UNIPROT:P47989 - FACTA Search

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

Effect of superoxide radical (O2-) produced extracellularly by hypoxanthine (HX) and xanthine oxidase (XO) on invasive capacity of rat ascites hepatoma cells was studied. Invasive capacity was estimated in vitro by counting the number of tumor cell colonies penetrated underneath cultured mesothelial cell monolayer. When the tumor cells had been treated with non-toxic doses of HX and XO, the formation of penetrated colonies increased with increasing concentrations of XO. This increment was completely inhibited by scavengers of active oxygen radicals, superoxide dismutase (SOD) in combination with catalase (CAT) added simultaneously at the time of HX-XO treatment.
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PMID:Superoxide radical potentiates invasive capacity of rat ascites hepatoma cells in vitro. 301 47

Methylguanidine (MG), a toxin reported in uremia, is thought to be a product of creatinine oxidation. This study is designed to demonstrate the role of active oxygen in the oxidation of creatinine under conditions compatible with those found in uremia. MG synthesis is moderately stimulated by the superoxide radical derived from 3 mM hypoxanthine and 0.015 units/ml xanthine oxidase and inhibited by the addition of superoxide dismutase. This is increased markedly by the addition of 0.05% hydrogen peroxide and augmented to about 56,000 times the control rate in the presence of hydroxyl radicals derived from the reaction of 10 mM FeSO4 and 0.05% hydrogen peroxide. In addition, MG synthesis is inhibited by the addition of sorbitol, lactulose or ethanol, the scavengers of hydroxyl radicals. These results indicate that creatinine can be oxidized to MG by various species of active oxygen and that one of the mechanisms of MG synthesis is such oxidation. MG, therefore, may be a useful indicator of peroxidation in vivo.
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PMID:Active oxygen in methylguanidine synthesis. 302 53

The superoxide radical O2.-, whether produced by the xanthine/xanthine oxidase reaction or infused as KO2, solubilized by a crown ether in dry dimethyl sulphoxide, initiated a free-radical chain oxidation of anionic 2-nitropropane. Superoxide dismutase, but not catalase, inhibited oxidation of the nitroalkane. Xanthine oxidase suffered a syncatalytic inactivation, during the co-oxidation of 2-nitropropane, which was reversed by dialysis. Cyanide exacerbated this syncatalytic inactivation and rendered it irreversible. The frequently observed oxidations of nitroalkanes by flavoenzymes now need to be re-examined to clarify the extent to which O2.--initiated free-radical chain oxidation contributed to the overall nitroalkane oxidation.
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PMID:Free-radical chain oxidation of 2-nitropropane initiated and propagated by superoxide. 302 20

The anti-oxidant efficacy, in vitro, of the gold compounds auranofin (AF) and gold sodium thiomalate (GST) was examined by studying their effects on the generation of reactive oxygen species (ROS) using zymosan-stimulated polymorphonuclear leukocytes (PMNs) and a cell-free, xanthine-xanthine oxidase system. The oxygen species investigated were the superoxide radical anion (O2-), hydrogen peroxide (H2O2) and the hydroxyl radical (OH.). AF had an inhibitory effect on ROS production by PMNs. In particular, OH. generation was significantly suppressed in a dose-dependent fashion. AF did not inhibit ROS production in the cell-free system. GST produced only a small degree of inhibition at higher concentrations. These findings suggest that AF may play an important role in the inhibition of respiratory bursts and the generation of inflammatory reaction products. Since the products of the respiratory burst, especially potent oxidants such as OH. and H2O2, are thought to be important inflammatory mediators, it is postulated that the blockade of toxic ROS generation by AF affects rheumatoid as well as dermatological inflammation and tissue damage.
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PMID:Anti-oxidant effects of gold compounds. 302 64

When dehydration, infection, and mechanical trauma are prevented, procedures (such as cooling and/or oral antithromboxane) designed to diminish ischemia in experimental zone-of-stasis burns have been associated with no or only minor improvement in wound healing. To test the hypothesis that ongoing skin damage occurring postburn (PB) may in part be due to release of oxygen-derived free radicals during the 16-hour through 4-day PB period of reperfusion in such burns, beginning immediately and for a period of 5 days PB, equal numbers of guinea pigs received: allopurinol 150 mg/kg PO q 6 h vs. placebo, dimethylsulfoxide (DMSO) 75% applied topically q 12 h vs. placebo, or yeast-derived superoxide dismutase coupled with polyethylene glycol (PEG-SOD, Pharmacia) 10,000 U (Fridovich) given IV q 8 h producing a concentration of 16 U/cc of plasma 8 hr after injection vs. placebo. Gross and histologic examination of wounds by a 'blinded' investigator at 1 week and 3 weeks PB revealed no difference between treatment and control groups when rates of re-epithelialization and frequencies of hair-follicle retention were compared. Using the dosages, routes, and model described, treatment of a zone-of-stasis burn with PO allopurinol (a xanthine oxidase inhibitor), topical DMSO (a scavenger of the hydroxyl radical), or IV PEG-SOD (a scavenger of the superoxide radical) during the first 5 days PB was associated with no increase in the rate of re-epithelialization or frequency of hair follicle retention at 1 and 3 weeks PB when compared with controls.
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PMID:Oxygen-derived free radical inhibition in the healing of experimental zone-of-stasis burns. 302 94

Radical scavenging action of tinoridine, a non-steroidal anti-inflammatory drug with a potent anti-peroxidative activity, was investigated. Tinoridine reduced a stable free radical, diphenyl-p-picryl-hydrazyl, in the molar ratio of about 1:2, indicating its free radical scavenging ability. Tinoridine inhibited the lipid peroxidation in rat liver microsomes induced by xanthine-xanthine oxidase system in the presence of ADP and Fe2+, in which hydroxyl radical (. OH) is formed. Tinoridine was demonstrated to be oxidized in the course of the lipid peroxidation by following the fluorescence derived from the oxidation product of tinoridine. It was also oxidized by the xanthine-xanthine oxidase system in the presence of Fe2+, but its oxidation was slow in the absence of Fe2+ and almost completely inhibited by catalase. Tinoridine was also oxidized by H2O2-Fe2+ system producing . OH (Fenton reaction), but it did not affect the reduction of cytochrome c caused by superoxide radical. These results indicate that tinoridine is able to scavenge . OH and the main active oxygen species responsible for the lipid peroxidation is . OH. The anti-peroxidative and . OH scavenging ability of tinoridine should contribute to its anti-inflammatory action.
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PMID:Hydroxyl radical scavenging action of tinoridine. 303 74

Superoxide production by stimulated phagocytes is commonly measured by reduction of ferricytochrome C, with specificity of the assay assumed if the reaction is inhibited by superoxide dismutase (SOD). Most preparations of ferricytochrome C contain a small proportion in the reduced (ferro) form, and this is also formed by the reaction of ferricytochrome C with superoxide. The generation of other reactive oxygen intermediates, such as hydrogen peroxide or hydroxyl radical, could cause oxidation of ferrocytochrome C and consequent underestimation of superoxide production. In support of this, it has been demonstrated that exogenous catalase enhanced the reduction of ferricytochrome C by phorbol myristate acetate (PMA)-stimulated human monocytes. Control experiments confirmed that this was due to enhanced detection rather than increased production of superoxide. In addition, SOD was found to promote oxidation of ferrocytochrome C by PMA-stimulated human monocytes, but this was also inhibited by catalase. These effects of catalase and SOD on ferricytochrome C reduction/ferrocytochrome C oxidation were also demonstrated when superoxide was produced independently of monocytes by a xanthine and xanthine oxidase generating system. It is concluded that the assay of superoxide, using 'SOD inhibitable' reduction of ferricytochrome C, underestimates superoxide production.
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PMID:Reduction of ferricytochrome C may underestimate superoxide production by monocytes. 303 Nov 66

Evidence in alcoholics as well as in experimental models support the role of hepatic lipid peroxidation in the pathogenesis of alcohol-induced liver injury, but the mechanism of this injury is not fully delineated. Previous studies of the metabolism of ethanol by alcohol dehydrogenase revealed iron mobilization from ferritin that was markedly stimulated by superoxide radical generation by xanthine oxidase. Peroxidation of hepatic lipid membranes (assessed as malondialdehyde production) was studied during in vitro alcohol metabolism by alcohol dehydrogenase. Peroxidation was initiated by acetaldehyde-xanthine oxidase, stimulated by ferritin, and inhibited by superoxide dismutase or chelation or iron with desferrioxamine. In conclusion, lipid peroxidation may be initiated during the metabolism of ethanol by alcohol dehydrogenase by an iron-dependent acetaldehyde-xanthine oxidase mechanism.
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PMID:Acetaldehyde-mediated hepatic lipid peroxidation: role of superoxide and ferritin. 303 92

Acridine dyes, fluorescein and lucifer yellow CH are fluorescent photosensitizers used experimentally to selectively stain and photodynamically destroy eukaryotic cells and subcellular structures. We have determined that the mechanism of light- and oxygen-dependent inactivation of E. coli by these dyes involves oxygen radicals and hydrogen peroxide. All of the dyes oxidized NAD(P)H+ under illumination. Superoxide (O2), detected as the superoxide dismutase (SOD)-inhibitable reduction of ferricytochrome c, was a major product of the dye sensitized photooxidation. Cationic acridine dyes penetrated the membranes of E. coli and were photoreduced intracellularly. Reduced dyes diffused back into the medium and mediated the reduction of extracellular ferricytochrome c. The anionic dyes fluorescein and lucifer yellow CH were unable to mediate extracellular cytochrome c reduction, indicating that these dyes were impermeable to the E. coli membrane. Acridine dyes, when illuminated, inhibited the growth of E. coli in a rich medium, and induced the synthesis of SOD. Fluorescein and lucifer yellow CH did not inhibit growth or induce SOD synthesis because they were unable to enter the cells. Superoxide (O2) and hydrogen peroxide (H2O2), generated by the enzyme xanthine oxidase were toxic to E. coli B. Inactivation by xanthine oxidase was partially inhibited by exogenous SOD and completely inhibited by exogenous catalase or SOD plus catalase. Similarly, exogenous SOD plus catalase protected against inactivation by acridines and fluorescein-NADH or lucifer yellow CH-NADH mixtures. Prior induction of superoxide dismutase and catalase in E. coli B significantly protected cells against a subsequent challenge by illuminated acridine dyes. SOD and catalases preinduction combined with additions of exogenous SOD and catalase completely protected E. coli B against photodynamic inactivation by acridine yellow. The hydroxyl radical scavengers, dimethyl sulfoxide, sodium benzoate and thiourea, protected E. coli B against photodynamic inactivation by acridine orange. The results implicate O2, H2O2, and the hydroxyl radical (OH) as underlying molecular agents of the phototoxicity mediated by acridine orange, acridine yellow, fluorescein and lucifer yellow CH.
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PMID:Oxygen radicals mediate cell inactivation by acridine dyes, fluorescein, and lucifer yellow CH. 303 47

To determine the mechanism responsible for the enhanced susceptibility of endothelial cells to oxidant injury in the absence of glucose, we induced endothelial cell injury with oxygen radicals in the presence of various oxygen radical scavengers and measured endothelial cell levels of glutathione after oxidant injury in the presence and absence of glucose. Endothelial cells were damaged with toxic oxygen radicals generated by phorbol myristate acetate (PMA)-activated polymorphonuclear leukocytes (PMNs) or xanthine-xanthine oxidase in the presence and absence of glucose and catalase (scavenger of hydrogen peroxide), superoxide dismutase (scavenger of superoxide radical), isoleucine, valine, and serine (scavengers of hypochlorous acid), or mannitol, ethanol, benzoic acid, dimethyl sulfoxide, and dimethyl thiourea (scavengers of hydroxyl radical). Endothelial cell injury was quantitated by 2-deoxy-[1-3H] glucose or chromium 51 release assays or both. In each oxidant-generating system, in the presence and absence of glucose, only catalase significantly protected endothelial cells from oxidant injury (P less than 0.001). When endothelial cells were damaged by hydrogen peroxide generated with xanthine-xanthine oxidase in the presence of glucose, endothelial cell levels of glutathione remained unchanged. In contrast, when endothelial cells were damaged with xanthine-xanthine oxidase in the absence of glucose, endothelial cell levels of glutathione fell to less than 50% of baseline (P less than 0.05). Xanthine-xanthine oxidase-mediated endothelial cell damage and depletion of glutathione in the absence of glucose were similar to results obtained in the presence of glucose when glutathione was depleted with buthionine sulfoximine, diethyl maleate, or 1-chloro-2,4-dinitrobenzene.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of glutathione in protecting endothelial cells against hydrogen peroxide oxidant injury. 309 44

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