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)

The rates of NADH oxidation in presence of xanthine oxidase increase to a small and variable extent on addition of high concentrations of lactate dehydrogenase and other dehydrogenases. This heat stable activity is similar to polyvanadate-stimulation with respect to pH profile and SOD sensitivity. Isocitric dehydrogenase (NADP-specific) showed heat labile, SOD-sensitive polyvanadate-stimulated NADH oxidation activity. Polyvanadate-stimulated SOD-sensitive NADH oxidation was also found to occur with riboflavin, FMN and FAD in presence of a non-specific protein, BSA, suggesting that some flavoproteins may possess this activity.
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PMID:Stimulation of NADH oxidation by xanthine oxidase and polyvanadate in presence of some dehydrogenases and flavin compounds. 178 72

Rates of autoxidation of NAD(P)H initiated by hydroperoxyl radical, the acid form of superoxide anion radical which was generated by xanthine/xanthine oxidase, followed a typical autoxidation kinetic equation. Second-order rate constants for the reactions of NADPH and NADH with hydroperoxyl radical were found to be 9.82 +/- 0.13 x 10(4) M-1s-1 and 9.26 +/- 0.58 x 10(4) M-1s-1 at 25 degrees C, respectively. Rates of the reactions between NAD(P)H and superoxide to give degraded products other than NAD(P)+ were also investigated.
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PMID:Steady-state kinetics of autoxidation of NAD(P)H initiated by hydroperoxyl radical, the acid form of superoxide anion radical. 185 Oct 6

Xanthine oxidase has been implicated in the production of reactive oxygen species and cell injury produced by various toxic compounds. Since allyl alcohol injuries the liver by an oxygen-dependent mechanism, we examined the actions of this hepatotoxicant on the conversion of xanthine dehydrogenase into xanthine oxidase in perfused livers. A microassay for NAD(+)-dependent xanthine dehydrogenase, based on measuring the production of NADH fluorometrically under anaerobic conditions, was developed and used to examine the actions of allyl alcohol on this activity in periportal and pericentral regions of the liver lobule. The oxygen-dependent activity, xanthine oxidase, was monitored in whole liver homogenates by uric acid formation at 302 nm under aerobic conditions. Perfusion of the liver with allyl alcohol (350 microM) increased xanthine oxidase and decreased xanthine dehydrogenase in whole liver consistent with the hypothesis that allyl alcohol enhanced calcium-dependent proteolytic conversion of the NAD(+)-dependent to the O2-dependent form. Xanthine dehydrogenase was higher in pericentral than in periportal regions of the liver lobule and tended to decrease selectively in periportal zones of livers exposed to allyl alcohol. O2 uptake was stimulated transiently by allyl alcohol followed by subsequent inhibition of respiration. These results are consistent with the idea that conversion of NAD(+)-dependent xanthine dehydrogenase to xanthine oxidase is involved in the zone-specific hepatotoxicity of allyl alcohol.
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PMID:Effect of allyl alcohol on xanthine dehydrogenase activity in the perfused rat liver. 189 1

The existence of a relationship between clofibrate-induced peroxisome proliferation and oxidative stress mediated by activated oxygen species was studied in intact peroxisomes purified from Pisum sativum L. plants. Incubation of leaves with 1 mM clofibrate produced a remarkable increase in the peroxisomal activity of acyl-CoA oxidase and, to a lesser extent, of xanthine oxidase, whereas there was a nearly complete loss of catalase activity and a decrease in Mn-superoxide dismutase. Ultrastructural studies of intact leaves showed that clofibrate induced a five- and twofold proliferation of the peroxisomal and mitochondrial populations, respectively, in comparison with those in control leaves. Prolonged incubation with clofibrate produced considerable alterations in the ultrastructure of cells. In peroxisomal membranes, the NADH-induced generation of O2- radicals, as well as the lipid peroxidation of membranes, increased as a result of treatment of plants with clofibrate. In intact peroxisomes treated with this hypolipidemic drug, the H2O2 concentration was higher than in peroxisomes from control plants. These results demonstrate that clofibrate stimulates the production of activated oxygen species (O2- and H2O2) inside peroxisomes, as well as the lipid peroxidation of peroxisomal membranes. This effect is concomitant with a decrease of catalase and Mn-SOD activities, the main peroxisomal enzymatic defenses against H2O2 and O2-, and indicates that in the toxicity of clofibrate, at the level of peroxisomes, an oxidative stress mechanism mediated by activated oxygen species is involved.
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PMID:Peroxisome proliferation and oxidative stress mediated by activated oxygen species in plant peroxisomes. 189 96

Clinical evidence has suggested that mitomycin C (MMC) potentiates doxorubicin (DOX) induced cardiotoxicity. In this study a mouse model was used to examine the effect of DOX on the ability of cardiac tissue to bioactivate MMC to generate oxygen radicals. Cardiac damage was assessed by measuring serum CPK-MB isoenzyme levels and thiobarbituric acid reactive substances (TBARS) in the cardiac tissue. The exposure of animals to DOX or DOX and MMC over a three week period led to an increase in serum CPK-MB isoenzyme levels as well as TBARS. Treatment with DOX led to an increase in MMC-dependent, NADH-dependent, cyanide insensitive oxygen consumption, compared to control animals, thereby suggesting increased MMC-dependent oxygen radical generation. Levels of xanthine oxidase (XO; EC 1.1.3.22) and NADPH:cytochrome C reductase, two enzymes known to bioactivate MMC with subsequent oxygen radical generation, were measured in cardiac tissue with a 4.5 x increase in XO activity seen in DOX treated animals vs controls and no change in NADPH:cytochrome C reductase activity. Cardiac levels of xanthine dehydrogenase (XDH; EC 1.1.1.204) activity in DOX treated animals decreased while the XO/XDH ratio increased, suggesting a conversion of XDH to XO following DOX treatment.
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PMID:Role of xanthine oxidase in the potentiation of doxorubicin-induced cardiotoxicity by mitomycin C. 191 Oct 46

Doxorubicin is an antineoplastic drug which undergoes oxidation-reduction cycling and produces toxicity to some cancer cell lines. Since oxidation-reduction cycling requires reducing equivalents and because ethanol metabolism via alcohol dehydrogenase (ADH) increases NADH, the effect of ethanol on doxorubicin toxicity was examined in cultured cells. Since some cells exhibit resistance to anthracyclines such as doxorubicin, two different Chinese hamster ovary cell lines were used, one sensitive (AUX B1) and one resistant (CHRC5) to doxorubicin. Studies were designed to determine if ethanol could decrease resistance to doxorubicin. Cells were treated for 24 h with doxorubicin in the presence or absence of ethanol, and the number of live cells was estimated spectrophotometrically. Ethanol (60-150 mM) potentiated the doxorubicin-induced decrease in cell number in both cell lines. In AUX B1 cells the concentration of doxorubicin required for half-maximal inhibition of cell survival was reduced 20-fold by ethanol, and a completely nontoxic concentration of doxorubicin decreased the number of surviving cells to 30% in the presence of ethanol. Addition of ethanol to the medium also increased doxorubicin-induced inhibition of cell survival in CHRC5 cells, but the effect was less dramatic than in AUX B1 cells. The effect of ethanol on cell number was concentration related; the half-maximal response was observed with about 1 mM ethanol. The hypothesis that ethanol potentiates doxorubicin toxicity by generation of NADH during metabolism by ADH was strengthened by the observations that both cell lines possess ADH activity (30-400 units/10(12) cells) and that ethanol (0.1-0.5 mM) increased NADH fluorescence 15-80% over basal values in cultured cells. Further, the effect of doxorubicin on cell number was also potentiated by another substrate for ADH, 2-ethylhexanol. Desferrioxamine, an iron chelator, increased survival in cells treated with doxorubicin plus ethanol by up to 60% (half-maximal effect, 1 mM), and (+)-catechin, a radical scavenger, abolished the decrease in cell number due to doxorubicin plus ethanol at concentrations greater than 0.1 mM. Allopurinol, an inhibitor of xanthine oxidase with radical scavenging properties, diminished the effect of doxorubicin plus ethanol on cell number by 60% (P less than 0.05). Taken together, these data are consistent with the hypothesis that ethanol potentiates toxicity due to doxorubicin by providing reducing equivalents for oxidation-reduction cycling which produce toxic reduced oxygen species.
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PMID:Ethanol potentiates doxorubicin-induced inhibition of cell survival in cultured Chinese hamster ovary cells. 200 22

Reductive metabolism of the hair dye constituent, nitro-p-phenylenediamine (2-nitro-1,4-diaminobenzene, NPDA), and its acetylated metabolite, NPDA N4-acetate, was investigated with rat liver subcellular fractions, microsomes and cytosol. Under anaerobic conditions, these compounds were reduced to their corresponding amines by these fractions. The microsomal nitro-reducing activity was retarded completely by air and strongly by carbon monoxide. Reduced nicotinamide adenine dinucleotide phosphate (NADPH) functioned more effectively than reduced nicotinamide adenine dinucleotide (NADH) as an electron donor in the microsomal reduction of the nitro compounds, and flavin mononucleotide (FMN) gave rise to a marked enhancement in the microsomal activity, especially when added to an anaerobic incubation mixture containing both NADH and NADPH. The cytosolic nitro-reducing activity was attributed to xanthine oxidase, aldehyde oxidase and other unknown enzyme(s), based on the results of cofactor requirements and inhibition experiments.
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PMID:Reductive metabolism of nitro-p-phenylenediamine by rat liver. 204 1

The reduction of cytochromes b5 and P-450 in mammalian hepatic microsomes by glucose oxidase and xanthine oxidase has been investigated. Under anaerobic conditions cytochrome b5 is reduced by glucose oxidase to the "dithionite" level, while cytochrome P-450 remains oxidized. Under the same conditions xanthine oxidase completely reduces both hemoproteins. Besides, neither glucose oxidase nor xanthine oxidase reduces isolated cytochromes. They can be reduced only after addition of microsomes to incubation media. Only in this case are the cytochromes, both isolated and included in microsomal membranes, reduced. The participation of microsomal flavoproteins in the reduction reaction is discussed. The method suggested makes it possible to substantially decrease the rates of reduction of microsomal hemoproteins, thus permitting the investigation of interactions between microsomal NADH- and NADPH-dependent electron-transport chains and electron carriers.
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PMID:Application of electron-donor properties of glucose oxidase and xanthine oxidase for reduction of microsomal NAD(P)H-dependent electron-transport chains. 205 5

Rat pheochromocytoma PC 12 cells are susceptible to the oxidative toxicity caused by H2O2, nitrofurantoin, dopamine, and xanthine/xanthine oxidase reaction. The cytotoxicities of these agents are greatly reduced by the simultaneous presence of 0.1 mM tetrahydrobiopterin (BH4), 3 units/ml horseradish peroxidase, 0.2 mM NADH, and 0.1 units/ml sheep liver dihydropteridine reductase (DHPR). Individually, BH4, NADH and DHPR have no protection against H2O2 toxicity in PC 12 cells. Peroxidase alone offers 58% of protection if cells are incubated in the medium but only 3% in Dulbecco's phosphate buffered saline. The efficiency of the BH4-mediated antioxidation system in PC 12 cells is equal to or better than ascorbic acid and catalase, depending on the source of the reactive O2 species (ROS). The reactions responsible for the BH4-antioxidation system may consist of the non-enzymatic and the peroxidase-catalyzed reduction of H2O2 to H2O by BH4 and the regeneration of BH4 by DHPR using NADH as the cofactor. The components of this defence mechanism against ROS are all normal cellular constituents and are ubiquitous in nature. This DHPR-catalyzed redox cycling of BH4 may constitute an as yet little-known antioxidation system in mammalian cells.
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PMID:Antioxidation activity of tetrahydrobiopterin in pheochromocytoma PC 12 cells. 207 Apr 35

Ultrathin isoelectric focusing was employed for analyzing xanthine oxidase and enzymes with NADH-dependent dehydrogenase activity in homogenates of rat kidney. After isoelectric focusing the enzymes were stained with specific assays where NBT is reduced upon incubation of the gel with xanthine (oxidase stain) and NADH (dehydrogenase stain) as substrates. A good separation of renal enzymes with dehydrogenase activities was obtained by using gels containing 2 M urea and by applying the sample at the anode. In these conditions 4 main isoforms with pI 6.4, 6.35, 6.5 and 6.6 were observed with the dehydrogenase stain but we were unable to demonstrate renal xanthine oxidase (XO) which seemed to be due to precipitation at the application point.
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PMID:Analysis by isoelectric focusing of xanthine oxidase and NADH dependent enzymes in rat kidney. 209 5

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