Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The therapy of copper poisoning with mercaptodextran inhibits the copper-induced haemolysis, whereas 2,3- dimercaptopropanesulfonic acid (DMPS) may accelerate such haemolysis. Some aspects of the mechanisms of these effects were investigated. The possible generation of activated oxygen species during the interaction of Cu++ and chelating thiols was studied using a chemoluminiscent method detecting oxygen radicals. It was found that incubation of DMPS with copper ions or erythrocyte membranes was accompanied by generation of oxygen radicals. Mercaptodextran added to similar suspensions did not lead to oxygen radical production. And unlike DMPS, mercaptodextran acted as a scavenger of radicals generated by the xanthine oxidase/acetaldehyde system. The different ability of the chelating thiols to cope with free radicals may explain their different potentials to protect against copper-induced haemolysis. Our results also indicate that mercaptodextran may be a useful therapeutic agent in cases of haemolytic crisis in Wilson's disease.
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PMID:Mercaptodextran--a new copper chelator and scavenger of oxygen radicals. 171 13

Acetaldehyde (AA), the first product of ethanol metabolism, has been suggested as an important mediator in alcoholic pancreatitis, but experimental evidence has not been convincing. Prior work using the isolated perfused canine pancreas preparation has suggested that toxic oxygen metabolites generated by xanthine oxidase (XO) may mediate the early injury in pancreatitis. Xanthine oxidase is capable of oxidizing AA, and during this oxidation free radicals are released. The hypothesis that acute alcoholic pancreatitis may be initiated by AA in the presence of active XO (converted from xanthine dehydrogenase [XD]) was tested in the authors' experimental preparation by converting XD to XO by a period of ischemia, and infusing AA. Control preparations remained normal throughout the 4-hour perfusion (weight gain, 7 +/- 4 g; amylase activity, 1162 +/- 202 U/dL). One hour of ischemia or infusion of AA at 25 mg/hr or at 50 mg/hr without ischemia did not induce changes in the preparation. Acetaldehyde at 250 mg/hr induced minimal edema and weight gain (16 +/- 4 g; p less than 0.05), but not significant hyperamylasemia. Changes also were not observed when 1-hour ischemia was followed by a bolus of ethanol (1.5 g) or sodium acetate (3.0 g), or by infusion of 25 mg/hr of AA. One hour of ischemia followed by infusion of AA at 50 mg/hr or at 250 mg/hr induced edema, hemorrhage, weight gain (22 +/- 7 g [p less than 0.05] and 26 +/- 17 g [p less than 0.05]) and hyperamylasemia (2249 +/- 1034 U/dL [p less than 0.05] and 2602 +/- 1412 U/dL [p less than 0.05]). Moreover infusion of AA at 250 mg/hr after 2 hours of ischemia potentiated the weight gain (62 +/- 20 g versus 30 +/- 14 g [p less than 0.05]), but not the hyperamylasemia (3404 +/- 589 U/dL versus 2862 +/- 1525 U/dL) as compared with 2 hours of ischemia alone. Pancreatitis induced by 1 hour of ischemia followed by AA at 50 mg/hr could be inhibited by pretreatment with the free radical scavengers superoxide dismutase and catalase and ameliorated with the XO inhibitor allopurinol. The authors conclude that AA, in the presence of active XO, can initiate acute pancreatitis in the isolated canine pancreas preparation and may be important in the initiation of acute alcoholic pancreatitis in man. Toxic oxygen metabolites appear to play an important intermediary role.
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PMID:The role of acetaldehyde in the pathogenesis of acute alcoholic pancreatitis. 172 Jun 11

IN vitro peroxidation by air, or xanthine-xanthine oxidase (xanthine-XOD) was performed to estimate the production of aliphatic aldehydes from free polyunsaturated fatty acids (PUFA), triglycerides, phospholipids and rat liver microsomes and mitochondria. The aldehyde contents in peroxidized lipids were determined by liquid chromatography and fluorescence detection. In both peroxidation, pentanal, (E)-4-hydroxy-2-nonenal (4-HN), and hexanal were produced from omega-6 PUFA rich lipids and propanal was markedly enhanced by increasing the degree of fatty acid unsaturation. The ratios of 4-HN to hexanal production in xanthine-XOD peroxidation of the omega-6 PUFA rich lipids, and rat liver microsomes and mitochondria were much higher than those in air peroxidation. The ratios (4-HN/hexanal) obtained in microsomes and mitochondria by xanthine-XOD were similar to those in rat liver observed in vitamin E deficient studies. The determination of these aldehydes may be useful to estimate the kinds of fatty acids peroxidized and investigate in vivo lipid peroxidation mechanism.
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PMID:Production of aliphatic aldehydes on peroxidation of various types of lipids. 177 32

NAD(P)-linked aldehyde dehydrogenases catalyze the oxidation of a wide variety of aldehydes. Thirteen of these enzymes have been identified in mouse tissues; eleven are found in the liver. Some are substrate-nonspecific; others are relatively substrate-specific. The present investigation sought to determine which of these enzymes are operative in catalyzing the oxidation of retinaldehyde to retinoic acid, a metabolite of vitamin A that promotes the differentiation of epithelial and other cells. Spectrophotometric and HPLC assays were used for this purpose. Enzyme-catalyzed oxidation of retinaldehyde (25 microM) was restricted to the cytosol (105,000 g supernatant fraction) and occurred at a rate of 211 nmol/min/g liver; oxidation of acetaldehyde (4 mM) by this fraction proceeds about ten times faster. At least 90% of this activity was NAD dependent. Of the approximately 10% that was apparently NAD independent, two-thirds was inhibited by 1 mM pyridoxal, a known inhibitor of aldehyde oxidase. Of the six cytosolic aldehyde dehydrogenases, only two, viz. AHD-2 and AHD-7, catalyzed the oxidation of retinaldehyde to retinoic acid. An additional NAD-dependent enzyme, viz. xanthine oxidase (dehydrogenase form), also catalyzed the reaction. Catalysis by AHD-2 accounted for more than 90% of the total NAD-dependent activity. Km values were 0.7, 0.6 and 0.9 microM, respectively, for the AHD-2-, AHD-7- and xanthine oxidase (dehydrogenase form)-catalyzed reaction. AHD-4, an aldehyde dehydrogenase found in the cytosol of mouse stomach epithelium and cornea, did not catalyze the reaction.
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PMID:Identification of mouse liver aldehyde dehydrogenases that catalyze the oxidation of retinaldehyde to retinoic acid. 188 36

Exposure of human lymphocyte cultures to superoxide generated by the xanthine-xanthine oxidase (X-XO) system, resulted in formation of a clastogenic factor (CF), as expected from previous work. We speculated that arachidonic acid (AA), the major polyunsaturated fatty acid of biological membranes, was oxidized via the cyclooxygenase-lipoxygenase pathways or nonenzymatically by oxygen free radicals in the culture medium to products with clastogenic properties. In the present study, we analyzed CF for AA-derived products and tested corresponding commercial standards for their clastogenic properties. The results show that prostaglandins, thromboxane, and H(P)ETEs were not increased in supernatants from X-XO treated cultures compared to untreated cultures. Synthetic H(P)ETEs added to the medium of lymphocyte cultures were only slightly or not clastogenic. In contrast hereto, the degradation product 4-hydroxynonenal was found in 50% of CF samples, while it was absent in all 43 control samples. The kinetics of detectability in the culture medium was similar to that of CF. Also, the clastogenic effect of synthetic 4-hydroxynonenal at concentrations as low as 0.1 microM suggested that this aldehyde, known for its genotoxic effects, was a clastogenic component of CF. The indirect action mechanisms of 4-hydroxynonenal via inactivation of functional SH groups in DNA polymerases, may explain why chromatid-type damage is predominant in lymphocytes exposed to CF in the Go-G1 phase of the cell cycle. This particularly was already stressed 20 years ago in the first observations of radiation-induced CF. However, 4-hydroxynonenal is not the only clastogenic component of CF.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hydroxynonenal, a component of clastogenic factors? 190 88

Reactive oxygen metabolites are potent inflammatory mediators that may be involved in tissue injury in inflammatory bowel disease. To evaluate their role in inflammatory bowel disease, we investigated the effects of lowering the activities of reactive oxygen metabolites in experimental colitis induced by intracolonic administration of acetic acid in rats. Intracolonic administration of 5% acetic acid caused severe inflammation (mean (SEM) inflammatory score was 24.3 (0.7) of a maximum score of 32). Acetic acid at 2.5% produced moderate inflammation (score = 17 (1.4) v 4.0 (0.5) in control rats). This lower dose was used for subsequent experiments. Specific superoxide anion scavenger methoxypolyethylene glycol:superoxide dismutase, and reactive oxygen metabolites scavenger, sulfasalazine, significantly decreased the severity of inflammation (scores: 8 (4.4) and 9.8 (2.2) respectively). The xanthine oxidase inhibitors, tungsten and pterin aldehyde, failed to improve inflammation but another xanthine oxidase inhibitor, allopurinol, a compound with known superoxide anion scavenging effect, did limit the inflammation (10(2)). Inhibition of hydroxyl radical production by deferoxamine or lowering hydroxyl radical values by a scavenger, dimethyl sulfoxide, did not affect the severity of inflammation. These data suggest: (1) that reactive oxygen metabolites play an important role in experimental colitis, (2) that the xanthine oxidase pathway is not a major source of reactive oxygen metabolites in colitis, and (3) that tissue injury in experimental colitis is not caused by generation of hydroxyl radicals.
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PMID:Role of reactive oxygen metabolites in experimental colitis. 186 49

Electron-nuclear double-resonance (ENDOR) spectra of protons coupled to molybdenum(V) in reduced xanthine oxidase samples have been recorded. Under appropriate conditions these protons may be studied without interference from protons coupled to reduced iron-sulfur centers. Spectra have been obtained for the molybdenum(V) species known as Rapid, Slow, Inhibited, and Desulfo Inhibited. Resonances corresponding to at least nine protons or sets of protons are observed for all four species, with coupling constants in the range 0.08-4 MHz. Most of these protons do not exchange when 2H2O is used as solvent. Additional protons giving couplings up to 40 MHz are also detected. These correspond to EPR-detectable protons studied in earlier work. The strongly coupled protons may be replaced by 2H, through appropriate use of 2H2O or of 2H-substituted substrates, with consequent disappearance of the 1H resonances. In most cases the corresponding 2H ENDOR features have also been observed. The nature of the various coupled protons is briefly discussed. Results permit specific conclusions to be drawn about the structures of the Inhibited and Desulfo Inhibited species. In particular, the data indicate that the aldehyde residue of the Inhibited species has been oxidized and that the four protons derived from the ethylene glycol molecule in the Desulfo Inhibited species are not all equivalent. Recent assignments [Edmondson, D.E., & D'Ardenne, S.C. (1989) Biochemistry 28, 5924-5930] of the weakly coupled protons in the latter species appear not to be soundly based. The possibility of obtaining more detailed structural information from the spectra is briefly considered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Proton electron-nuclear double-resonance spectra of molybdenum(V) in different reduced forms of xanthine oxidase. 216 62

The susceptibility of rat mast-cell heparin to oxidative degradation was examined. Heparin as a component of intact mast-cell granules (MCG) was degraded following ingestion by normal human neutrophils. In contrast, neutrophils from patients with chronic granulomatous disease (CGD), which do not respond to stimulation with respiratory-burst activity, exhibited a greatly diminished ability to degrade phagocytosed MCG heparin. MCG-associated heparin also was cleaved by H2O2 plus Fe2+ (Fenton's reagent). Isolated heparin proteoglycan (average Mr approx. 750,000) was rapidly cleaved to smaller molecules similar in size to commercial pig heparin upon exposure to Fenton's reagent. This cleavage was inhibited by catalase and by the hydroxyl-radical (OH.)-scavenger mannitol, but not by superoxide dismutase (SOD). The cleavage products retained approx. 26% of the anticoagulant activity of the native molecule. The heparin proteoglycan was also cleaved by acetaldehyde/xanthine oxidase/FeSO4, a system that generates superoxide (O2.-), H2O2 and OH.. Whereas the cleavage at relatively high iron ion concentrations was inhibited by catalase and mannitol but not by SOD, at lower iron ion concentrations the cleavage was inhibited by catalase, mannitol and SOD. These findings suggest the involvement of OH., which at high Fe2+ concentrations is generated by Fenton's reagent (H2O2 plus Fe2+), and at low iron ion concentrations is generated by the iron-ion-catalysed interaction between O2.- and H2O2 (Haber-Weiss reaction). These studies suggest that oxygen radicals generated by activated phagocytes may contribute to the degradation in vivo of both solubilized and granule-associated proteoglycan heparin.
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PMID:Oxidative degradation of rat mast-cell heparin proteoglycan. 217 84

A novel liquid chromatographic method using an immobilized xanthine oxidase reactor and an electrochemical detector was developed for the simultaneous determination of allopurinol and oxypurinol in rat plasma, intestinal wash and bile. Xanthine oxidase was immobilized on 5-microns aldehyde silica (prepacked into a 2 mm x 10 mm cartridge) in a simple procedure. Allopurinol eluted from an analytical column was converted to oxypurinol in the enzyme reactor with the eluent as the reaction medium and detected with high selectivity using an amperometric detector with a glassy carbon electrode at the applied potential of +0.85 V. High specificity of the enzymatic reaction combined with selectivity of the electrochemical detection eliminated the need for an extensive sample preparation. The assay was linear in the range 15-500 ng/ml of rat plasma, intestinal wash and bile with a low limit of detection of 10 pg on-column (signal-to-noise ratio = 4) for both allopurinol and oxypurinol.
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PMID:Simultaneous determination of allopurinol and oxypurinol by liquid chromatography using immobilized xanthine oxidase with electrochemical detection. 227 20

To investigate a possible role of free radical production by xanthine oxidase in the pathogenesis of ethanol-induced hepatic lipid peroxidation, chow-fed rats were given ethanol (5 g/kg) and placed at 32 degrees C for 6 h, which resulted in increased hepatic malondialdehyde levels. Pretreatment with allopurinol in amounts that effectively inhibited xanthine metabolism also significantly decreased ethanol-induced lipid peroxidation, suggesting participation of free radicals produced by xanthine oxidase in the peroxidative process. Both acetaldehyde and purine can serve as substrates for xanthine oxidase. Pretreatment with cyanamide increased hepatic acetaldehyde levels 5-fold, yet this was associated with a decrease in lipid peroxidation, indicating that acetaldehyde is not the xanthine oxidase substrate involved. By contrast, ethanol increased hepatic contents of hypoxanthine and xanthine and enhanced urinary output of allantoin (a final product of xanthine metabolism), incriminating increased metabolism of purines. Ethanol administration also enhanced hepatic nicotinamide adenine dinucleotide (reduced form). A corresponding rise of nicotinamide adenine dinucleotide (reduced form) in vitro inhibited xanthine dehydrogenase activity by 60%-76%. Increased purine degradation, possibly associated with a shift from the dehydrogenase to the xanthine oxidase pathway (secondary to nicotinamide adenine dinucleotide [reduced form]-mediated inhibition of xanthine dehydrogenase activity) is proposed as a possible mechanism for ethanol-stimulated free radical production. Because allopurinol attenuates the associated lipid peroxidation, this agent might be considered for possible therapeutic use in alcohol-induced liver damage.
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PMID:Role of xanthine oxidase in ethanol-induced lipid peroxidation in rats. 229 79


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