 7

We made use of the xanthine oxidase inhibitor allopurinol and examined changes related to myocardial injury of the rat heart during hypoxia-re-oxygenation. The rat heart was perfused using the Langendorff method. With low-oxygen perfusion for 60 min in a solution saturated with mixed gases of 95% N2 + 5%O2, contractile tension did not develop and tension development was not restored upon re-oxygenation. During hypoxia, the resting tension increased (4.1 g) in the absence of allopurinol. In the allopurinol-administered group (100 microM), contractile tension did not develop during hypoxia; however, the development of tension was restored (18%) upon re-oxygenation. The elevation of resting tension was less (3.2 g) during hypoxia. All events related to the myocardial injury (inhibition of Na+, K(+)-ATPase activities, generation of malondialdehyde, extracellular leakage of creatine kinase) after low-oxygen perfusion for 60 min and re-oxygenating perfusion for 30 min were mild in the allopurinol treated group, compared with findings in the non-administered group. Tissue ATP at 10 min after low-oxygen perfusion was of a significantly high value in the allopurinol treated group (13.2 mumols/g dry weight), compared with findings in the group not given the drug (8.4 mumol/g dry weight). Sixty minutes after low-oxygen perfusion, tissue ATP in the allopurinol group also remained high, compared with the group not given the drug. Although the intensity of the epicardial NADH fluorescence indicated that the extent of inhibition of aerobic energy production during 10 min of low-oxygen perfusion was the same for both groups, lactate was produced in large quantities in the allopurinol treated group, hence energy generation advanced with glycolysis. These observations suggest that allopurinol prevents myocardial injury as a result of hypoxia-re-oxygenation. In the low-oxygen perfusion period, generation of energy is maintained and improved with glycolysis and there is a reduction in the generation of free radicals and an inhibition in lipid peroxidation.
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PMID:Does allopurinol prevent myocardial injury as a result of hypoxia-re-oxygenation in rats? 220 93

Trolox, a hydrophilic analogue of alpha-tocopherol, was reported to scavenge peroxyl radicals better than vitamin E in sodium dodecyl sulfate micelles and in liposomes. However, it was not known if Trolox protects human cells against oxyradical damage or if it acts as an antioxidant there. Here we demonstrate that Trolox prolonged substantially the survival of human ventricular myocytes and hepatocyte against oxyradicals generated with xanthine oxidase plus hypoxanthine, and prevented lysis of red cells exposed to an azo-initiator (2,2'-azo-bis(2-amidinopropane) HCl). Note that Trolox did not inhibit xanthine oxidase. In each cell type, the protection by Trolox was dose dependent and surpassed those given by such water-soluble antioxidants as ascorbic acid, superoxide dismutase, and (or) catalase, each examined at or near its optimal level in the same system. Using hepatocytes as a model, we further observed that Trolox reduced markedly the quantity of phospholipid conjugated dienes (a chemical imprint of oxyradical damage) in cells despite their exposure to oxyradicals. These data suggested that Trolox behaves as an antioxidant in cells as illustrated in hepatocytes.
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PMID:The cytoprotective effect of Trolox demonstrated with three types of human cells. 226 14

The oxidation of acetaldehyde (generated from the metabolism of ethanol) by oxidases such as xanthine oxidase generates free radicals which can mobilize ferritin iron, alter hepatic glutathione and produce lipid peroxidation. The stomach, a site of ethanol metabolism and rich in xanthine oxidase, was studied with respect to the effects of ethanol on intrinsic factor (IF) binding of vitamin B-12 as well as gastric glutathione (GSH). Incubations of gastric homogenates with acetaldehyde-xanthine oxidase inhibited the B-12 binding ability by IF. A large acute dose of ethanol in vivo (5 g/kg, conc. greater than 40% w/v) decreased gastric IF binding of B-12 and depressed gastric GSH; these effects were markedly attenuated by the feeding of sodium tungstate which inhibited xanthine oxidase. Changes in B-12 binding paralleled changes in gastric GSH. Scatchard plots of IF binding of B-12 for homogenates suggested decreased number of binding sites rather than altered affinity. In conclusion, the gastric metabolism of ethanol generates free radicals which alter IF binding of B-12, depress gastric GSH and may play a role in alcohol-induced gastric injury.
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PMID:Effect of ethanol-generated free radicals on gastric intrinsic factor and glutathione. 232 89

The mechanism by which hypoxia leads to irreversible cellular damage is poorly understood. A decrease in purine nucleotides is common to all ischaemic tissues, yielding hypoxanthine as the substrate of the xanthine oxidase reaction. Excessive production of radicals via xanthine oxidase induces peroxidation of unsaturated fatty acids, accompanied with the formation of aldehydes. The nucleotides and aldehydes were determined by high-performance liquid chromatography (HPLC) of red blood cell extracts. Nucleotides and their derivatives were determined by HPLC on an ODS column and elution with 10 mM phosphate buffer containing 2 mM tert.-butylammonium phosphate. The aldehyde production in glucose deprived red blood cells was stimulated by addition of xanthine oxidase and by inhibition of different haemotype enzymes with sodium azide. Aldehydes were analysed by derivatization to dinitrophenylhydrazones, followed by thin-layer chromatographic and HPLC separation with aqueous methanol on an ODS column. The HPLC methods presented are appropriate for the determination of nucleotides, nucleosides and nucleobases, in addition to alkenals and hydroxyalkenals in extracts of oxidatively stressed red blood cells.
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PMID:Interrelation between nucleotide degradation and aldehyde formation in red blood cells. Influence of xanthine oxidase on metabolism: an application of nucleotide and aldehyde analyses by high-performance liquid chromatography. 238 Feb 99

The interactions between lipid peroxidation and calcium in mediating damage to central nervous system membranes have been examined in several in vitro systems. Using isolated rat brain synaptosomes, brain mitochondria, or cultured fetal mouse spinal cord neurons, Ca2+ was found to markedly enhance lipid peroxidation-induced disruption of membrane function. Gamma-aminobutyric acid (GABA) uptake by synaptosomes was inhibited 25% by either lipid peroxidation (induced with xanthine and xanthine oxidase) or Ca2+ alone, whereas inhibition was 46% with their combination. Ca2+ enhancement of lipid peroxidation-induced damage to synaptosomes was intensified by the Ca2+ ionophore, A23187, and was partially blocked by the Ca2+ channel blocker, verapamil. Similarly, inhibition of state 3 respiration in isolated rat brain mitochondria was observed with Ca2+ and a free radical generating system (xanthine and xanthine oxidase) under conditions where either insult alone failed to cause detectable damage. Na+,K+-ATPase activity of cultured fetal mouse spinal cord neurons was inhibited 32% when cells were incubated for 30 minutes in the presence of both A23187 and a free radical generating system. However, Na+,K+-ATPase was not affected during a 30 minute incubation with either A23187 or radical generating system alone. In further studies, peroxidation of rat brain synaptosomes by ferrous iron (Fe2+) and H2O2 was coupled with a rapid and large (2-7-fold) uptake of Ca2+ by synaptosomes. Fe2+ also enhanced Ca2+ uptake by spinal cord neurons in culture, an effect that was coincident with peroxidation of neuronal membranes and the release of arachidonic acid from cells. Iron-induced Ca2+ uptake was blocked by high concentrations of either desferrioxamine or methylprednisolone, whereas Ca2+ channel blockers did not affect Ca2+ uptake induced by Fe2+. Finally, peroxidation of membrane lipids by Fe2+ was stimulated by Ca2+. Concentrations of Ca2+ as low as 10(-9) M increased peroxidation reactions within brain synaptosomal membranes. The results of these studies indicate that lipid peroxidation and Ca2+ can synergistically act to damage biologic membranes. The findings suggest that Ca2+ and lipid peroxidation cannot be considered as separate entities in the pathophysiology of CNS trauma. A hypothesis proposing an inseparable interplay between lipid peroxidation and Ca2+ in the pathogenesis of traumatic and ischemic cell injury is presented.
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PMID:Interaction of lipid peroxidation and calcium in the pathogenesis of neuronal injury. 242 24


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