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)

Culture conditions modulating cell damage from xanthine plus xanthine oxidase-derived partially reduced oxygen species were studied. Porcine thoracic aorta endothelial cells and porcine lung fibroblasts were maintained in monolayer culture. Cells were prelabeled with 51Cr before xanthine plus xanthine oxidase exposure. Endothelial cells showed 30 to 100% more lysis than fibroblasts and thus seemed more sensitive to this oxidant stress. The effect of cell culture age, as indicated by population doubling level (PDL), was examined. Response of low PDL endothelial cells and fibroblasts subjected to oxidant stress was compared with the response of PDL 15 cells. Both low PDL endothelial cells and fibroblasts responded differently to the lytic effect of xanthine oxidase-derived free radicals than did higher PDL cells. Specific activities of the antioxidant enzymes catalase, manganese superoxide dismutase, copper-zinc superoxide dismutase, glutathione peroxidase, and glucose-6-phosphate dehydrogenase were measured in both low and high PDL fibroblasts and endothelial cells. Antioxidant enzyme specific activities could only partially explain the differences in response to oxidant stress between fibroblasts and endothelial cells and between low and high PDL cells. Cell culture medium composition modulated the rate of production, and relative proportions of xanthine plus xanthine oxidase-derived partially reduced species of oxygen, i.e. superoxide, hydrogen peroxide, and hydroxyl radical. Serum content of medium was important in modulating free radical generation; superoxide production rates decreased 32%, H2O2 became undetectable, and hydroxyl radical generation decreased 54% in the presence of 10% serum. The medium protein and iron content also modulated free radical generation. The data suggest that cell culture media constituents, cell type, and cell culture age greatly affect in vitro response of cells subjected to oxidant stress.
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PMID:Free radical damage to cultured porcine aortic endothelial cells and lung fibroblasts: modulation by culture conditions. 298 43

The selenium-containing glutathione peroxidase, when in its active reduced form, was inactivated during exposure to the xanthine oxidase reaction. Superoxide dismutase completely prevented this inactivation, whereas catalase, hydroxyl radical scavengers, or chelators did not, indicating that O2 was the responsible agent. Conversion of GSH peroxidase to its oxidized form, by exposure to hydroperoxides, rendered it insensitive toward O2. The oxidized enzyme regained susceptibility toward inactivation by O2 when reduced with GSH. The inactivation by O2 could be reversed by GSH; however, sequential exposure to O2 and then hydroperoxides caused irreversible inactivation. Reactivity toward CN- has been used as a measure of the oxidized form of GSH peroxidase, whereas reactivity toward iodoacetate has been taken as an indicator of the reduced form. By these criteria both O2 and hydroperoxides convert the reduced form to oxidized forms. A mechanism involving oxidation of the selenocysteine residue at the active site has been proposed to account for these observations.
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PMID:Inactivation of glutathione peroxidase by superoxide radical. 299 78

Culture medium of lymphocyte cultures that have been exposed to the superoxide generating system hypoxanthine plus xanthine oxidase (X-XO) contains substances with chromosome damaging properties. This is demonstrated by the ability of ultrafiltrates of such culture media to induce chromosomal aberrations and sister chromatid exchanges in the lymphocytes of blood test cultures. Culture medium becomes active about 15 hours after the addition of X-XO and stimulation by phytohemagglutinin. Concomitant with the accumulation of clastogenic material, assays for conjugated dienes and thiobarbituric acid-reactive material which measure lipid-peroxidation become positive in the culture media. When cells are pretreated with superoxide dismutase or glutathione peroxidase before the addition of X-XO neither clastogenic substances nor lipid peroxidation products are detected. Catalase is a less efficient protector.
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PMID:Treatment of lymphocyte cultures with a hypoxanthine-xanthine oxidase system induces the formation of transferable clastogenic material. 301 71

Dietary restriction extends maximum life span in rodents by unknown mechanisms. We compared livers from 12- and 24-mo-old mice fed control (C, approximately 95 kcal/wk) or restricted (R, approximately 55 kcal/wk) amounts of diet since 3 wk of age. We hypothesized that dietary restriction might alter the activity levels of enzymes with possible relevance to aging processes. The enzymes included several xenobiotic metabolizers, radical scavengers (catalase, superoxide dismutase, glutathione peroxidase), superoxide sources (xanthine oxidase, peroxisomal beta-oxidation of palmitoyl-CoA) and glucose-6-phosphatase. Lipid peroxidation (LP) was also measured. Comparing 12- and 24-mo-old mice, the strongest diet or age effect was an increased catalase activity for group R (42% higher at 12 mo, 64% at 24 mo). LP was clearly lower in group R at 12 mo (a 30% decrease) and somewhat lower (13%) at 24 mo than in group C. Similarly, in 12-mo-old C and R mice injected with either the P-450 inducer beta-naphthoflavone (beta-NF in corn oil) or with corn oil alone. R mice showed higher catalase activity (40-44%) and lower LP (43-46%) in both beta-NF-injected and vehicle-injected groups. These data suggest that if free radical damage is involved in aging, it may be a particular kind of damage, that is, that in part prevented by a selective increase in catalase activity.
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PMID:Influences of dietary restriction and age on liver enzyme activities and lipid peroxidation in mice. 303 Dec 54

Preexposure to hypoxia increased survival and lung reduced glutathione-to-oxidized glutathione ratios (GSH/GSSG) and decreased pleural effusions in rats subsequently exposed to continuous hyperoxia. In addition, lungs from hypoxia-preexposed rats developed less acute edematous injury (decreased lung weight gains and lung lavage albumin concentrations) than lungs from normoxia-preexposed rats when isolated and perfused with hydrogen peroxide (H2O2) generated by xanthine oxidase (XO) or glucose oxidase (GO). In contrast, when perfused with elastase or exposed to a hydrostatic left atrial pressure challenge, lungs isolated from hypoxia-preexposed rats developed the same acute edematous injury as lungs from normoxia-preexposed rats. The mechanism by which hypoxia preexposure conferred protection against H2O2 appeared to depend on hexose monophosphate shunt (HMPS)-dependent increases in lung glutathione redox cycle activity. First, before perfusion with GO, lungs from hypoxia-preexposed rats had increased glutathione peroxidase and glucose 6-phosphate dehydrogenase (but not catalase or glutathione reductase) activities compared with lungs from normoxia-preexposed rats. Second, after perfusion with GO, lungs from hypoxia-preexposed rats had increased H2O2 reducing equivalents, as reflected by increased GSH/GSSG and NADPH/NADPH+, compared with lungs from normoxia-preexposed rats. Third, pretreatment of rats with an HMPS inhibitor, (6-aminonicotinamide) or a glutathione reductase inhibitor, [1,3-bis(2-chloroethyl)-1-nitrosourea] prevented hypoxia-conferred protection against H2O2-mediated acute edematous injury in isolated lungs. These findings suggest that increased detoxification of H2O2 by glutathione redox cycle and HMPS-dependent mechanisms contributes to tolerance to hyperoxia and resistance to H2O2 of lungs from hypoxia-preexposed rats.
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PMID:Hypoxia increases glutathione redox cycle and protects rat lungs against oxidants. 321 62

Male C57Bl/10 mice were chronically fed hexachlorobenzene (HCB) (0.02% of the diet) alone or in combination with a single subcutaneous dose of iron (12.5 mg iron per mouse). After eight weeks the group of mice pretreated with the iron overload was highly sensitized to the porphyrogenic effect of HCB, as shown by liver porphyrin accumulation. A synergistic effect of iron was evident on other parameters too, such as HCB-induced hepatic damage, activation of type O of xanthine oxidase, and decreased activity of copper zinc superoxide dismutase and glutathione peroxidase(s). None of these parameters was affected by iron alone. Iron alone and in association with HCB markedly raised the level of lipid peroxides, the increase in the HCB group being smaller. The combined treatment resulted in a significant reduction of HCB's inductive effects on microsomal heme and cytochromes P-450 and b5 and on the activity of aryl hydrocarbon hydroxylase. The content of nonprotein sulfhydryl groups was reduced to the same extent in mice treated with HCB or HCB plus iron. The results suggest that reactive intermediates such as are formed by lipid peroxidation are not sufficient on their own to create the conditions for uroporphyrinogen decarboxylase impairment, as evident in the group of mice receiving iron overload alone. Conversely, HCB administration induced a specific condition of imbalance in the liver between formation and inactivation of reactive intermediates which was associated with hepatic porphyrin accumulation and was potentiated by concomitant administration of iron.
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PMID:Investigations on the role of free radical processes in hexachlorobenzene-induced porphyria in mice. 323 39

Significant pulmonary toxicity is associated with the use of nitrofurantoin; however, the mechanism of cellular toxicity remains poorly characterized. By using a novel in vitro red blood cell (RBC) chromium 51 cytotoxicity assay, cell injury induced by nitrofurantoin was quantified with normocatalasemic BALB/c RBCs and hypocatalasemic (but otherwise genetically identical) CCN RBCs as target cell populations. Nitrofurantoin at concentrations of 2 x 10(-4) and 4 x 10(-4) mol/L resulted in significant injury to normocatalasemic RBCs with a cytotoxic index (CI) of 21.7% +/- 3.7% and 65.3% +/- 3.7% (p less than 0.05, both comparisons). This injury was substantially increased when nitrofurantoin (2 x 10(-4) and 4 x 10(-4) mol/L was incubated with hypocatalasemic RBCs, resulting in CIs of 59.0% +/- 7.4% and 91.0% +/- 2.0% respectively (p less than 0.05, both comparisons with normocatalasemic RBCs). Direct oxidant-mediated cytotoxicity induced by either H2O2 or the superoxide anion radical (as generated by xanthine-xanthine oxidase) also resulted in more significant injury to hypocatalasemic RBCs than to normocatalasemic RBCs (p less than 0.05, both comparisons). Catalase levels of CCN RBCs were approximately 7% of control BALB/c RBC values; however, the activities of superoxide dismutase and glutathione peroxidase were identical in both populations of RBCs. This model, using genetically defined target cell populations, clearly demonstrates the importance of endogenous catalase in protecting against nitrofurantoin-induced cytotoxicity, suggesting that H2O2 is a critical intermediary in the direct cell injury mediated by the drug.
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PMID:Importance of hydrogen peroxide in nitrofurantoin-induced cytotoxicity: evidence from an inbred catalase-deficient strain of mice. 341 Nov 91

We used isolated, buffer-perfused rabbit hearts to evaluate whether global, normothermic ischemia altered mitochondrial hydrogen peroxide (H2O2) generation and mitochondrial activities of the major enzymes responsible for degrading H2O2 and superoxide anion (O2-.): glutathione peroxidase (GPD) and superoxide dismutase (SOD), respectively. This preparation lacks exogenous neutrophils and endogenous xanthine oxidase, which are other potential sources of oxygen metabolites. Ischemia depressed mitochondrial oxidative phosphorylation parameters, State 4 succinate-supported H2O2 generation rates, and the relative flux of State 4 oxygen consumption that was diverted to H2O2 formation. The production of H2O2 was not abolished. Ischemia and reperfusion significantly reduced the activities of SOD (by 43%) and GPD (by 39%) in the mitochondrial fraction. Cytosolic GPD activity was also depressed. The results suggest that the myocardial cell's ability to enzymatically degrade H2O2 and O2-. is compromised, particularly in the mitochondrion. Although mitochondrial H2O2 production is decreased, the mitochondria may persist as a source of this oxygen metabolite following ischemia. Collectively, the data may help explain why mitochondria are vulnerable targets of free radical-mediated damage due to ischemia.
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PMID:Mitochondrial hydrogen peroxide generation and activities of glutathione peroxidase and superoxide dismutase following global ischemia. 344 86

The action of ocular screening pigments of vertebrates (melanins) as well as those of invertebrates (ommochromes) on lipid peroxidation has been studied. Lipid peroxidation has been induced by one of the following systems: Fe2+ + ascorbic acid; Fe2+ + NADPH + liver microsomes; xanthine + xanthine oxidase; u.v. illumination; intense visible light, high concentration of O2. Measurements of the lipid peroxidation rate, as estimated from the accumulation of malonic dialdehyde, showed a sharp decrease of the lipid peroxidation rate in the presence of either melanosomes or ommochromes. Synthetic DOPA melanin was also found to exert a strong inhibiting effect on lipid peroxidation. A comparative study of lipid peroxidation in retinal pigment epithelium (RPE) of pigmented and albino rabbits demonstrated that the latter tissue is more sensitive to the effect of the above mentioned prooxidant systems. Apparently this finding is related to the presence of melanin-containing granules in the pigmented tissue rather than to differences in efficiency of other endogenous antioxidant systems. The activities of superoxide dismutase and glutathione peroxidase are practically equal in the RPE of pigmented and albino rabbits whereas the alpha-tocopherol content is higher in albinos. Possible mechanisms of inhibition of lipid peroxidation by melanosomes and ommochromes are discussed. It is proposed that their antioxidant function is one of the most important physiological features of melanins (vertebrate eye) and ommochromes (invertebrate eye).
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PMID:An antioxidative role of ocular screening pigments. 349 29

The potential protective effect of N-acetylcysteine against various types of oxidative stress (exposure to hyperoxia, treatment with paraquat, incubation in the presence of the hypoxanthine-xanthine oxidase system) was tested in primary cultures of porcine aortic endothelial cells. It was compared to that of selenomethionine (Se-Met), known to increase glutathione peroxidase activity, when given either alone or in combination with N-acetylcysteine. LDH release, 3H-thymidine (TdR) incorporation into DNA and DNA content were measured to assess the cytotoxic effect of the conditions tested. Total and oxidized glutathione content was also determined. Whereas Se-Met had a partial protective effect on all the conditions but paraquat treatment, N-acetylcysteine administration had no effect on the hyperoxia induced changes and significantly worsened the cytotoxic action of paraquat. On the other hand, LDH release following an incubation in the presence of the hypoxanthine-xanthine oxidase was significantly reduced after N-acetylcysteine treatment. No major change in total nor in oxidized glutathione followed N-acetylcysteine treatment in control and experimental conditions. A dose-dependent protective effect of N-acetylcysteine was obtained when this agent was given concomitantly with the xanthine oxidase system. These data suggest that in cultured endothelial cells a N-acetylcysteine-related protective effect, if present, is most likely to result from the direct scavenging action of N-acetylcysteine.
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PMID:Comparative study on the selenium- and N-acetylcysteine-related effects on the toxic action of hyperoxia, paraquat and the enzyme reaction hypoxanthine-xanthine oxidase in cultured endothelial cells. 368 96


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