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)

Vascular smooth muscle cells (VSMCs) proliferate in response to arterial injury. Recent findings suggest that, in addition to platelet-derived growth factors, growth factors from inflammatory cells and endothelial cells at the site of injury may contribute to VSMC proliferation. We hypothesized that a common mechanism by which endothelial cells and inflammatory cells stimulate VSMC growth could be the active oxygen species (i.e., O2-, H2O2, and .OH) generated during arterial injury. Using xanthine/xanthine oxidase to generate active oxygen species, we studied the effects of these agents on VSMC growth. Xanthine/xanthine oxidase (100 microM xanthine and 5 microunits/ml xanthine oxidase) stimulated DNA synthesis in growth-arrested VSMCs by 180% over untreated cells. Administration of the scavenging enzymes superoxide dismutase and catalase demonstrated that H2O2 was primarily responsible for xanthine/xanthine oxidase-induced VSMC DNA synthesis. H2O2 directly increased VSMC DNA synthesis and cell number (maximal at 200 microM) but decreased DNA synthesis of endothelial cells and fibroblasts. This effect was protein kinase C independent: sphingosine, a potent protein kinase C inhibitor, failed to block H2O2-induced VSMC DNA synthesis. H2O2 (200 microM) stimulated c-myc and c-fos mRNA levels by fourfold and 20-fold, respectively, as compared with quiescent levels. In contrast to DNA synthesis, H2O2 induction of c-myc and c-fos mRNA was primarily protein kinase C dependent. These findings show that H2O2 specifically increases VSMC DNA synthesis and suggest a role for this oxidant in intimal proliferation, especially after arterial injury.
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PMID:Active oxygen species stimulate vascular smooth muscle cell growth and proto-oncogene expression. 2411 68

1. Enzyme systems responsible for formation of cyclopropane ring-cleavage metabolites (M1 and M2) of illudin S in rat liver were characterized. 2. The enzymes were localized in the cytosol fraction and utilized NADPH alone as electron donor; they were not affected by oxygen and had low pH optima. 3. Formation of metabolites M1 and M2 was inhibited completely by dicumarol (10(-4) M), an inhibitor of DT-diaphorase. 4. Menadione (10(-4) M) and quercetin (10(-4) M) both inhibited formation of M1 and M2 by 35% and 15%, respectively, but quinacrine, barbital, pyrazole and p-chloromercuribenzoic acid had no significant effect. 5. Results show that the enzyme systems may differ from DT-diaphorase, aldehyde oxidase, xanthine oxidase, ketone reductase, aldose reductase, aldehyde reductase and alcohol dehydrogenase, known cytosolic enzymes responsible for xenobiotic metabolism.
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PMID:Metabolism by rat liver cytosol of illudin S, a toxic substance of Lampteromyces japonicus. II. Characterization of illudin S-metabolizing enzyme. 137 39

Repair of DNA lesions induced by oxygen radicals, generated by xanthine/xanthine oxidase (X/XO), was studied in human peripheral blood lymphocytes and in PHA-stimulated proliferating lymphocytes from 4 healthy subjects. The lesions included DNA-strand breaks (SSB) and other lesions that are converted to SSB under alkaline conditions. The frequencies of SSB were estimated by fluorometric analysis of DNA unwinding. Maximum production of SSB occurred within 10 min of incubation with X/XO at 22 degrees C; with 0.5 mM or higher concentrations of xanthine; and with 0.1-0.5 units/ml of xanthine oxidase. Proliferating lymphocytes repaired X/XO-induced SSB about 4 times more rapidly than lymphocytes. Lymphocytes repaired X/XO-induced SSB more slowly than SSB caused by gamma-radiation. These findings are consistent with the evidence that a number of DNA-repair enzymes have greater activity in proliferating cells than in resting cells. These findings also support the view that there are differences between the DNA damage due to oxygen radicals and that due to ionizing radiation.
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PMID:Repair of DNA damage induced by oxygen radicals in human non-proliferating and proliferating lymphocytes. 137 2

To explore the role of active oxygen species in the development and progression of acute pancreatitis, we studied the direct toxic effect on the rat pancreas of active oxygen species: superoxide anions generated by xanthine/xanthine oxidase (X/XO), and hydrogen peroxide (H2O2). After a continuous injection of X (10(-3)M, 0.9 ml/hour)/XO (1 U/ml, 0.3 ml/hour) into the celiac artery supplying the pancreas, hemorrhages and extensive edema developed in the pancreas. The amylase and lipase concentrations in the peritoneal fluid rose to 10.3 and 13.8 times the control values, respectively. The subsequent infusion of superoxide dismutase (SOD, 3600 U/hour) into the external jugular vein completely suppressed hemorrhages, and reduced edema and the amylase and lipase concentrations in the peritoneal fluid. After continuous injection of H2O2 (100 microM, 1.2 ml/hour), via the celiac artery, marked hemorrhages and edema appeared in the pancreas, and the amylase and lipase concentrations in the peritoneal fluid were 11.1 and 17.3 times higher than the control values, respectively. These abnormalities were significantly suppressed by the intravenous infusion of catalase (10 mg/kg/hour) or gabexate mesilate (10 mg/kg/hour). These results indicate that active oxygen species have a direct toxic effect on the pancreas and that free radicals may play an important role in the development of acute pancreatitis.
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PMID:Effect of intraarterial active oxygen species on the rat pancreas. 137 10

Recent studies have demonstrated a connection between xanthine oxidase-generated reactive oxygen intermediates and histamine release during ischemia-reperfusion. In the present work, the effect of modulation of the endogenous histamine level on the xanthine oxidase activity was examined during the reperfusion of a canine ileal segment following a 2 hr of complete ischemia. The xanthine oxidase activity and the plasma histamine level peaked simultaneously at the beginning of reperfusion, reaching mean values of 14.9 nmol/ml/min and 12.1 nmol/l, respectively. Pretreatment with aminoguanidine, a blocker of diamine oxidase (histaminase), resulted in significantly higher levels of histamine during reperfusion, but this elevation was not accompanied by a further increase in xanthine oxidase activity. Pretreatment with the mast cell stabilizer cromolyn significantly diminished the rise in plasma histamine level, with an unchanging activity of xanthine oxidase. No significant alteration could be observed in the postocclusive activity of xanthine oxidase following the intra-arterial administration of 0.5, 1, or 5 nmol of histamine during the last 10 min of the ischemic period. These data suggest that the amount of histamine liberated during reperfusion does not result in a further increase in the xanthine oxidase activity. The release of histamine is not a cause, but rather an effect of the elevated activity of intestinal xanthine oxidase.
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PMID:Studies on the relationship between xanthine oxidase and histamine release during intestinal ischemia-reperfusion. 138 3

Caffeine is sequentially metabolized by cytochrome P4501A2 (CYP1A2), N-acetyltransferase (NAT) and/or xanthine oxidase (XO). In the present study the activity of these three enzymes was estimated from ratios of the metabolites formed from dietary caffeine and excreted into the urine collected as spot samples. In the urine samples from 10 out of 377 subjects concentrations of caffeine metabolites were too low to allow reliable measurements of the ratios. In 335 healthy subjects the NAT activity showed a typically bimodal distribution with 47% fast acetylators and 53% slow acetylators, consistent with a Danish population. The ratios reflecting CYP1A2 and XO activities were log normal and normal distributed, respectively. In 103 non-smoking men and 90 non-smoking women the ratio of caffeine metabolites expressing CYP1A2 activity was 4.7 +/- 1.6 and 4.3 +/- 1.9 as compared to 7.8 +/- 2.5 and 7.3 +/- 3.0 in 31 male and 25 female subjects smoking 10 cigarettes/day or more respectively, verifying induction of CYP1A2 by tobacco (P less than 0.05), but minimal sex-related differences. In 12 non-smoking pregnant women and in 28 women using oral contraceptives the CYP1A2 ratio was 29 and 20% reduced respectively (P less than 0.05). In a multivariate analysis the only significant predictor of the XO ratio was the consumption of caffeine with an increase of 2% per cup of coffee or equivalent (P less than 0.05). In 23 healthy male subjects 30 days of vigorous exercise increased the CYP1A2 ratio by 70% and the XO ratio by 42% (P less than 0.05), but left the NAT ratio unchanged. In nine healthy volunteers daily ingestion of 500 g of broccoli for 10 days increased the CYP1A2 ratio by an average of 12% (P less than 0.05), compared to a control period with ingestion of an equivalent weight of non-cruciferous green vegetables. The ratios of metabolites from dietary caffeine in spot urine samples offer ethical, non-invasive and reliable estimates of CYP1A2, NAT and XO. These enzymes are highly relevant for the bioactivation of potentially toxic compounds and the formation of oxygen radicals. The method is applicable in large-scale epidemiological studies, allowing, for example, prospective testing of the relationship between these enzyme activities and the development of disease. Exercise may increase CYP1A2 activity to a magnitude corresponding to heavy smoking, as well as XO by mechanisms that remain to be clarified.
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PMID:Foreign compound metabolism capacity in man measured from metabolites of dietary caffeine. 139 40

Under normal conditions the intestinal mucosa is impermeable to potentially harmful materials from the intestinal lumen. Mucosal disruption promotes bacterial translocation, which is postulated to be a fuel source for sepsis and multiorgan failure. We have previously demonstrated that mesenteric ischemia-reperfusion (I/R) injury increases intestinal permeability (IP); however, the mechanism remains unclear. This study was designed to examine the hypothesis that changes in IP, after I/R injury, are mediated by xanthine oxidase-generated, oxygen-derived free radicals. Thirty-three Sprague-Dawley rats (weighing 300 to 400 g) were included in this study. Group 1 (n = 10) received enteral allopurinol, a xanthine oxidase inhibitor, 10 mg/kg daily for 1 week prior to mesenteric ischemia. Group 2 consisted of 11 untreated, ischemic animals. Groups 1 and 2 were subjected to superior mesenteric artery occlusion with interruption of collateral flow for 20 minutes to produce ischemic injury to the intestine. An additional 12 rats (group 3), served as nonischemic controls (sham). A loop of distal ileum was isolated and cannulated proximally and distally to allow luminal perfusion with warmed Ringer's lactate at 1 mL/min. IP was determined in all groups by quantitatively measuring the plasma-to-luminal clearance of chromium (51Cr)-labeled ethylenediaminetetraacetate (EDTA) at baseline, during ischemia and 20, 40, and 60 minutes after reperfusion. Complete ischemia produced significant increases in IP over baseline values in the untreated rats (group 2, baseline: 0.49 +/- 0.006, ischemia: 0.149 +/- 0.039) compared with sham rats (baseline: 0.41 +/- 0.006; ischemia: 0.047 +/- 0.009) or allopurinol-treated rats (baseline: 0.098 +/- 0.020, ischemia: 0.073 +/- 0.012, P less than .001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Allopurinol prevents intestinal permeability changes after ischemia-reperfusion injury. 140 60

To clarify the role of oxygen radicals in the mucus metabolism of the gastrointestinal tract, the effect of oxygen radicals on the activity of glucosamine synthetase, the rate-limiting enzyme of mucus synthesis, was investigated using homogenate derived from rat gastric mucosa. The simultaneous addition of both xanthine and xanthine oxidase caused a significant inhibition of the enzyme activity, and this decrease was counteracted by catalase, but not by superoxide dismutase. Hydrogen peroxide also caused a significant decrease in the enzyme activity; and this effect of hydrogen peroxide was counteracted by catalase and dithiothreitol, but not by mannitol, dimethyl sulfoxide and reduced glutathione. The inhibition of glucosamine synthetase activity by oxygen radicals is considered to be caused by the oxidation of sulfhydryl groups of the enzyme molecule. The present results also suggest that oxygen radicals in the gastrointestinal tract may induce the suppression of a protective mechanism of the gastric mucosa by inhibiting glucosamine synthesis activity.
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PMID:Inhibition of gastric glucosamine synthetase activity by oxygen radicals: a possible cause of decreased mucosal protective capacity. 140 36

Catechin components of green tea have been shown to possess anticarcinogenic properties possible related to their antioxidant activity. In the present study, a catechin containing green tea extract (GTE) was examined for its effect on three previously defined properties of liver tumor promoters, induction of cytolethality, inhibition of gap junctional intercellular communication, and induction of cell proliferation. Hepatocytes from male B6C3F1 mice were isolated and placed in primary culture. The effects of GTE of oxygen free radical-induced cytolethality was examined by coincubating GTE with the oxygen radical generating compounds paraquat, glucose oxidase (GO), and xanthine oxidase (XO). GTE prevented the induction of hepatocyte cytolethality by GO, XO, and paraquat in a dose-responsive manner. Similarly, GTE prevented the inhibition of gap junctional-mediated intercellular communication (measured by lucifer yellow dye coupling) by phenobarbital, lindane, and paraquat in a dose-dependent manner. The effect of GTE on hepatocyte DNA synthesis was examined in male mice containing preneoplastic liver lesions induced by diethylnitrosamine. GTE significantly decreased the labeling index in hepatic preneoplastic foci from animals treated with phenobarbital for 7 days. These studies suggest that the previous reported anticarcinogenic activity of green tea may be related to its effect on the tumor promotion stage of the cancer process.
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PMID:Chemopreventive effects of green tea components on hepatic carcinogenesis. 140 92

1. 2,6-Dinitrotoluene (2,6-DNT) metabolism by human liver and male Fischer F344 rat liver subcellular fractions under aerobic (100% oxygen) and anaerobic (100% nitrogen) incubation conditions was examined. Under aerobic conditions the major 2,6-DNT metabolite formed by hepatic microsomes was 2,6-dinitrobenzyl alcohol (2,6-DNBalc); under anaerobic conditions 2-amino-6-nitrotoluene (2Am6NT) was the major metabolite. 2. Rates of 2,6-DNBalc formation by human and rat liver microsomes under aerobic conditions were 247 and 132 pmol/min per mg protein, respectively. Rates of 2Am6NT formation by human and rat liver microsomes under anaerobic conditions were 292 and 285 pmol/min per mg protein, respectively. Anaerobic reduction of 2,6-DNT to 2Am6NT by rat and human liver microsomes was inhibited by carbon monoxide and metyrapone, which indicates that microsomal metabolism of 2,6-DNT to 2Am6NT is mediated by cytochrome P-450. 3. Liver cytosolic fractions also metabolized 2,6-DNT to 2Am6NT under anaerobic conditions. Formation of 2Am6NT by human and rat liver cytosols was supported by hypoxanthine, NADPH and NADH. Allopurinol inhibited the hypoxanthine-supported anaerobic metabolism of 2,6-DNT by rat, but not human, liver cytosol. Dicumarol inhibited the NADPH-supported anaerobic metabolism of 2,6-DNT by human, but not rat, liver cytosol. These results indicate that xanthine oxidase contributes to the hypoxanthine-supported anaerobic metabolism of 2,6-DNT by human liver cytosol.
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PMID:Metabolism of 2,6-dinitro[3-3H]toluene by human and rat liver microsomal and cytosolic fractions. 141 78

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