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: UNIPROT:P47989 (xanthine oxidase)
8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intravenous administration of xanthine (X: 0.225 mg/kg, i.v.) plus xanthine oxidase (XO: 3.0 units/kg, i.v.) to anesthetized rats resulted in a rapid fall in the arterial pressure and a mortality rate of over 80% during 120 min observation period. Pretreatment of the rats with superoxide dismutase (SOD) or SOD plus catalase significantly enhanced survival rate to 60% confirming that the toxicity after [X + XO] administration is due to the generation of oxygen free radicals. Pretreatment of the rats with either felodipine, a dihydropyridine calcium antagonist or verapamil, a structurally different Ca(2+)-channel blocker was most effective in promoting survival rate to 90%; in contrast, hydralazine, an arteriolar dilator but not a calcium antagonist, was ineffective in significantly enhancing survival. In the vehicle treated groups, mortality of the rats after [X + XO] administration was associated with significant increases in serum creatine phosphokinase (CPK) levels; both the calcium antagonists as well as hydralazine prevented any significant changes in CPK levels. Since only the calcium antagonists but not hydralazine were effective in providing significant protection against mortality, the data suggests that CPK may not be a reliable indicator to predict prevention of lethal toxicity induced by free radicals. Hence, the observation that calcium antagonists can promote survival would suggest that calcium overload may be the ultimate mediator of tissue toxicity. These observations can account for the remarkable efficacy of various calcium antagonists in preventing ischemia-reperfusion induced damage to organs, such as heart and kidneys, in which a role for free radicals has been postulated.
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PMID:Evaluation of the effects of felodipine, verapamil and hydralazine on the survival rate of rats subjected to lethal effects of oxygen free radicals. 143 30

The conversion of xanthine dehydrogenase to xanthine oxidase and lipid peroxidation were measured in brain from carbon monoxide- (CO) poisoned rats. Sulfhydryl-irreversible xanthine oxidase increased from a control level of 15% to a peak of 36% over the 90 min after CO poisoning, while the conjugated diene level doubled. Reversible xanthine oxidase was 3-6% of the total enzyme activity over this span of time but increased to 31% between 90 and 120 min after poisoning. Overall, reversible and irreversible xanthine oxidase represented 66% of total enzyme activity at 120 min after poisoning. Rats depleted of this enzyme by a tungsten diet and those treated with allopurinol before CO poisoning to inhibit enzyme activity exhibited no lipid peroxidation. Treatment immediately after poisoning with superoxide dismutase or deferoxamine inhibited lipid peroxidation but had no effect on irreversible oxidase formation. Biochemical changes only occurred after removal from CO, and changes could be delayed for hours by continuous exposure to 1,000 ppm CO. These results are consistent with the view that CO-mediated brain injury is a type of postischemic reperfusion phenomenon and indicate that xanthine oxidase-derived reactive oxygen species are responsible for lipid peroxidation.
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PMID:Dehydrogenase conversion to oxidase and lipid peroxidation in brain after carbon monoxide poisoning. 144 8

The role of endothelium-derived relaxing factor (EDRF) on the effect of oxygen-derived free radicals (generated by xanthine-xanthine oxidase system) on intrapulmonary arterial in chronic hypoxic rats was studied by a microbioassay method. Intrapulmonary artery rings with intact or denuded endothelium of hypoxic (5,000 m, 10 days) and normoxic rats were prepared for observation of oxygen-derived free radicals induced contraction. It was shown that oxygen-derived free radicals induced contractions of intrapulmonary arterial rings with intact endothelium were obviously augmented in hypoxic rats than in normoxic controls. The augmented responses could be further potentiated by the addition of EDRF inactivator reduced hemoglobin (RHb), but diminished or even abolished by applying superoxide dismutase (Cu-Zn SOD). However, no effect on denuded rings was observed when RHb or SOD was added. It is concluded that chronic hypoxia may attenuate the action of EDRF in the enhancement of the reactivity of intrapulmonary artery to oxygen-derived free radicals.
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PMID:[Role of endothelium-derived relaxing factor in the contractions of intrapulmonary artery induced by oxygen-derived free radicals in chronic hypoxic rat]. 145 57

The stable free radical Tempol (4-hydroxy-2,2,6,6-tetramethyl-piperidinyloxy) has been shown to protect against X-ray-induced cytotoxicity and hydrogen peroxide- or xanthine oxidase-induced cytotoxicity and mutagenicity. The ability of Tempol to protect against X-ray- or neocarzinostatin (NCS)-induced mutagenicity or DNA double-strand breaks (dsb) was studied in Chinese hamster cells. Tempol (50 mM) provided a protection factor of 2.7 against X-ray-induced mutagenicity in Chinese hamster ovary (CHO) AS52 cells, with a protection factor against cytotoxicity of 3.5. Using the field inversion gel electrophoresis technique of measuring DNA dsb, 50 mM Tempol provides a threefold reduction in DNA damage at an X-ray dose of 40 Gy. For NCS-induced damage, Tempol increased survival from 9% to 80% at 60 ng/mL NCS and reduced mutation induction by a factor of approximately 3. DNA dsb were reduced by a factor of approximately 7 at 500 ng/mL NCS. Tempol is representative of a class of stable nitroxide free radical compounds that have superoxide dismutase-mimetic activity, can oxidize metal ions such as ferrous iron that are complexed to DNA, and may also detoxify radiation-induced organoperoxide radicals by competitive scvenging. The NCS chromophore is reduced by sulfhydryls to an active form. Electron spin resonance (ESR) spectroscopy shows that 2-mercaptoethanol-activated NCS reacts with Tempol 3.5 times faster than does unactivated NCS. Thus, Tempol appears to inactivate the NCS chromophore before a substantial amount of DNA damage occurs.
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PMID:Nitroxide-mediated protection against X-ray- and neocarzinostatin-induced DNA damage. 145 74

Feeding calculi producing diet (CPD) to rats for 4 weeks produced calcium oxaltate stones. Supplementation of sodium citrate to CPD (c-CPD) prevented stone formation. Except oxalate, the excretion of calcium, phosphorus and magnesium was restored to normal in c-CPD fed rats. The CPD fed rats exhibited increase in glycolic acid oxidase (GAO) and lactate dehydrogenase (LDH) activities and only GAO activity was partially restored in c-CPD fed rats. Kidney sub-cellular fractions of calculi producing diet (CPD) fed rats showed increased susceptibility for lipid peroxidation in presence of promotors. Antioxidant enzyme activities of superoxide dismutase (SOD), catalase and glutathione peroxidase and antioxidant concentrations of reduced glutathione, total thiols, ascorbic acid and vitamin E were significantly decreased while the xanthine oxidase activity, and concentrations of hydroxyl radical, diene conjugates and hydroperoxides were significantly increased in CPD fed rats. The susceptibility to lipid peroxidation, activities of antioxidant enzymes, and the concentration of antioxidants were not normalized by feeding citrate.
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PMID:Effect of citrate feeding on free radical induced changes in experimental urolithiasis. 145 50

The aim of this work was to assess the catalytic activity of xanthine oxidase, the level of lipid peroxides and enzymic antioxidant systems in isolated rat heart muscle subjected to a globally partial ischemia followed by varying durations of reperfusion. After 40 min of globally partial ischemia (residual perfusion flow rate: 0.1 ml/min), four different durations of reperfusion were investigated (0, 20, 40, and 60 min). After each experimental ischemia/reperfusion sequence, the heart was frozen in liquid nitrogen. Lipid peroxides were assayed in the cardiac homogenate and the catalytic activity of xanthine oxidase and enzymic antioxidant systems (glutathione peroxidase, superoxide dismutase and catalase) were determined in the centrifuged supernatant. In the different experimental protocols studied in this work, there was no significant increase in the activity of cardiac xanthine oxidase or in the level of lipid peroxides when compared to the non reperfused or to the continuously perfused hearts. Indeed, enzymic antioxidant systems were also not significantly modified in the different periods of reperfusion when compared to control hearts (continuously perfused hearts). These results suggest that xanthine oxidase is apparently not a major source of free radicals in the course of an ischemia-reperfusion sequence in heart muscle, in particular, if we consider the early phases of reperfusion. The process of lipid peroxidation, assessed by assaying thiobarbituric acid reactants, is not a predominant phenomenon of reperfusion-induced injury, at least in the experimental model used here. However, enzymic antioxidant systems investigated in this study do not seem modified. This could mean that the small quantity of oxygen free radicals produced does not overwhelm the enzymic antioxidant systems of myocardium which is in agreement with peroxidatized lipid results.
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PMID:Ischemia and reperfusion injury in isolated rat heart: effect of reperfusion duration on xanthine oxidase, lipid peroxidation, and enzyme antioxidant systems in myocardium. 146 31

The interaction between milk xanthine oxidase (XO) and lactoperoxidase (LP) in model system and antimicrobial action of these enzymes on Escherichia coli 0-111 were studied. It was shown, that bacterial superoxide dismutase (SOD), which transforms O2-. (XO-reaction product) into H2O2 (substrate of LP), is necessary for binding of the reaction sequence: XO-->LP-->antimicrobial products. It is suggested, that these enzymes unite in the protective system in intestinal infections of newborns. Bacterial SOD in this case acts as the key factor, creating the system.
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PMID:[Free-radical mechanism of antimicrobial action of xanthine oxidase and lactoperoxidase]. 147 55

Rat ventricular myocytes have been isolated and cultured by two separate procedures. Using phase-contrast and electron microscopies, we illustrate that (a) definitive cell damage is produced when myocytes are exposed to xanthine oxidase--hypoxanthine and (b) purpurogallin between 0.25 and 1.0 mM prolongs survival of both myocyte preparations in a dose-dependent manner. The cytoprotection produced by 1 mM purpurogallin exceeds that given by 2 mM each of ascorbate, Trolox, and mannitol, or 24,200 IU superoxide dismutase/L and (or) 92,000 IU catalase/L. Furthermore, we noted, for the first time, that purpurogallin markedly protects rat aortic endothelial cells, a key target of free radical generation and attack. In contrast, Trolox has a negligible effect here. Mechanistically, we showed that purpurogallin inhibits urate formation by xanthine oxidase more potently than allopurinol. Also, the compound diminishes formation of superoxide-reduced cytochrome c. Therefore, purpurogallin is a potent protector of ventricular myocytes and aortic endothelial cells, both of which are important cells in the cardiovascular system.
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PMID:Purpurogallin protects both ventricular myocytes and aortic endothelial cells of rats against oxyradical damage. 148 57

We propose new hypotheses for the mechanisms of streptozotocin (STZ) and alloxan inducing experimental diabetes in animals. STZ is transported into pancreatic beta cells through glucose transporter in the cell membranes and attacks mitochondria. Mitochondrial ATP generation is inhibited and the resulting high concentration of intracellular ADP causes its degradation providing hypoxanthine, a substrate of xanthine oxidase (XOD) whose activity is intrinsically very high in beta cells. Then, XOD-catalyzing reaction is proceeded as proved by increased formation of uric acid and O2- radicals are produced, but beta cells are inefficient to scavenge these radicals because of their extremely low activity of superoxide dismutase. On the other hand, STZ directly activates XOD and enhances O2- generation. Consequently, pancreatic beta cells are dually suffered from O2- radicals or probably hydroxyl radicals derived from the former when exposed to STZ. Allopurinol, an inhibitor of XOD, can protect animals from the diabetogenic effect of STZ. In pancreatic beta cells, alloxan anion radicals are generated from alloxan probably mediated by the action of microsomal cytochrome P-450 system. These radicals have long half-life and directly damage DNA in vitro. The widely accepted hypothesis that the cause of alloxan-induced diabetes is attributable to O2- radicals formed from alloxan is excluded, because alloxan itself shows a very potent scavenging effect to O2- radicals. Therefore alloxan anion radicals seem to be directly related to the incidence of diabetes by alloxan.
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PMID:[New hypotheses for the mechanisms of streptozotocin and alloxan inducing diabetes mellitus]. 148 45

1. In the guinea-pig isolated perfused lung exposed to hypoxia by infusing N2-gassed Krebs solution, angiotensin II and histamine produced a reduced vasoconstrictor response when compared with the responses obtained in nonhypoxic lung. 2. These reduced vasoconstrictor responses were prevented by prior addition of superoxide dismutase or allopurinol to the medium. 3. These results were taken as evidence for the initiation of the cascade free radical formation in the guinea-pig lung during hypoxia and the primary role of the released intracellular xanthine oxidase. 4. Possible mechanisms of the reduced responses to angiotensin II and histamine and tissue protective activities of allopurinol and superoxide dismutase are discussed.
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PMID:Superoxide dismutase and allopurinol prevent the pressor effects of angiotensin II and histamine in the guinea-pig isolated perfused lung exposed to hypoxia. 148 26


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