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

The metabolism and DNA adduct formation by the mutagenic environmental contaminant 2-nitrofluoranthene (2-NFA) were studied. Incubation under aerobic conditions with liver microsomes of rats pretreated with 3-methylcholanthrene yielded trans-7,8-dihydroxy-7,8-dihydro-2-nitrofluoranthene, trans-9,10-dihydroxy-9,10-dihydro-2-nitrofluoranthene, and 7-, 8-, and 9-phenolic metabolites. When the epoxide hydrolase inhibitor 3,3,3-trichloropropylene was present in the incubation, only phenolic metabolites were detected. Under hypoxic conditions, 2-aminofluoranthene was obtained, together with a trace of the ring-oxidized metabolites. The activated metabolite, N-hydroxy-2-aminofluoranthene, was prepared in situ and reacted with calf thymus DNA. Upon enzymatic hydrolysis of the DNA and purification by HPLC, a C8-substituted deoxyguanosine adduct, N-(deoxyguanosin-8-yl)-2-aminofluoranthene, was identified by mass and proton NMR spectral analysis. This adduct was also formed at a level of 10 pmol/mg of DNA when 2-NFA was metabolized by xanthine oxidase, 6 pmol/mg of DNA from incubation with liver microsomes of rats pretreated with 3-methylcholanthrene, and 3-pmol/mg of DNA from metabolism by liver microsomes of rats pretreated with phenobarbital.
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PMID:In vitro metabolism and DNA adduct formation from the mutagenic environmental contaminant 2-nitrofluoranthene. 148 38

Aristolochic acid II (AAII), one of the major components of the carcinogenic plant extract aristolochic acid, is known to be mutagenic and to form DNA adducts in vitro and in vivo. The major fluorescent DNA adduct formed upon xanthine oxidase mediated reduction in the presence of calf thymus (CT-) DNA or deoxyadenosine was isolated by means of preparative HPLC and identified by fluorescence, UV/vis absorbance, and 1H NMR spectroscopy as 7-(deoxy-adenosin-N6-yl)aristolactam II. As a model proximate carcinogen, N-chloroaristolactam II was prepared chemically from aristolactam II, the reduction product of AAII. This model compound was spectroscopically characterized and found to react directly with CT-DNA without any activation, forming the same deoxyadenosine adduct. HPLC analysis with fluorescence monitoring detected this adduct in vivo in the liver DNA of Wistar rats treated orally with AAII. These results confirm the anticipated metabolic activation mechanism of AAII as occurring via a cyclic nitrenium ion.
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PMID:N6-adenyl arylation of DNA by aristolochic acid II and a synthetic model for the putative proximate carcinogen. 166 54

31P ENDOR spectra are described for three different molybdenum(V) species in reduced xanthine oxidase samples. The spectra were not affected by removing the FAD from the enzyme, implying that this is located at some distance from molybdenum. Furthermore, in confirmation of the work of J. L. Johnson, R. E. London, and K. V. Rajagopalan [(1989) Proc. Natl. Acad. Sci. U.S.A. 86, 6493-6497], NMR and chemical analysis of the phosphate content of highly purified xanthine oxidase showed there are only three phosphate residues per subunit of the enzyme. It is concluded that the ENDOR features are due to hyperfine coupling of the phosphate group of the pterin cofactor to the molybdenum atom. Evaluation of the dipolar component of the coupling has permitted estimation of the molybdenum-phosphorus distances as 7-12 A. This implies that the cofactor is in an extended conformation in the enzyme molecule. Less detailed 31P ENDOR data on sulfite oxidase are consistent with a similar conformation for the cofactor in this enzyme.
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PMID:31P ENDOR studies of xanthine oxidase: coupling of phosphorus of the pterin cofactor to molybdenum (V). 185 Feb 96

The value of astaxanthin, a carotenoid pigment, in the treatment of oxidative injury is assessed. Astaxanthin protects the mitochondria of vitamin E-deficient rats from damage by Fe2(+)-catalyzed lipid peroxidation both in vivo and in vitro. The inhibitory effect of astaxanthin on mitochondrial lipid peroxidation is stronger than that of alpha-tocopherol. Thin layer chromatographic analysis shows that the change in phospholipid components of erythrocytes from vitamin E-deficient rats induced by Fe2+ and Fe3(+)-xanthine/xanthine oxidase system was significantly suppressed by astaxanthin. Carrageenan-induced inflammation of the paw is also significantly inhibited by administration of astaxanthin. These data indicate that astaxanthin functions as a potent antioxidant both in vivo and in vitro.
Physiol Chem Phys Med NMR 1990
PMID:Inhibition of oxidative injury of biological membranes by astaxanthin. 208 11

The pathogenesis of post-ischaemic depression of contractility in myocardium was examined in isovolumic rat heart. 31P-NMR was used to monitor changes in ATP, creatine phosphate (CrP), inorganic phosphate (Pi), and [H+] during brief periods of ischaemia and reperfusion with and without allopurinol treatment. During 5, 10, or 15 min of total global ischaemia, the decline in function (rate-pressure product) correlated inversely with [Pi] (r = 0.92, P less than 0.01). Cardiac function exhibited a slow progressive recovery during 20 min of reperfusion, ultimately reaching only 85%, 78%, and 69% of its pre-ischaemic value following 5, 10, and 15 min of global ischaemia respectively. Following each ischaemic period [ATP], [CrP], [Pi], and [H+] all recovered to control levels within 5-10 min of initiating reperfusion. Allopurinol (2 mM) treatment of hearts made ischaemic for 15 min significantly improved contractile recovery to 89 +/- 7%. Allopurinol also exhibited significant anti-arrhythmic activity during the reperfusion period, decreasing the incidence of premature contractions and the duration of tachy-arrhythmias. Allopurinol had no effect on the final repletion of [ATP] and [CrP], or the recovery of [Pi] and [H+], although the rate of ATP repletion was elevated in the initial 5 min of reperfusion. These results show that neither depletion of the cytosolic high-energy phosphate pool, nor sustained elevations in [Pi] or [H+] are important in the production of post-ischaemic contractile impairment. The beneficial action of allopurinol suggests that xanthine oxidase derived oxygen free-radicals may be involved in the sustained contractile dysfunction following brief ischaemic episodes.
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PMID:Behaviour of energy metabolites and effect of allopurinol in the "stunned" isovolumic rat heart. 209 34

The xanthine oxidase catalyzed oxidation of hypoxanthine was followed by monitoring the formation of uric acid at 290 nm. Inhibition of xanthine oxidase occurs in aqueous solutions of folic acid methotrexate and aminopterin. These compounds are known to dissociate upon exposure to ultraviolet light resulting in the formation of their respective 6-formylpteridine derivatives. The relative rates of dissociation were monitored spectrophotometrically by determining the absorbance of their 2,4-dinitrophenylhydrazine derivatives at 500 nm. When aqueous solutions of folic acid, aminopterin and methotrexate were exposed to uv light, a direct correlation was observed between the concentrations of the 6-formylpteridine derivatives existing in solution and the ability of these solutions to inhibit xanthine oxidase. The relative potency of the respective photolysis products were estimated.
Physiol Chem Phys Med NMR 1990
PMID:Time dependent inhibition of xanthine oxidase in irradiated solutions of folic acid, aminopterin and methotrexate. 210 9

Thiourea and superoxide dismutase were effective antidotes to paraquat toxicity in an HL60 cell culture system, whereas other hydroxyl scavengers were ineffective. The efficacy of thioureas was not due to blockage of intracellular paraquat uptake, inhibition of NADPH-P-450 reductase, or reaction with the paraquat radical. Thiourea also competitively inhibited the reduction of cytochrome c by the xanthine/xanthine oxidase superoxide-generating system, and the release of iron from ferritin by superoxide radicals. The reaction of superoxide with thiourea produced a sulfhydryl compound distinct from products formed by hydrogen peroxide or hydroxyl radicals. Spectrophotometric and chromatographic studies indicated the carbon-sulfide double bond was converted to a sulfhydryl group which reacted with Ellman's reagent. Additional confirmatory evidence for the sulfhydryl compound was obtained with carbon-13 NMR and mass spectroscopies. Thus, thioureas are direct scavengers of superoxide radicals as well as hydroxyl radicals and hydrogen peroxide. The rate constant for the reduction of thiourea by superoxide was estimated at 1.1 x 10(3) M-1 s-1. The implication of this finding on free radical studies, the mechanism of paraquat toxicity, and the metabolism of thioureas is discussed.
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PMID:Thioureas react with superoxide radicals to yield a sulfhydryl compound. Explanation for protective effect against paraquat. 215 25

The plant extract aristolochic acid (AA) has been used as a herbal drug in many cultures since antiquity. In 1982 AA was shown to be mutagenic and a strong carcinogen in Wistar rats. The crude mixture consists of five nitrophenanthrene carboxylic acid derivatives with aristolochic acid I [AA I; 8-methoxy-6-nitro-phenanthro-(3,4-d)-1,3-dioxolo-5-carboxyli c acid] being the major component. The isolated compound has been found to be mutagenic in the Ames assay. The major metabolite of AA I formed under anaerobic conditions in vitro and excreted in vivo in several species including man, is the reduction product aristolactam I. Using the 32P-postlabeling assay, we could show that AA I forms covalent DNA adducts upon metabolic activation in vitro and in vivo in different organs in the rat. Xanthine oxidase, a mammalian nitroreductase, has served as a sufficient model system mimicking the reductive route of in vivo activation of carcinogenic nitroarenes. This paper reports on two major fluorescent adducts of AA I formed by in vitro reaction of AA I with xanthine oxidase and deoxyguanosine or deoxyadenosine. After isolation and purification by preparative HPLC the adducts were characterized by 1H-NMR, FAB mass, UV/Vis and fluorescence spectroscopy. Their structures were elucidated as 7-(deoxyguanosin-N2-yl)-aristolactam I and 7-(deoxyadenosin-N6-yl)-aristolactam I. These findings are in marked contrast to the results reported for other nitroaromatic carcinogens, where C8-modified deoxyguanosine adducts predominate and N2-substituted deoxyguanosine derivatives are found as minor reaction products. Our results suggest a cyclic N-acylnitrenium ion with delocalized positive charge as the ultimate carcinogenic species, binding preferentially to the exocyclic amino group of purine nucleotides in DNA.
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PMID:Aristolochic acid binds covalently to the exocyclic amino group of purine nucleotides in DNA. 230 59

The reported presence of covalently bound phosphate residues in flavoproteins has significant implications with regard to the catalytic mechanisms and structural stability of the specific enzymes themselves and in terms of general cellular metabolic regulation. These considerations have led to a reevaluation of the presence of covalently bound phosphorus in the flavoproteins xanthine oxidase (xanthine: oxygen oxidoreductase, EC 1.1.3.22) and glucose oxidase (beta-D-glucose: oxygen 1-oxidoreductase, EC 1.1.3.4). Milk xanthine oxidase purified by a procedure that includes anion-exchange chromatography is shown to contain three phosphate residues. All three are noncovalently associated with the protein, two with the FAD cofactor, and one with the molybdenum cofactor. Results of chemical analysis and 31P NMR spectroscopy indicate that enzyme purified by this method contains no phosphoserine residues. Xanthine oxidase preparations purified by chromatography on calcium phosphate gel in place of DEAE-Sephadex yielded higher phosphate-to-protein ratios, which could be reduced to the expected values by additional purification on a folate affinity column. Highly active, highly purified preparations of glucose oxidase are shown to contain only the two phosphate residues of the FAD cofactor. The covalently bound bridging phosphate reported by others may arise in aged or degraded preparations of the enzyme but appears not to be a constituent of functional glucose oxidase. These results suggest that the presence of covalent phosphate residues in other flavoproteins should be rigorously reevaluated as well.
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PMID:Covalently bound phosphate residues in bovine milk xanthine oxidase and in glucose oxidase from Aspergillus niger: a reevaluation. 250 51

After anaerobic reductive activation by either NADPH cytochrome P-450 reductase (EC 1.6.2.4) or xanthine oxidase (EC 1.2.3.2), mitomycin C readily alkylated DNA. When the mitomycin C-alkylated DNA is digested by DNase, snake venom phosphodiasterase, and alkaline phosphatase, only partial release of the monofunctionally linked mitomycin C nucleotide adduct occurs. Cross-linked adducts are not released into dinucleotides but resist nuclease digestion and remain in oligonucleotides and insoluble precipitates. Kinetic analyses show that the nuclease-resistant fraction which is indicative of DNA cross-linking by mitomycin C takes place quite readily. This nuclease-resistant fraction is particularly significant when the amount of total bound mitomycin C is less than 15 mumol/mmol of DNA. The cross-linked mitomycin C product accounts for more than half of the total alkylation under all pH conditions tested. Our data suggest that particular DNA sites are available for DNA cross-linking by mitomycin C, and these sites are probably the preferred and immediate alkylating targets. Furthermore, DNA cross-links by mitomycin C are not the secondary product of monofunctional adducts. Activity of both flavoenzymes is pH dependent, hence, mitomycin C activation and the rate of DNA alkylation are pH dependent. At elevated mitomycin C alkylation of DNA, the highest amount of cross-linking occurs at neutral pH. High pressure liquid chromatographic separation of the nuclease-digested DNA detected one major and two less prominent mitomycin C adducts. These were verified to be mononucleotide mitosene types by UV spectra showing maximum absorbance at 312 and 250 nm. The major adduct was purified and identified as O6-(2'-deoxyguanosyl)-2,7-diaminomitosene by NMR, indicating that the O6 position of guanine is a preferred site in DNA for at least monofunctional linkage formation.
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PMID:DNA alkylation by enzyme-activated mitomycin C. 308 8


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