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)

The production of reactive oxygen species in the ovary is rapidly inducible, but the nature of the generator is unknown. One possibility is xanthine oxidase (XO), an enzyme that produces superoxide in the presence of hypoxanthine (or xanthine) and oxygen. The objective of the present studies was to measure levels of XO in follicular and luteal tissue to determine whether XO may be a source of reactive oxygen species in the rat ovary. Ovarian levels of XO were about one-fifth of that seen in the liver and adrenal, and XO levels were about one-third of xanthine dehydrogenase (XDH). Preovulatory ovarian levels of XO activity were unchanged after induction of ovulation with gonadotropin and in follicles incubated with gonadotropin. Luteal XO activity was not changed during natural or prostaglandin F2 alpha (PGF2 alpha)-induced luteolysis. Allopurinol, an inhibitor of XO, did not inhibit ovulation or PGF2 alpha-induced luteal regression. Finally, neither catalase and superoxide dismutase nor oxypurinol altered luteal cell function in the presence of hypoxanthine. Thus, while XO is present in the ovary, it does not appear that it is a major source of reactive oxygen species in this organ.
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PMID:Xanthine oxidase and dehydrogenase activities in rat ovarian tissues. 131 8

Plasmodium knowlesi (a simian malarial parasite) infection resulted in elevation of hepatic oxidative stress in monkeys. Further, the antioxidant defence system of the host was also noticeably affected. The infected monkeys showed a marked increase in the levels of superoxide (O2-), lipid peroxidation (LPO), glutathione (GSH) and xanthine oxidase (XO), and decreased levels of superoxide dismutase (SOD) and catalase. Oral administration of chloroquine (20 mg kg body wt-1 for 3 days) to infected monkeys caused recovery trends in oxidative stress and antioxidant defences to almost normal a week after cessation of drug treatment.
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PMID:Status of oxidative stress and antioxidant defences during Plasmodium knowlesi infection and chloroquine treatment in Macaca mulatta. 131 84

The purpose of this study was to explore the role of singlet oxygen in cardiovascular injury. To accomplish this objective, we investigated the effect of singlet oxygen [generated from photoactivation of rose-bengal] on the calcium transport and Ca(2+)-ATPase activity of cardiac sarcoplasmic reticulum and compared these results with those obtained by superoxide radical, hydrogen peroxide and hydroxyl radical. Isolated cardiac SR exposed to rose bengal (10 nM) irradiated at (560 nm) produced a significant inhibition of Ca2+ uptake; from 2.27 +/- 0.05 to 0.62 +/- 0.05 mumol Ca2+/mg.min (mean +/- SE) (P less than 0.01) and Ca(2+)-ATPase activity from 2.08 +/- 0.05 mumol Pi/min.mg to 0.28 +/- 0.04 mumol Pi/min.mg (mean +/- SE) (P less than 0.01). The inhibition of calcium uptake and Ca(2+)-ATPase activity by rose bengal derived activated oxygen (singlet oxygen) was dependent on the duration of exposure and intensity of light. The singlet oxygen scavengers ascorbic acid and histidine significantly protected SR Ca(2+)-ATPase against rose bengal derived activated oxygen species but superoxide dismutase and catalase did not attenuate the inhibition. SDS-polyacrylamide gel electrophoresis of SR exposed to photoactivated rose bengal up to 14 min, demonstrated complete loss of Ca(2+)-ATPase monomer band which was significantly protected by histidine. Irradiation of rose bengal also caused an 18% loss of total sulfhydryl groups of SR. On the other hand, superoxide (generated from xanthine oxidase action on xanthine) and hydroxyl radical (0.5 mM H2O2 + Fe(2+)-EDTA) as well as H2O2 (12 mM) were without any effect on the 97,000 dalton Ca(2+)-ATPase band of sarcoplasmic reticulum.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Singlet oxygen: a potential culprit in myocardial injury? 131 3

Oxygen free radicals have been demonstrated to be important mediators in postischemic reperfusion injury. In this study, I determined the superoxide and the hydrogen peroxide generation from human umbilical endothelial cells on reoxygenation following anoxic incubation (1% O2, 5% CO2, 94% N2). The superoxide generation, detected by the reduction of cytochrome, c, was at its maximum 3 minutes after reoxygenation in any anoxic interval. The hydrogen peroxide production, detected by the fluorometric analysis, was observed later than that of superoxide. Treatment of EC with superoxide dismutase and allopurinol attenuated the superoxide production, and catalase attenuated the hydrogen peroxide. Cell injury was assessed by both fura-2 release assay and trypan blue dye exclusion methods. Although cell injury was less than 20% in anoxic condition, it was remarkably increased after reoxygenation. However this cell injury was not completely prevented in the presence of free radical scavengers. Allopurinol was more effective than superoxide dismutase or catalase. In conclusion, EC are the major source of free radicals in postischemic reperfusion which are originated mainly from xanthine-xanthine oxidase system and these radicals may also contribute, at least in part, to the EC injury.
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PMID:[Measurement of free radical generation from endothelial cells and observation of cell injury exposed to anoxia-reoxygenation]. 131 95

Since 3-hydroxyanthranilic acid (3HAA), an oxidation product of tryptophan metabolism, is a powerful radical scavenger [Christen, S., Peterhans, E., & Stocker, R. (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 2506], its reaction with peroxyl radicals was investigated further. Exposure to aqueous peroxyl radicals generated at constant rate under air from the thermolabile radical initiator 2,2'-azobis[2-amid-inopropane] hydrochloride (AAPH) resulted in rapid consumption of 3HAA with initial accumulation of its cyclic dimer, cinnabarinic acid (CA). The initial rate of formation of the phenoxazinone CA accounted for approximately 75% of the initial rate of oxidation of 3HAA, taking into account that 2 mol of 3HAA are required to form 1 mol of CA. Consumption of 3HAA under anaerobic conditions (where alkyl radicals are produced from AAPH) was considerably slower and did not result in detectable formation of CA. Addition of superoxide dismutase enhanced autoxidation of 3HAA as well as the initial rates of peroxyl radical-induced oxidation of 3HAA and formation of CA by approximately 40-50%, whereas inclusion of xanthine/xanthine oxidase decreased the rate of oxidation of 3HAA by approximately 50% and inhibited formation of CA almost completely, suggesting that superoxide anion radical (O2.-) was formed and reacted with reaction intermediate(s) to curtail formation of CA. Formation of CA was also observed when 3HAA was added to performed compound I of horseradish peroxidase (HRPO) or catalytic amounts of either HRPO, myeloperoxidase, or bovine liver catalase together with glucose/glucose oxidase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidation of 3-hydroxyanthranilic acid to the phenoxazinone cinnabarinic acid by peroxyl radicals and by compound I of peroxidases or catalase. 132 27

Active oxygen species cause gastric mucosal damage in vivo. However, it is not known if these species are directly cytotoxic toward gastric cells. Prostaglandins have important physiological roles in the gastric mucosa, including direct cell protection against damaging factors. So, to find if active oxygen species affect prostaglandin synthesis in gastric mucosal cells is important, but this also is not known. This study was done to investigate the effects of such species on damage to and prostaglandin synthesis in cultured mucus-producing cells from rat gastric mucosa. Active oxygen species were produced by the addition of xanthine and xanthine oxidase to the culture medium. Cytotoxicity was assayed by 51Cr release. Xanthine (1 mM) and xanthine oxidase (100 mU/ml) increased specific 51Cr release as the thiobarbituric acid reactants increased. This increase in 51Cr release was inhibited by catalase, a scavenger of hydrogen peroxide, or dimethyl sulfoxide, a scavenger of hydroxyl radicals, but not by superoxide dismutase, a scavenger of superoxide, nor deferoxamine, an inhibitor of hydroxyl radical generation. Catalase, dimethyl sulfoxide, and superoxide dismutase each had no effect on prostaglandin E2 synthesis when xanthine and xanthine oxidase were not added. In the presence of xanthine and xanthine oxidase, catalase and dimethyl sulfoxide stimulated the synthesis of prostaglandin E2 and superoxide dismutase inhibited it. Indomethacin, a prostaglandin synthetase inhibitor, did not affect the decrease in 51Cr release caused by catalase in the presence of xanthine and xanthine oxidase, but it abolished the decrease caused by dimethyl sulfoxide. These results suggest that hydrogen peroxide, but not superoxide nor hydroxyl radicals, is involved in damage to cultured rat gastric cells, and that superoxide stimulates prostaglandin E2 synthesis, but that hydrogen peroxide inhibits it. Protection of the cells by dimethyl sulfoxide may be related to stimulation of prostaglandin E2 synthesis in the cells, but not via scavenging hydroxyl radicals.
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PMID:Effects of active oxygen species on damage to and prostaglandin synthesis in cultured rat gastric cells. 132 36

The mechanism of modulation of cyclic guanosine monophosphate (cGMP) accumulation by methylene blue (MB), a putative inhibitor of soluble guanylate cyclase, was investigated in cultured rabbit pulmonary arterial smooth muscle cells (RPASM). Control or MB-pretreated RPASM were stimulated with sodium nitroprusside (SNP), nitrosothiols or endothelium-derived relaxing factor (EDRF) released basally from bovine pulmonary arterial endothelial cells, in short-term co-cultures. The putative EDRF, S-nitroso-L-cysteine (CYSNO), a stable deaminated analog of CYSNO, S-nitroso-3-mercaptoproprionic acid (MPANO) and SNP produced concentration-dependent (1-100 microM) increase (1.5- to 12-fold) in RPASM cGMP levels. MB pretreatment inhibited CYSNO and SNP-induced cGMP accumulation by 51% to 100%, but MPANO-mediated responses were not altered by MB. The inhibition profile of MB on nitrovasodilator-induced cGMP accumulation was quantitatively reproduced by extracellular generation of superoxide anion with xanthine (100 microM) and xanthine oxidase (5 mU). Similarly to MB pretreatment, superoxide anion generation had no effects on base-line cGMP levels or cGMP responses elicited by MPANO. Furthermore, MB induced a dose- and time-dependent generation of superoxide anion from RPASM, as evidenced from spectrophotometric determination of cytochrome c reduction. Inhibition of cGMP accumulation in response to CYSNO and SNP by MB was completely prevented by superoxide dismutase but not catalase. Selective pretreatment of endothelial cells with MB before co-culture with untreated RPASM produced a reduction in RPASM cGMP levels of a magnitude comparable with that seen in co-cultures of MB-pretreated RPASM with untreated endothelial cells, and which was partially prevented by superoxide dismutase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Methylene blue inhibits nitrovasodilator- and endothelium-derived relaxing factor-induced cyclic GMP accumulation in cultured pulmonary arterial smooth muscle cells via generation of superoxide anion. 132 4

The sensitivity of Candida albicans cells to killing by hydrogen peroxide was found to increase markedly when they were grown in the presence of sub-growth-inhibitory concentrations of the azole drug clotrimazole (CTZ). A superoxide anion-generating system consisting of xanthine and xanthine oxidase also killed such CTZ-treated cells more efficiently than control cells, but this seemed to be accounted for by hydrogen peroxide secondarily formed from superoxide anion as judged by the effect of catalase and superoxide dismutase. The increased sensitivity to hydrogen peroxide was considered to be attributable to the inhibition of 14 alpha-demethylation of ergosterol biosynthesis by CTZ, since a 14 alpha-demethylation-deficient mutant of C. albicans exhibited a similar phenotype. It is suggested that the in vivo efficacy of azole antifungal agents against C. albicans infection is at least partially due to the sensitization of the fungal cells to the oxygen-dependent microbicidal system of the phagocyte.
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PMID:Increased sensitivity of Candida albicans cells accumulating 14 alpha-methylated sterols to active oxygen: possible relevance to in vivo efficacies of azole antifungal agents. 132 23

We investigated the peroxidative effect of paraquat and active oxygens on detergent-dispersed linolenic acid in phosphate buffer (pH 7.5) from the malondialdehyde (MDA) level. Our complete system and further inclusion of catalase were effective in stimulating MDA formation. On the other hand, xanthine oxidase (XOD) or paraquat omission, superoxide dismutase (SOD) inclusion or anaerobic incubation inhibited the formation of MDA. Ferrous ion was weakly associated with phosphate of the buffer, forming a complex, and the release of ferrous ion from the complex intensified the MDA levels with the complete and catalase inclusion systems. The electron paramagnetic resonance (EPR) spectra using 5,5-dimethyl-1-pyrroline N-oxide (DMPO) showed that superoxide, produced immediately after the addition of XOD, played a crucial role. We could obtain a DMPO-OOH signal at the starting stage whenever MDA stimulation was observed. The omission of paraquat, however, produced no increase in MDA level in spite of an appearance of DMPO-OOH signal, indicating that paraquat also plays an important role. On the other hand, Desferal, a ferric chelator, showed a concentration-dependent inhibition effect. There was an immediate strong intensity of DMPO-OOH and paraquat signals. We did not, however, observe MDA stimulation at 250 microM Desferal, which confirms that ferrous ion plays an essential role in the lipid peroxidation. These results indicate a combined action of paraquat (or its radical) and superoxide on the accessibility of ferrous ion, including its release from the complex with phosphate, which may be an endogenous chelator. The possibility of ternary complex participation is also discussed.
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PMID:Combined action of paraquat and superoxide on the peroxidation of detergent-dispersed linolenic acid. 132 74

This study was undertaken to examine the effects of oxygen free radicals on mitochondrial creatine kinase activity in rat heart. Xanthine plus xanthine oxidase (superoxide anion radical generating system) reduced mitochondrial creatine kinase activity both in a dose- and a time-dependent manner. Superoxide dismutase showed a protective effect on depression in creatine kinase activity due to xanthine plus xanthine oxidase. Hydrogen peroxide inhibited creatine kinase activity in a dose-dependent manner, this inhibition was protected by the addition of catalase. In order to understand the detailed mechanisms by which oxygen free radicals inhibit mitochondrial creatine kinase activity, the effects of oxygen free radicals on mitochondrial sulfhydryl groups were examined. Mitochondrial sulfhydryl groups contents were decreased by xanthine plus xanthine oxidase or hydrogen peroxide; this depression in sulfhydryl groups contents was prevented by the addition of superoxide dismutase or catalase. N-Ethylmaleimide (sulfhydryl group reagent) expressed inhibitory effects on the creatine kinase activity both in a dose- and a time-dependent manner; dithiothreitol or cysteine (sulfhydryl group reductant) showed protective effects on the creatine kinase activity depression induced by N-ethylmaleimide. Dithiothreitol or cysteine also blocked the depression of mitochondrial creatine kinase activity caused by xanthine plus xanthine oxidase or hydrogen peroxide. These results lead us to conclude that oxygen free radicals may inhibit mitochondrial creatine kinase activity by modifying sulfhydryl groups in the enzyme protein.
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PMID:Decrease in heart mitochondrial creatine kinase activity due to oxygen free radicals. 132 80


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