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

Superoxide radicals were investigated as to their capability of depolymerizing the hyaluronic acid of the bovine vitreous body. Using viscometry it was found that O2 radicals, generated by the hypoxanthine/xanthine oxidase method or the combination of NADH and phenazine methosulphate, degraded hyaluronic acid. This reaction was suppressed by superoxide dismutase, catalase, and peroxidase. In contrast, the depolymerization of hyaluronic acid by oxidation-reduction systems like ascorbic acid or ferrous ions was abolished by catalase and peroxidase while superoxide dismutase showed no effect.
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PMID:The inability of superoxide dismutase to inhibit the depolymerization of hyaluronic acid by ferrous ions and ascorbate. 690 74

In this comprehensive approach, inhibition of autoxidation of PUFA by SOD or other enzymes has been studied. The systems used were: 1) in miscible media in which enzyme, substrat, and peroxidation products are soluble; 2) in non-miscible media such as emulsions; 3) in heterogenous media containing subcellular fragments or whole blended tissue. Depending on experimental conditions, inhibition or activation of peroxidation by SOD can be observed in miscible systems. Other enzymes such as phospholipase A, xanthine oxidase, or horseradish peroxidase are protective in heterogeneous media. Moreover, PUFA hydroperoxide are scavenged by glutathione peroxidase which thus could lessen the autocatalytic effects encountered during peroxidation. Enzymatic inhibition of autoxidation in emulsions was not observed. We conclude that superoxide ion does not play a major role in the initiation of peroxidation and that it may very well act as a free radical chain terminator. In addition, other enzymes such as xanthine oxidase, horseradish peroxidase or phospholipase A show an effective although empirical protection against autoxidation in homogenates of tissues.
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PMID:[Inhibition of the autoxidation of polyunsaturated fatty acids by superoxide dismutase]. 700 94

This study demonstrates that the promastigote form of virulent Leishmania donovani and Leishmania tropica are both deficient in endogenous enzymatic scavengers of H(2)0(2) (catalase, glutathione peroxidase) and susceptible to low fluxes of H(2)O(2) in a cell-free model. In addition, the killing of promastigotes by H(2)0(2) is markedly enhanced in the presence of a peroxidase and halide. Promastigotes also readily trigger the macrophage oxidative burst including the generation of H(2)0(2), and most intracellular promastigotes are killed within 18 h by unstimulated normal resident cells. Catalase, but not scavengers or quenchers of O(2)(-), OHx, or (1)O(2), protected promastigotes in a cell-free xanthine oxidase microbicidal system, and catalase also partially inhibited the leishmanicidal activity of resident macrophages. Thus, amongst various oxygen intermediates, H(2)0(2) alone appeared to be both necessary and sufficient for promastigote killing. Depriving macrophages of exogenous glucose, which inhibits the generation of oxygen intermediates, achieved effects similar to catalase treatment. These observations directly contrast with the intracellular parasite, T. gondii which is richly endowed with catalase and glutathione peroxidase, highly resistant to H(2)0(2), and requires products of O(2)(-)-H(2)0(2) interaction for effective oxidative killing. Toxoplasmas also fail to trigger the respiratory burst of normal macrophages, and readily multiply within these cells (1-5). Macrophages first activated by in vivo or in vitro immunologic stimuli, however, display an enhanced capacity to generate oxygen intermediates beyond O(2)(-) and H(2)0(2), and are able to kill toxoplasmas or inhibit their intracellular replication (1, 2). These studies illustrate the wide spectrum of susceptibility to oxidative products which appears to exist for virulent intracellular protozoans, and indicate that such differences may be reflected in contrasting fates of parasites within cell-free oxidative environments and the cytoplasm of normal resident macrophages. In addition, these observations also demonstrate that nonactivated phagocytes may display effective microbicidal activity against certain intracellular pathogens utilizing an oxygen-dependent mechanism.
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PMID:Susceptibility of Leishmania to oxygen intermediates and killing by normal macrophages. 725 18

The effects of Zn, Mg, Cr, Cu, and Mn aspartates, their commercial formulation Inzolen, and the individual commercial medicine Unizinc, on oxygen radical production by enzymes [xanthine oxidase, horseradish peroxidase, and reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase] and phagocytic cells (human blood leukocytes) have been studied. The formation of oxygen radicals was measured by luminol- and lucigenin-amplified chemiluminescence and by the reduction of cytochrome c. All these compounds (excluding Cr aspartate) turn out to be inhibitors of oxygen radical formation in the systems studied (excluding horseradish peroxidase). Their inhibitory activities were a consequence of both the scavenging of free radicals and the inhibition of xanthine oxidase and NADPH oxidase activities. As expected, the most active free-radical scavengers were transition metal Cu and Mn aspartates, which mimicked the activities of copper-zinc and manganese dismutases. However, surprisingly non-transition metal Zn and Mg aspartates were also able to scavenge oxygen radicals. It was suggested that the scavenging activities of Zn and Mg aspartates may be explained by affecting the rate of spontaneous dismutation of the superoxide ion. In addition, it was found that Zn aspartate is an efficient inhibitor of the formation of the most reactive hydroxyl radicals. These antioxidant properties of Zn aspartate make it important in medicine for the prevention and treatment of free radical pathologies.
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PMID:Study of antioxidant properties of metal aspartates. 774 Dec 42

In the model of the perfused rat liver, we investigated the alterations of sinusoidal cells in the pathogenesis of liver injury caused by hypoxia and reperfusion. In sinusoidal endothelial cells, the activity of xanthine oxidase (XOX), a cytoplasmic marker enzyme, was located cytochemically and determined biochemically. Kupffer cells, identified by their endogenous peroxidase staining, were studied with regard to changes in their ultrastructure. In our experiments, parenchymal cells were shown to be severely damaged in contrast to sinusoidal lining cells, which showed minor signs of injury. In comparison with the control group, XOX activity increased significantly in the sinusoidal endothelial cells after low-flow hypoxia; however, after reoxygenation of only 5 minutes, that activity was lower after hypoxia but higher after control perfusion. In Kupffer cells, hypoxia resulted in a strong suppression of phagocytic and endocytotic activity and in a disappearance of the lamellopodia. Kupffer cells were flattened, resembling sinusoidal endothelial cells. After reoxygenation phagocytic vesicles, lamellopodia, and cell volume of Kupffer cells increased markedly in comparison with the control group. In the hypoxia/reperfusion injury model, our observations revealed significant alterations of sinusoidal lining cells. It appears that sinusoidal endothelial cells respond to the hypoxic phase by producing oxygen-derived free radicals and that Kupffer cells respond to the subsequent reperfusion phase by activation followed by the release of toxic mediators.
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PMID:Alteration of xanthine oxidase activity in sinusoidal endothelial cells and morphological changes of Kupffer cells in hypoxic and reoxygenated rat liver. 776 4

Using ESR, a weak signal identified as the ascorbate free radical was observed in fresh cow's milk. The signal was unchanged after storage at 5 degrees C for 24 h but disappeared after storage at 25 degrees C. A marked increase in the steady-state ascorbate radical concentration was observed with the addition of H2O2 or xanthine; the increase was abolished in the presence of azide. Based on the xanthine-oxygen reductase activity and 2,2'-azino-di-(3-ethylbenzthiazoline-6-sulfonic acid) peroxidase activity, cow's milk contains 0.45 microM xanthine oxidase and 0.32 microM lactoperoxidase. The results suggest that H2O2- and xanthine-induced ascorbate radical formation was due to the ascorbate peroxidase activity of lactoperoxidase in cow's milk.
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PMID:Ascorbate radicals in fresh cow's milk. 785 81

The aim of this study was to explore whether intraperitoneal administration of ascorbic acid (AA) at a dose of 500 mg/kg, once a day for 3 following days, affected the peroxidase (PO) activity in inflamed feet of mice. The foot inflammatory reaction induced by the carrageenan (CAR), n-formyl-methionyl-leucyl-phenylalanine (FMLP) and xanthine-xanthine oxidase was accompanied by suppression of PO activity. Administration of AA, having no effect on the degree of foot oedema, skin temperature and microscopic picture of tissue specimens significantly enhanced the decline in PO activity provoked by inflammatory agents. This activity decreased 2.0-, 1.6- and 1.9-fold (p < 0.001, p < 0.01, p < 0.05) when inflammatory response was induced with FMLP, CAR and X-XO, respectively. Also in vitro AA (50-100 micrograms/ml) inhibited PO activity of leukocyte lysate and foot extract obtained from untreated animals. In conclusion we found that AA, having no effect on inflammatory response, significantly enhanced inhibition of PO activity in inflamed tissues in mice which could be a result of direct action of AA on the enzyme molecule.
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PMID:Ascorbic acid enhances the decrease in peroxidase activity in inflamed tissues of mice. 801 Aug 73

Fibre-optic biosensors were constructed for determination of hypoxanthine and xanthine. Xanthine oxidase and peroxidase were immobilized on different preactivated membranes which were subsequently mounted onto the tip of a fibre-optic bundle. The H2O2 generated by the reaction of hypoxanthine and xanthine oxidase was measured by chemiluminescence (CL) detection using luminol and peroxidase. A linear calibration curve of the sensors in the range of 1-316 microM hypoxanthine and 3.1-316 microM xanthine, respectively, with a detection limit of 0.55 microM hypoxanthine was obtained. Recovery of hypoxanthine ranged between 91 and 102%.
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PMID:Fibre-optic biosensor for hypoxanthine and xanthine based on a chemiluminescence reaction. 806 May 88

The oxygenation of tryptophan and its peptides by the superoxide-generating system hypoxanthine/xanthine oxidase in the presence of iron(III) and ethylenediaminetetraacetic acid (EDTA) has been investigated. The reaction of a tryptophan derivative, N-(tert-butoxycarbonyl)-L-tryptophan, with hypoxanthine/xanthine oxidase/Fe(III)-EDTA mainly resulted in the oxygenation of the pyrrole ring of the indole nucleus. 2-[(tert-Butoxycarbonyl)-amino]-3-(3-oxindolyl)propionic acid and N-(tert-butoxycarbonyl)-N'-formylkynurenine were identified as the major products. Similar oxindole- and formylkynurenine-type products were also obtained from the N-(tert-butoxycarbonyl) derivative of the tryptophan-containing peptides Ile-Trp, Trp-Leu, Gly-Trp-Leu, and Ala-Trp-Ile. In all cases, however, hydroxylation products of the benzene ring of the indole nucleus were scarcely detected, leading to the assumption that free hydroxyl radical did not play a role in the tryptophan oxidation of this system. Of interest was the fact that the reaction of N-(tert-butoxycarbonyl)-L-tryptophan with H2O2/horseradish peroxidase mainly afforded the same oxindole- and formylkynurenine-type products as those obtained in the hypoxanthine/xanthine oxidase/Fe(III)-EDTA system. Taken together, iron-oxygen complex-type active species may play a role in the tryptophan oxygenation in a superoxide-generating system in the presence of iron-EDTA.
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PMID:Selective formation of oxindole- and formylkynurenine-type products from tryptophan and its peptides treated with a superoxide-generating system in the presence of iron(III)-EDTA: a possible involvement with iron-oxygen complex. 819 7

The balance between several components of the antioxidant defenses appears to be important for the cellular resistance to oxidative stress. While Cu,Zn-superoxide dismutase (SOD) transfectants of mouse epidermal cells JB6 clone 41 were sensitized to oxidants produced by xanthine/xanthine oxidase (X/XO) consecutive transfection with catalase corrected their hypersensitivity (Amstad, P., Peskin, A., Shah, G., Mirault, M. E., Moret, R., Zbinden, I., and Cerutti, P. (1991) Biochemistry 30, 9305-9313). We studied the effect of the transfection of bovine selenoglutathione peroxidase (GPx) on the sensitivity of JB6 clone 41 and its SOD transfectants. Sensitivity to DNA strand breakage and killing by X/XO was reversely related to the activity ratios GPx over SOD. A GPx-transfectant of JB6 clone 41 cells with a GPx/SOD ratio of 3.8 was very strongly protected. The hypersensitivity of the SOD clones with GPx/SOD ratios of 0.4 was corrected or overcorrected by secondary transfection with bovine Se-GPx resulting in increased activity ratios GPx/SOD of 1 to 2.4. Our results indicate that small deviations from the physiological activity ratios of GPx/SOD have a dramatic effect on the resistance of cells to oxidant-induced damage to the genome and cell killing.
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PMID:Glutathione peroxidase compensates for the hypersensitivity of Cu,Zn-superoxide dismutase overproducers to oxidant stress. 829 5


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