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)

There is a correlation between phylogeny and the activities of L-gulonolactone oxidase (LGO), the key enzyme responsible for ascorbic acid (AH2) synthesis in animals and total xanthine oxidase and dehydrogenase [XOD(D/O)], the enzyme responsible for the production of endogenous superoxide radical (O2-.). LGO appears in the kidneys of amphibians and reptiles but livers of mammals. XOD(D/O) also is present mainly in the kidneys of amphibians and reptiles and livers of mammals. AH2 is a potential scavenger of O2-. and it appears that tissue specific expression of LGO takes place to counteract the endogenous O2-. toxicity. The interrelation of XOD(D/O) and LGO was also observed in the liver of rats during prenatal to postnatal development.
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PMID:Interrelation of xanthine oxidase and dehydrogenase and L-gulonolactone oxidase in animal tissues. 188 32

We reported previously that a transient occlusion followed by reperfusion of the portal vein and the hepatic artery of the rat significantly decreased the transhepatic transport of a cholephilic compound, and that this decrease was prevented by pretreating animals with poly(styrene co-maleic acid butyl ester)-conjugated superoxide dismutase (SM-SOD). To elucidate the mechanism for oxidative injury of the liver and the site for the generation of superoxide radicals, the effect of a portosystemic bypass on the liver function was examined in the rat whose hepatic vessels were temporarily occluded. A portosystemic bypass inhibited the reperfusion-induced decrease in hepatic transport of bromosulfophthalein as effectively as did SM-SOD. Kinetic analysis using 125I-labeled albumin revealed that the permeability of the small intestine markedly increased after a transient occlusion. The increase in intestinal permeability was also inhibited either by SM-SOD or by the portosystemic bypass. Xanthine oxidase activity in portal plasma markedly increased during occlusion and reperfusion, while it remained within normal ranges in the bypassed group. Thus, superoxide radical, and/or its metabolite(s), might play a critical role in increasing the intestinal permeability and in the pathogenesis of reperfusion-induced liver injury.
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PMID:Mechanism for enterohepatic injury caused by circulatory disturbance of hepatic vessels in the rat. 189 74

We investigated the interaction between activated cat polymorphonuclear neutrophils (PMNs) and coronary vascular endothelial cells in vitro. It was shown that 1) 90 minutes of low-flow perfusion without reperfusion had no deleterious effects on endothelium-dependent vasodilation, whereas 90 minutes of low-flow perfusion and 20 minutes of reperfusion with a blood cell-free solution induced a 20-25% endothelial dysfunction; 2) activated PMNs produced endothelium-dependent vasoconstriction in coronary artery rings isolated from cat hearts undergoing 90 minutes of low-flow perfusion and 20 minutes of reperfusion with a blood cell-free Krebs-Henseleit solution; 3) addition of the superoxide free radical scavenger, superoxide dismutase (150 micrograms/ml), or an antibody directed against CD18 of PMN adherence glycoprotein complex (MAbR15.7, 20 micrograms/ml) attenuated PMN-induced vasoconstriction significantly, but addition of a hydroxyl radical scavenger [N-(2-mercaptopropionyl)-glycine, 150 micrograms/ml], a cyclooxygenase inhibitor, or a lipoxygenase inhibitor had no protective effect; 4) exposure of rings to a superoxide radical-generating system (i.e., xanthine and xanthine oxidase) produced significant vasoconstriction that was similar to that observed with activated PMNs and was inhibited by superoxide dismutase; and 5) activated PMNs produced a marked coronary endothelial dysfunction characterized by a decreased response to the endothelium-dependent vasodilators acetylcholine and A23187. Addition of either superoxide dismutase or MAbR15.7 protected against endothelial dysfunction. These results indicate that activated PMNs produce significant vasoconstriction and endothelial dysfunction in coronary arteries isolated from low-flow perfusion-reperfused hearts. These effects appear to be mediated primarily by superoxide radicals generated by activated PMNs that either inactivate or inhibit the synthesis and release of endothelium-derived relaxing factor. We conclude that activated PMNs are able to induce endothelial dysfunction by releasing free radicals and possibly other substances.
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PMID:Neutrophil-mediated vasoconstriction and endothelial dysfunction in low-flow perfusion-reperfused cat coronary artery. 205 45

Iron bound to certain chelators is known to promote the conversion of superoxide radicals (O2-) to hydroxyl radicals (HO.) by the superoxide-driven Fenton reaction. The production of HO. by various iron chelates was studied using the reaction of dimethyl sulfoxide and HO. to produce methane sulphinic acid. Methane sulphinic acid was quantified by use of a simple colorimetric assay and used to determine the amounts of HO. produced. Superoxide was generated from 200 microM hypoxanthine and 0.05 U/ml xanthine oxidase in the presence of 0-100 microM iron and 100 microM of each chelator. The results of this preliminary investigation illustrate that, at physiological pH, the superoxide-driven Fenton reaction is significantly promoted by iron chelated to EDTA, nitrilotriacetate, and citrate, but is not promoted by the other anions studied.
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PMID:Quantitative effects of iron chelators on hydroxyl radical production by the superoxide-driven fenton reaction. 215 48

IgG1 is cleaved in vitro by granulocyte elastase into Fc, Fab and Fabc fragments. The cleaved products have been isolated by a series of chromatographic procedures and characterized with regard to molecular mass and isoelectric point. The Fc fragment has been previously shown to express at its N-terminal site a neoantigen which is specific for elastase (Kolb, G., Eckle, I., Heidtmann, H.-H., Neurath, F. & Havemann, K. (1988) Scand. J. Rheumatol. S75, 179-189). The production of superoxide radical anions in prestimulated neutrophils is inhibited dose-dependently by the elastase-generated Fc and Fabc fragments. Native IgG1 and Fab fragments show no inhibitory effect, nor do papain-generated Fc fragments. The degree of inhibition depends on the stimulus applied: half-maximal inhibition is obtained by 6 microM Fc after stimulation with 4 beta-phorbol and 2.4 microM after stimulation with fMet-Leu-Phe; neutrophils stimulated with serum-activated zymosan are not inhibited by IgG fragments. The effect of Fc is purely cellular; no inhibition of O2 generation can be produced by applying Fc to the xanthine oxidase/xanthine system. The fragments have no effect on the activation or activity of crude NADPH oxidase, which is the O2-forming enzyme system of neutrophils. Possible mechanisms are discussed by which Fc acts on stimulated neutrophils.
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PMID:Inhibition of neutrophil oxidative burst by elastase-generated IgG fragments. 215 63

NADH-lipoamide dehydrogenase mobilized iron from ferritin under aerobic conditions. Superoxide dismutase strongly inhibited this mobilization, indicating that the superoxide radical is generated by the enzymatic reaction and release iron from ferritin. Addition of lipoamide as an electron acceptor to NADH-lipoamide dehydrogenase increased the release of iron from ferritin and this release was partially inhibited by superoxide dismutase. Similarly, addition of menadione (2-methyl-1, 4-naphthoquinone) as an electron acceptor to xanthine-xanthine oxidase promoted the release of iron from ferritin and this release was strongly inhibited by superoxide dismutase. These results suggest that dihydrolipoamide and semiquinone of menadione can react with oxygen to form the superoxide radical that mediates release of iron from ferritin.
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PMID:Superoxide-mediated release of iron from ferritin by some flavoenzymes. 215 90

The ability of captopril and enalaprilat, 2 angiotensin-converting enzyme (ACE) inhibitors, to scavenge superoxide anion radical was examined. With use of a number of superoxide-generating systems, such as xanthine-xanthine oxidase, phorbol myristate acetate-activated neutrophils, auto-oxidizing dihydroxyfumarate, and auto-oxidation of epinephrine to adrenochrome, captopril was seen not to scavenge superoxide directly, because it did not inhibit superoxide-dependent cytochrome c or nitro-blue tetrazolium reduction. Superoxide-dependent cytochrome c reduction was inhibited only when captopril was preincubated with a lower concentration of cytochrome c (22 microM). This effect was due to a decrease in the concentration of cytochrome c, because captopril reduced cytochrome c directly. When this effect was compensated for, no cytochrome c reduction induced by superoxide was observed. Captopril inhibited the auto-oxidation of epinephrine to adrenochrome at pH 10.2 where this auto-oxidation is superoxide-dependent, and at pH 7.8 where it is superoxide-independent and superoxide dismutase insensitive. It appears that captopril, in this respect, acted as a nonspecific antioxidant, probably by reducing an intermediate in the complex oxidation of epinephrine to adrenochrome. Therefore, caution may be used in interpreting the role of captopril in the attenuation of reperfusion-induced myocardial dysfunction and in attributing this effect to the inhibition of free radical mechanism.
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PMID:Captopril and enalaprilat do not scavenge the superoxide anion. 215 92

Endothelium regulates smooth muscle tone in response to various agonists and antagonists by release of vasorelaxing and vasoconstricting factors. It also has been postulated that superoxide radicals, which degrade endothelium-derived relaxing factor, exert smooth muscle-constrictor effects. To determine the role of superoxide radicals on vasomotor tone, we exposed rat thoracic aortic rings in vitro to a superoxide radical-generating system of xanthine and xanthine oxidase (X + XO). In rings with intact endothelium, X + XO caused modest smooth muscle contraction and increased vascular sensitivity to both l-epinephrine and thromboxane A2 (TxA2) "mimic" U46619. These vascular contractile effects were more pronounced in rings without intact endothelium. In the supernates of vascular rings with intact endothelium, TxA2 and prostacyclin metabolites were identified on exposure of vascular rings to X + XO, indicating stimulation of the cyclooxygenase pathway. Although both superoxide radical scavenger superoxide dismutase and cyclooxygenase inhibitor indomethacin blocked release of TxA2 and prostacyclin, only superoxide dismutase blocked the contractile effects of superoxide radicals (p less than 0.05). Neither catalase nor mannitol had any effect on X + XO mediated vasoconstriction, suggesting that hydrogen peroxide and hydroxyl radicals did not participate in the observed effects of X + XO. Exposure of vascular rings to X + XO revealed extensive endothelial disruption as determined by scanning electron microscopy. Thus superoxide radicals exert procontractile effects on vascular smooth muscle and enhance its response to l-epinephrine and TxA2 mimic. These effects are probably exerted by injury to the endothelial barrier.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Superoxide radical-mediated endothelial injury and vasoconstriction of rat thoracic aortic rings. 216 May 8

When isolated rat heart mitochondria are subject to xanthine/xanthine oxidase generated free radicals, nmol quantities of ADP are phosphorylated to ATP. This effect is proportional to xanthine oxidase concentration, and is relatively independent of ADP concentration. Exogenous superoxide dismutase partially suppresses the phosphorylation. Micromolar concentrations of iron salts completely eliminate the phosphorylation. Catalase has no effect. The likely electron source, then, is superoxide radicals. The reduced minus oxidised spectra of superoxide-bombarded mitochondria show that superoxide enters the electron transport chain by reducing cytochrome c and complex IV. Mitochondria retain their ability to phosphorylate ADP in more traditional ways under the experimental conditions described. Superoxide under physiological conditions in vivo may be a source of electrons for the oxidative phosphorylation of ADP.
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PMID:Superoxide radical as electron donor for oxidative phosphorylation of ADP. 216 11

Previous studies indicate that release of superoxide radicals during coronary reperfusion following occlusion may relate to the loss of endothelium-dependent coronary arterial relaxation. We examined coronary arterial ring relaxation in dogs subjected to temporary circumflex (Cx) coronary artery occlusion and treated with saline or the superoxide radical scavenger superoxide dismutase (SOD). In dogs treated with saline, Cx coronary ring relaxation in response to leukotriene D4 (LTD4) and acetylcholine (ACh) was attenuated (p less than 0.01), but coronary relaxation in response to nitroglycerin was preserved, suggesting loss of endothelium-dependent relaxation following coronary reperfusion. In contrast, Cx coronary relaxation in response to LTD4 and ACh was preserved in the SOD-treated dogs (p less than 0.01 compared to saline-treated dogs). To further examine the role of superoxide radicals in the loss of endothelium-dependent relaxation, normal nonischemic canine coronary artery and rat aortic rings were exposed to a superoxide radical generating system of xanthine and xanthine oxidase in vitro. Xanthine plus xanthine oxidase treatment caused a significant (p less than 0.01) decrease in the relaxant effects of ACh. Pretreatment of rat aortic rings with SOD protected against the loss of ACh-induced relaxation. These observations suggest that release of superoxide radicals during reperfusion is the basis of loss of endothelium-dependent coronary arterial relaxation. Treatment with superoxide radical scavengers prior to coronary reperfusion protects against this loss.
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PMID:Coronary reperfusion in dogs inhibits endothelium-dependent relaxation: role of superoxide radicals. 216 76


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