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)

Tissue distribution and levels of allopurinol oxidizing enzyme and xanthine oxidase with hypoxanthine as a substrate were compared with supernatant fractions from various tissues of mice and from liver of mice, rats, guinea pigs and rabbits. The allopurinol oxidizing enzyme activities in liver were quite different among the species and the sex difference of the enzyme activity only in mouse liver. In mice, the highest activity of allopurinol oxidizing enzyme was found in the liver with a trace value in lung, but the enzyme activity was not detected in brain, small intestine and kidney, while the highest activity of xanthine oxidase was detected in small intestine, lung, liver and kidney in that sequence. The allopurinol oxidizing enzyme activity in mouse liver supernatant fraction did not change after storage at -20 degrees C or dialysis against 0.1 M Tris-HCl containing 1.15% KCl, but the activity markedly decreased after dialysis against 0.1 M Tris-HCl. On the contrary, the xanthine oxidase was activated 2 to 3 times the usual activity after storage at -20 degrees C or dialysis of the enzyme preparation. These results indicated that allopurinol was hydroxylated to oxipurinol mainly by the enzyme which is not identical to xanthine oxidase in vivo. A possible role of aldehyde oxidase involved in the allopurinol oxidation in liver supernatant fraction was dicussed.
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PMID:Tissue distribution and characteristics of xanthine oxidase and allopurinol oxidizing enzyme. 102 7

When Trolox (a polar analog of vitamin E) is conjugated to p-aminophenyl-beta-D-lactopyranoside, the resulting lactosylphenyl Trolox becomes a markedly more stable and effective hepatoprotector than Trolox. In primary rat hepatocytes exposed to xanthine oxidase-hypoxanthine, lactosylphenyl Trolox prolonged cell survival better than did Trolox, mannitol or ascorbate. In rats that underwent 80-min partial hepatic ischemia, infusion of lactosylphenyl Trolox at 2.9 to 5.7 mumol/kg body wt just before reoxygenation salvaged the organ more extensively than did Trolox. Mechanistically, we showed (a) that lactosylphenyl Trolox does not inhibit xanthine oxidase; (b) that lactosylphenyl Trolox effectively scavenges oxyradicals generated with xanthine oxidase and the peroxyl radicals produced with 2,2'-azo-bis(2-amidinopropane) HCl; (c) that both in hepatocytes and in vivo, lactosylphenyl Trolox is distinctly more cytoprotective than either or both of its precursors; and (d) that lactosylphenyl Trolox is amphipathic (i.e., it has both hydrophilic and hydrophobic properties), which enable it to better access and protect the lipid and aqueous milieus of the cell than the lipophile vitamin E and the moderately polar Trolox. Thus there are strong fundamental reasons for lactosylphenyl Trolox being an effective antioxidant-based hepatoprotector.
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PMID:Enhancement in antioxidant-based hepatoprotective activity of Trolox by its conjugation to lactosylphenylpyranoside. 154 27

The protein-bound polysaccharide of Coriolus versicolor QUEL (PS-K) has been found to express antioxidant activity as an "ion-radical scavenger" in diamine oxidation reactions. The mode of this expression was examined to determine whether the drug functioned as a simple radical scavenger or mimicked the action of superoxide dismutase (SOD). The latter was confirmed in both enzymatic and nonenzymatic superoxide anion radical (O2-.) producing systems in vitro. The SOD mimetic activity of PS-K was demonstrated by quantitative analysis of hydrogen peroxide as the end product of O2-., its formation being assisted catalytically by SOD or PS-K. Analysis by electron spin resonance also confirmed the SOD mimetic activity of PS-K in a xanthine-xanthine oxidase reaction. Relative SOD activity with PS-K was approximately 1/8,000 in a KO2-O2-.-producing system. The SOD mimetic activity of PS-K resisted treatment by 0.7N HCl, 0.7N NaOH, boiling for 30 minutes in a double water bath, and digestion by pronase. Fractionation according to differences in molecular mass caused no significant increase in relative SOD activity within a certain range of molecular mass, indicating that there is no definite molecule expressing SOD mimetic activity. Tumor-bearing rats and human patients with digestive tract cancer who suffered from oxidative stress were relieved by a single intraperitoneal administration of PS-K or a 1-day peroral prescription.
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PMID:Mimicking of superoxide dismutase activity by protein-bound polysaccharide of Coriolus versicolor QUEL, and oxidative stress relief for cancer patients. 162 73

Xanthine dehydrogenase has been purified from Pseudomonas aeruginosa cultured on a rich medium and induced with hypoxanthine. The enzyme was shown to contain FAD, iron sulfur centers and a molybdenum cofactor as prosthetic groups. Analysis of the molybdenum cofactor in this enzyme has revealed that the cofactor contains molybdopterin (MPT) rather than molybdopterin guanine dinucleotide or molybdopterin cytosine dinucleotide which have previously been identified in a number of molybdoenzymes of bacterial origin. The pterin cofactor in P.aeruginosa xanthine dehydrogenase was alkylated and the resulting product was identified as dicarboxamidomethyl molybdopterin. In addition, the pterin released from the enzyme by denaturation with guanidine-HCl was found to chromatograph on Sephadex G-15 with an apparent molecular weight of 350. These results document the first example of a bacterial enzyme with a molybdenum cofactor comprising molybdopterin and the metal only.
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PMID:Identification of a molybdopterin-containing molybdenum cofactor in xanthine dehydrogenase from Pseudomonas aeruginosa. 165 22

[18F]Fluoromisonidazole (1-(3-[18F]fluoro-2-hydroxypropyl)-2-nitroimidazole, [18F]FMISO) is a nitroimidazole compound that is being used as a new imaging agent for hypoxia. Because its uptake in hypoxic tissue is dependent on reduction of the nitro group on the imidazole ring, it is necessary to verify the availability of nitroreductase enzymes in a variety of tissues. FMISO reduction was studied using chemical and enzymatic reducing systems and mammalian cells. FMISO reduction by iron/HCl eliminated the absorbance peak at 325 nm caused by the nitro group. FMISO reduction by xanthine oxidase, as measured by a decrease in absorbance at 325 nm, occurred at a rate of 2.4 +/- 0.3 nmol/min/unit enzyme (mean +/- SEM, N = 15). This reaction was inhibited by allopurinol. Separation of the parent drug from its reduction product following chemical and enzymatic reductions indicated that iron/HCl reduced the majority of the FMISO molecules present, while xanthine oxidase did not. Reduction of FMISO by NADH dehydrogenase could not be demonstrated spectrophotometrically. Measurement of the reduction of FMISO in V79 cells based on the binding of [3H]FMISO to cellular macromolecules was performed using a cell suspension in a three-neck flask. Hypoxic V79 cells bound [3H]FMISO at the rate of 0.26 +/- 0.07 pmol/10(6) cells/min (N = 8). When specific inhibitors of two nitroreductase enzymes and a general inhibitor of electron transport were added to the cell suspension, no consistent, statistically significant inhibition of FMISO binding could be shown. We conclude that while inhibition of FMISO reduction by a purified nitroreductase can be shown, nitroreductase activity in cells is not inhibited so easily. This supports the hypothesis that nitroreductases are plentiful and will not limit the rate of FMISO reduction and uptake in hypoxic tumors or nonmalignant tissues.
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PMID:Reduction of fluoromisonidazole, a new imaging agent for hypoxia. 176 22

Endothelium-derived relaxing factor (EDRF) has been suggested to be derived from the metabolism of arginine or an arginine-containing moiety. We have compared the vascular effects of arginine and some of its N-substituted derivatives on the perfusion pressure (Pp) of the isolated rat kidney preparation preconstricted with phenylephrine. Irrespective of the stereochemistry, high doses (10(-4) mol) of L- and D-arginine HCl produced a slight vasodilation. In contrast L- and D-arginine free base, at similar doses, further increased renal Pp. N-substituted L-arginine compounds, however, decreased Pp dose-dependently. Their order of potency (ED50) was as follows: N-alpha-benzoyl-L-arginine ethyl ester (BAEE, 3.8 x 10hm6 mol) greater than N-alpha-benzoyl-L-arginine methyl ester (2.5 x 10(-5) mol) greater than L-arginine ethyl ester (2.7 x 10(-5) mol) greater than L-arginine HCl (10(-4) mol). Methylene blue (10(-5) M), hemoglobin (10(-5) M) and NG-mono-methyl-L-arginine (5 mumol) antagonized the vasodilation elicited by infusion of BAEE. Similarly, injection of xanthine oxidase/xanthine (100 mU) reversed BAEE-induced renal vasodilation, but had no effect on dilation elicited by infusion of atrial natriuretic peptide. These data demonstrate that substituted arginine compounds are more potent renal vasodilators than L-arginine and their potency depends on the nature of the substitution. These compounds exert their effect, at least in part, via an endothelium-dependent mechanism. We conclude that exogenous L-arginine is a poor substrate for EDRF generation in the kidney, and that it may cause release of EDRF by another mechanism, possibly related to a change in the pH of the medium.
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PMID:Endothelium-mediated effects of N-substituted arginines on the isolated perfused rat kidney. 224 37

Trolox, a hydrophilic analogue of alpha-tocopherol, was reported to scavenge peroxyl radicals better than vitamin E in sodium dodecyl sulfate micelles and in liposomes. However, it was not known if Trolox protects human cells against oxyradical damage or if it acts as an antioxidant there. Here we demonstrate that Trolox prolonged substantially the survival of human ventricular myocytes and hepatocyte against oxyradicals generated with xanthine oxidase plus hypoxanthine, and prevented lysis of red cells exposed to an azo-initiator (2,2'-azo-bis(2-amidinopropane) HCl). Note that Trolox did not inhibit xanthine oxidase. In each cell type, the protection by Trolox was dose dependent and surpassed those given by such water-soluble antioxidants as ascorbic acid, superoxide dismutase, and (or) catalase, each examined at or near its optimal level in the same system. Using hepatocytes as a model, we further observed that Trolox reduced markedly the quantity of phospholipid conjugated dienes (a chemical imprint of oxyradical damage) in cells despite their exposure to oxyradicals. These data suggested that Trolox behaves as an antioxidant in cells as illustrated in hepatocytes.
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PMID:The cytoprotective effect of Trolox demonstrated with three types of human cells. 226 14

This study was designed to determine whether oxygen-derived free radicals play a role in the pathogenesis of gastric lesions produced by hemorrhagic shock in the rat. Allopurinol (Zyloric), an inhibitor of xanthine oxidase (responsible for the formation of superoxide radicals) and MTDQ-DA (Kontrad), a synthetic antioxidant of dihydroquinoline type were used. In the anesthetized rat 0.1 N HCl was instilled into the stomach and the rat was bled to reduce the blood pressure to 30 mmHg for 20 min. The blood shed was retransfused. Twenty min later the stomach was removed. The area of gastric mucosal lesions were measured, the activity of endogenous peroxidase was examined histochemically and a histological grading was made. Both allopurinol and MTDQ-DA significantly protected against hemorrhagic shock-induced gastric lesions and peroxidation. These results suggest that oxygen-derived free radicals play an important role in the formation of gastric lesions produced by ischemia plus 0.1 N HCl.
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PMID:Role of oxygen-derived free radicals in hemorrhagic shock-induced gastric lesions of rats. 259 23

Oxygen radical release has been proposed as a pathogenetic factor in the formation of acute gastric mucosal injury. We assessed the ability of the naturally occurring oxygen radical generating system hypoxanthine/xanthine oxidase (HX/XO) to cause gross gastric mucosal injury and measured the effect on regional mucosal blood flow. Local intra-arterial infusion of HX/XO into the vascular network of the stomach caused marked gross mucosal injury in the antrum and corpus. This injury occurred even in the absence of exogenous luminal acid and was aggravated by luminal acidification with 1 ml of 0.1N HCl. The selective oxygen radical scavenger superoxide dismutase (SOD) prevented mucosal injury caused by HX/XO. The effects of HX/XO and SOD were not mediated by alterations in regional gastric mucosal blood flow, as measured by the radiolabeled microspheres and reference sample method. These findings suggest that oxygen radicals are capable of causing substantial gastric mucosal injury by a direct cytotoxic effect independent of luminal acid or mucosal blood supply and give support to the concept that oxygen radical release may be a major primary pathogenetic factor in the development of acute gastric mucosal injury.
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PMID:Direct cytotoxic effect of oxygen radicals on the gastric mucosa. 276 32

This study was designed to determine whether oxygen-derived free radicals play a role in the pathogenesis of gastric lesions produced by hypotensive ischemia in the rat. To achieve this goal, allopurinol, an inhibitor of xanthine oxidase (the enzyme responsible for the formation of superoxide radicals); superoxide dismutase, a scavenger of superoxide radicals (O2-); and dimethyl sulfoxide, a scavenger of hydroxyl radicals (OH) were used. In the anesthetized rat, HCl (0.1 N) was instilled into the pylorus-ligated stomach, and the rat was bled to reduce the blood pressure to less than 30 mmHg. The blood pressure was maintained at less than 30 mmHg for 20 min and then the shed blood was retransfused. Twenty minutes after the retransfusion the rat was killed, the stomach was removed, and the area of gastric mucosal lesions was measured. Both allopurinol and superoxide dismutase, but not dimethyl sulfoxide, significantly protected against hemorrhagic shock-induced gastric lesions. These findings suggest that oxygen-derived free radicals, particularly O2-, play an important role in the formation of gastric lesions produced by ischemia plus HCl.
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PMID:Role of oxygen-derived free radicals in hemorrhagic shock-induced gastric lesions in the rat. 298 78


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