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)

The authors studied the content of xanthine oxidase and the activity of the reparative process in the border of an acetate ulcer after Okabe in 48 rabbits before and during treatment by HBO, cytochrome c, and thymalin. In treatment by HBO and cytochrome c the activity of the enzyme was normalized rapidly, which coincided with cicatrization of the ulcer. In treatment with thymalin xanthinE oxidase activity was not normalized in this period and mucosal inflammation persisted in the zone of ulcer cicatrization.
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PMID:[Morphohistochemical appraisal of the efficacy of hyperbaric oxygenation, cytochrome c, and thymalin in the management of experimental gastric ulcers]. 196 88

We investigated the induction of Cu,Zn-SOD (bacteriocuprein) and Fe-SOD in Photobacterium leiognathi DK-A1 which was isolated from the light organ of the squid, Droteuthis kensaki. The induction of superoxide dismutases depended on the addition of paraquat to the medium. Induction of SOD by paraquat was attributed mostly to the bacteriocuprein by measuring of the activities of both SODs by using densitometry of isoelectrofocusing gel. When paraquat was added to the culture at various times in the early log phase of growth, the most efficient induction of the SODs, which was measured at the time of harvesting the cells (17 hours after inoculation), was observed when paraquat was added at 60 min after the inoculation. Catalase was not significantly induced by the addition of paraquat or increasing of oxygen concentration. We developed an assay of SOD by modification of a cytochrome c-xanthine oxidase method using a computer equipped absorption spectrophotometer.
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PMID:Induction of superoxide dismutases in Photobacterium leiognathi. 207 Oct 47

Thiourea and superoxide dismutase were effective antidotes to paraquat toxicity in an HL60 cell culture system, whereas other hydroxyl scavengers were ineffective. The efficacy of thioureas was not due to blockage of intracellular paraquat uptake, inhibition of NADPH-P-450 reductase, or reaction with the paraquat radical. Thiourea also competitively inhibited the reduction of cytochrome c by the xanthine/xanthine oxidase superoxide-generating system, and the release of iron from ferritin by superoxide radicals. The reaction of superoxide with thiourea produced a sulfhydryl compound distinct from products formed by hydrogen peroxide or hydroxyl radicals. Spectrophotometric and chromatographic studies indicated the carbon-sulfide double bond was converted to a sulfhydryl group which reacted with Ellman's reagent. Additional confirmatory evidence for the sulfhydryl compound was obtained with carbon-13 NMR and mass spectroscopies. Thus, thioureas are direct scavengers of superoxide radicals as well as hydroxyl radicals and hydrogen peroxide. The rate constant for the reduction of thiourea by superoxide was estimated at 1.1 x 10(3) M-1 s-1. The implication of this finding on free radical studies, the mechanism of paraquat toxicity, and the metabolism of thioureas is discussed.
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PMID:Thioureas react with superoxide radicals to yield a sulfhydryl compound. Explanation for protective effect against paraquat. 215 25

The reduction of a series of 2,5-bis(1-aziridinyl)-1,4-benzoquinone (BABQ) derivatives with various 3,6 substituents by the enzyme xanthine oxidase has been studied. The reduction rate has been assayed by measuring the rate of reduction of cytochrome c, which is very efficiently reduced by reduced BABQ species. Under nitrogen, the reduction rate correlated with the quinone reduction potential and steric parameters. Comparing reduction rates under nitrogen and air demonstrates that at BABQ concentrations greater than 25 microM the competition for electrons from xanthine oxidase between oxygen and the BABQ derivative is dominated by the latter. This is also confirmed by the effect of superoxide dismutase (SOD): in the presence of a BABQ derivative, cytochrome c reduction can be totally inhibited by SOD, although the required amount of SOD depends on the redox potential of the quinones. This indicates that SOD causes the equilibrium between semiquinone and superoxide to shift, resulting in a decrease of the semiquinone concentration. It is concluded that reduction by xanthine oxidase is a simple and effective method for reducing aziridinylbenzoquinones.
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PMID:Reductive activation of potential antitumor bis(aziridinyl)benzoquinones by xanthine oxidase: competition between oxygen reduction and quinone reduction. 215 55

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

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

The effects of quinones (benzoquinone, menadione, and doxorubicin) on the superoxide production in cell free systems (xanthine oxidase and rat liver microsomes) and of polycationic electrolyte- and latex-stimulated rat peritoneal macrophages have been studied. Contradictory results were obtained in cell free systems when two traditional assays for detection of superoxide ion, the cytochrome c reduction and the lucigenin-dependent chemiluminescence (CL), were used: all quinones inhibited the lucigenin-dependent CL at sufficiently large concentrations, but they did not inhibit at all the reduction of cytochrome c. It was proposed that the cytochrome c assay gave erroneous results due to the reversibility of the interaction of semiquinones with dioxygen. The effect of quinones on the superoxide production by peritoneal macrophages was biphasic: all quinones stimulated the O2-. formation at low concentrations and inhibited it at elevated concentrations. It was concluded that among the quinones studied, only menadione was capable of stimulating the superoxide production via a one-electron transfer mechanism in cell free systems, while the stimulatory effect of small concentrations of quinones on the O2-. production in macrophages was possibly due to their action on the activation of NADPH oxidase.
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PMID:Are quinones producers or scavengers of superoxide ion in cells? 216 57

Acute cerebral ischemia increases the generation of free radicals, causing cell damage, and theoretically may decrease the activity of the scavenging enzyme superoxide dismutase. To investigate the role of superoxide dismutase in cerebral ischemia, we used a model of middle cerebral artery occlusion in rats. In this model an infarct is produced in the pyriform and frontoparietal cortices, extending into the lateral basal ganglia. We measured superoxide dismutase activity by using the xanthine oxidase cytochrome c reduction assay in these areas of rat brains. Tissue samples were analyzed 20 minutes, 2, 6, or 24 hours, or 7 days after middle cerebral artery occlusion and 2 or 24 hours or 7 days after sham operation (n = 8-10 at each time). There was no significant change in superoxide dismutase activity relative to control values in any brain area at any time up to 24 hours after surgery. However, 7 days after middle cerebral artery occlusion a significant decline in superoxide dismutase activity, to 55%-68% (p less than 0.05) of that in unoperated controls, was observed in all brain areas. Our results do not support an important role for changes in the activity of endogenous superoxide dismutase during the acute phase of cerebral ischemia. However, the decrease in superoxide dismutase activity 7 days after ischemia could indicate ongoing additional damage to peri-infarct tissue.
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PMID:Effect of ischemia induced by middle cerebral artery occlusion on superoxide dismutase activity in rat brain. 223 56

Superoxide dismutase (superoxide: superoxide oxidoreductase, EC 1.15.1.1) (SOD) and ferricytochrome c are used to check the effects on luminol chemiluminescence induced by a xanthine or hypoxanthine/xanthine oxidase/oxygen system. Luminol chemiluminescence has been attributed to superoxide anion radical (O2.-) in this system. From kinetic studies on the light intensity vs. time curves it is demonstrated that addition of SOD into the system does not affect the mechanism of O2.- generation, whilst ferricytochrome c dramatically alters the time-course of the reaction. This is interpreted as the effect of cytochrome c redox cycling by reaction with H2O2, modifying oxy-radical generation in the reaction medium. Also, an alternative mechanism for luminol chemiexcitation is proposed under certain experimental conditions.
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PMID:Comparison of the effects of superoxide dismutase and cytochrome c on luminol chemiluminescence produced by xanthine oxidase-catalyzed reactions. 253 90

Ceruloplasmin (CP) was found to inhibit xanthine oxidase and ferritin-dependent peroxidation of phospholipid liposomes, as evidenced by decreased malondialdehyde formation. Ceruloplasmin was also shown to inhibit superoxide-mediated mobilization of iron from ferritin, in a concentration-dependent manner, as measured spectrophotometrically using the iron(II) chelator bathophenanthroline sulfonate. Ceruloplasmin failed to function as a peroxyl radical-scavenging antioxidant as evidenced by its inability to inhibit free radical-initiated peroxidation of linoleic acid, suggesting that CP inhibited lipid peroxidation by affecting the availability of ferritin-derived iron. In addition, CP scavenged xanthine oxidase-derived superoxide as measured spectrophotometrically via its effect on cytochrome c reduction. However, the extent of the superoxide scavenging of CP did not quantitatively account for its effects on iron release, suggesting that CP inhibits superoxide-dependent mobilization of ferritin iron independently of its ability to scavenge superoxide. The effects of CP and apoferritin on iron-catalyzed lipid peroxidation in systems containing exogenously added ferrous iron was also investigated. In the absence of apoferritin, CP exhibited a concentration-dependent prooxidant effect. However, CP-dependent, iron-catalyzed lipid peroxidation was inhibited by the addition of apoferritin. Apoferritin did not function as a peroxyl radical-scavenging antioxidant but was shown to incorporate iron in the presence of CP. These data suggest that CP inhibits superoxide and ferritin-dependent lipid peroxidation largely via its ability to reincorporate reductively mobilized iron back into ferritin.
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PMID:Inhibition of superoxide and ferritin-dependent lipid peroxidation by ceruloplasmin. 253 39


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