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)

Crude cell-free extracts of nine strains of Streptomyces tested for nitroalkane-oxidizing activity showed production of nitrous acid from 2-nitropropane, 1-nitropropane, nitroethane, nitromethane, and 3-nitropropionic acid. These substrates were utilized in most strains but to a decreasing extent in the order given, and different strains varied in their relative efficiency of oxidation. p-Nitrobenzoic acid, p-aminobenzoic acid, enteromycin, and omega-nitro-l-arginine were not attacked. d-Amino acid oxidase, glucose oxidase, glutathione S-transferase, and xanthine oxidase, enzymes potentially responsible for the observed oxidations in crude cellfree extracts, were present at concentrations too low to play any significant role. A nitroalkane-oxidizing enzyme from streptozotocin-producing Streptomyces achromogenes subsp. streptozoticus was partially purified and characterized. It catalyzes the oxidative denitrification of 2-nitropropane as follows: 2CH(3)CH(NO(2))CH(3) + O(2) --> 2CH(3)COCH(3) + 2HNO(2). At the optimum pH of 7.5 of the enzyme, 2-nitropropane was as good a substrate as its sodium salt; t-nitrobutane was not a substrate. Whereas Tiron, oxine, and nitroxyl radical acted as potent inhibitors of this enzyme, superoxide dismutase was essentially without effect. Sodium peroxide abolished a lag phase in the progress curve of the enzyme and afforded stimulation, whereas sodium superoxide did not affect the reaction. Reducing agents, such as glutathione, reduced nicotinamide adenine dinucleotide, and nicotinamide adenine dinucleotide phosphate, reduced form, as well as thiol compounds, were strongly inhibitory, but cyanide had no effect. The S. achromogenes enzyme at the present stage of purification is similar in many respects to the enzyme 2-nitropropane dioxygenase from Hansenula mrakii. The possible involvement of the nitroalkane-oxidizing enzyme in the biosynthesis of antibiotics that contain a nitrogen-nitrogen bond is discussed.
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PMID:Nitroalkane oxidation by streptomycetes. 3 65

Indoleamine 2,3-dioxygenase purified to apparent homogeneity from rabbit intestine was inhibited by scavengers for superoxide anion such as superoxide dismutase and 1,2-dihydroxybenzene-3,5-disulfonic acid (Tiron). On the other hand, beta-carotene and 1,4-diazobicyclo-(2,2,2)-octane, scavengers for singlet oxygen, did not affect the enzyme activity significantly. The degree of inhibition of the dioxygenase by superoxide dismutase preparations from bovine erythrocytes, green peas, spinach leaves, and Escherichia coli paralleled that observed with these dismutase preparations on the aerobic reduction of cytochrome c by xanthine oxidase and its substrate. The pH profiles of the inhibition by dismutase of the dioxygenase and cytochrome c reduction were also similar and the maximal inhibition was observed around pH 10 in both cases. The degree of inhibition was not affected by the concentration of substrate but was a function of the concentration of dismutase. It was inversely related to the concentrations of the dioxygenase and its cofactors, ascorbic acid and methylene blue, both of which were required for maximum activity. Ascorbic acid could be replaced either by xanthine oxidase and its substrate, or by tetrabutylammonium superoxide prepared by electrolytic reduction of molecular oxygen, or by potassium superoxide. When limited amounts of superoxide anion were added to the reaction mixture containing a substrate amount of the dioxygenase, the ratio of the amount of superoxide anion added to that of the product formed was approximately unity both under aerobic and anaerobic conditions. Taken together, these findings indicate that superoxide anion, rather than molecular oxygen, is utilized as substrate by indoleamine 2,3-dioxygenase.
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PMID:Studies on indoleamine 2,3-dioxygenase. I. Superoxide anion as substrate. 23 93

Xanthine dehydrogenase has been purified to a homogeneous state from cell-free extracts of a strain of Streptomyces. The enzyme has a molecular weight of 125,000 and consists of two subunits with a molecular weight of 67,000. The isoelectric point is at pH 4.4. The enzyme exhibits absorption maxima at 273, 355, and 457 nm and contains FAD, iron, and labile sulfide in a molar ratio of 1 : 7 : 1 per subunit. Little molybdenum could be detected. The enzyme is most active at pH 8.7 and at 40 degrees C, and is stable between pH 7 and 12 (at 4 degrees C for 24 h) and below 55 degrees C (at pH 9 for 10 min). The activity is stimulated by K+ at a concentration of 50 mM or more and also by keeping the enzyme at pH 9 to 11. The activity is inhibited by cyanide, Tiron, and p-chloromercuribenzoate and by adenine and urate. Among the compounds tested, hypoxanthine, guanine, xanthine 2-hydroxypurine, and 6,8-dihydroxypurine are oxidized at considerable rates; hypoxanthine is the best substrate. NAD+ is the preferred electron acceptor. Km values of the enzyme for hypoxanthine, guanine, xanthine, and NAD+ are 0.055, 0.015, 0.15, and 0.11 mM, respectively. Marked differences in the properties of this enzyme compared to others are the activity towards guanine, which has a higher affinity for the enzyme than hypoxanthine and xanthine, and a higher reactivity with hypoxanthine than xanthine. The organism has been identified as Streptomyces cyanogenus.
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PMID:Purification and properties of xanthine dehydrogenase from Streptomyces cyanogenus. 47 30

In newborn pigs, vasodilation in response to hypercapnia is dependent on prostaglandin (PG) H synthase. We investigated the contribution of activated oxygen by-products to hypercapnia-induced PGH synthase-dependent dilation of pial arteries and arterioles in anesthetized newborn pigs. Activated oxygen species were generated on the cerebral surface using xanthine oxidase and hypoxanthine. Catalase, H2O2, and iron or N-(2-mercaptopropionyl)-glycine (MPG) were used to separate effects of superoxide anion and hydroxyl radical. All the activated oxygen species tested caused vasodilation of both arteries and arterioles. Vasodilation to all activated oxygen species was largely reversible with only the hydroxyl radical encouraging combination of xanthine oxidase, hypoxanthine, H2O2, and FeCl3, causing significant dilation 20 min after removal of treatment. Cotreatment with MPG blocked this residual dilation. Neither pretreatment with the extracellular superoxide anion radical scavenger, superoxide dismutase (SOD), the intracellular superoxide anion radical scavenger, Tiron, the H2O2 scavenger, catalase, nor hydroxyl radical scavengers, dimethyl sulfoxide (DMSO) and MPG, altered vasodilation of pial arteries or arterioles in response to hypercapnia. Furthermore, the increase in cerebral prostanoid synthesis in response to hypercapnia was not affected by pretreatment with SOD, Tiron, catalase, DMSO, or MPG. We conclude that the progressively reduced forms of oxygen that would be produced during PGH synthase metabolism of arachidonic acid can dilate pial arteries and arterioles of newborn pigs. However, these activated oxygen species are not responsible for the vasodilation to hypercapnia in the newborn pig, suggesting that eicosanoids cause the dilation.
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PMID:Activated oxygen species do not mediate hypercapnia-induced cerebral vasodilation in newborn pigs. 187 61

Tiron (1,2-dihydroxybenzene-3,5-disulfonate) is oxidized to an EPR-visible semiquinone by superoxide radicals produced by xanthine oxidase. The steady-state level of the Tiron radicals increases with an increased xanthine oxidase concentration. A calibration plot has been obtained relating the steady-state concentration of the Tiron semiquinone determined by EPR-spectroscopy to the rate of 0.2 production as measured by the superoxide dismutase-sensitive cytochrome c reduction. This approach allows for a simple and sensitive assay of 0.2 generation rate in biological systems in the range of ca.0.1-4.0 microM/min using Tiron as a spin trap. The rate of 0.2 generation by antimycin-inhibited ischemic rat heart mitochondria has been measured by this method.
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PMID:A simple assay of the superoxide generation rate with Tiron as an EPR-visible radical scavenger. 302 Nov 63

A homogeneous preparation of transketolase was obtained from spinach leaf; the specific enzyme activity was 9.5 mumolo of glyceraldehyde-3-P formed (mg of protein)-1 min-1, when xylulose-5-P and ribose-5-P were used as the donor and acceptor, respectively, of the ketol residue. Transketolase catalyzed the formation of glycolate from fructose-6-P coupled with the O2- -generating system of xanthine-xanthine oxidase. The addition of superoxide dismutase (145 units) or 1,2-dihydroxybenzene-3,5-disulfonic acid (Tiron) (5 mM), both O2- scavengers, to the reaction system inhibited glycolate formation 72 and 58%, respectively. The reacton was not inhibited by catalase. Mannitol, an .OH scavenger, and beta-carotene and 1,4-diazobicyclo[2.2.2]octane, 1O2 scavengers, showed little or no inhibitory effects. The rate of glycolate formation catalyzed by the transketolase system was measured in a coupled reaction with a continuous supply of KO2 dissolved in dimethyl sulfoxide, used as an O2- -generating system. The optimum pH of the reaction was above pH 8.5. The second-order rate constant for the reaction between transketolase and O2-, determined by the competition for O2- between nitroblue tetrazolium (NBT) and transketolase, was 1.0 X 10(6) M-1 s-1. Transketolase showed an inhibitory effect on the O2- -dependent reduction of NBT only if the reaction mixture was previously incubated with ketol donors such as fructose-6-P, xylulose-5-P, or glycolaldehyde. The results suggest the possibility that transketolase catalyzes O2- -dependent glycolate formation under increased steady-state levels of O2- in the chloroplast stroma.
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PMID:Glycolate formation catalyzed by spinach leaf transketolase utilizing the superoxide radical. 625 May 80

The possible role of superoxide anion in 2-oxoglutarate-coupled dioxygenase reactions has been investigated. gamma-Butyrobetaine hydroxylase (EC 1.14.11.1) was inhibited by human erythrocyte superoxide dismutase (EC 1.15.1.1), probably due to release of Cu(2+) or Zn(2+), as the inhibition was more pronounced after heat-inactivation of the dismutase and as Cu(2+) was a potent inhibitor. Bovine superoxide dismutase and the Mn(2+)-containing superoxide dismutase from Escherichia coli were not inhibitory. Superoxide anion generated from xanthine/xanthine oxidase was not stimulatory and could not replace ascorbate. Thymine 7-hydroxylase (EC 1.14.11.6) and thymidine 2'-hydroxylase (EC 1.14.11.3) were not inhibited by erythrocyte superoxide dismutase or stimulated by superoxide anion. gamma-Butyrobetaine hydroxylase was inhibited by a number of low-molecular-weight compounds, such as tetranitromethane, Nitro Blue Tetrazolium, adrenaline and Tiron, which may act as scavengers of superoxide anion. Involvement of this radical in other oxygenase reactions has been inferred from the findings that they were inhibitory for the respective enzymes. Several of these compounds also inhibited gamma-butyrobetaine hydroxylase. It could be concluded from these experiments, however, that mechanisms other than disposal of superoxide anion might equally well be operative, such as hydrophobic interaction with the enzyme protein and interaction with compounds required for full enzymic activity, e.g. iron and ascorbate. The results appear to rule out a requirement for superoxide anion generated in free solution, and have not yielded evidence for participation of enzyme-bound superoxide anion in 2-oxoglutarate-dependent hydroxylations.
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PMID:Does superoxide anion participate in 2-oxoglutarate-dependent hydroxylation? 629 7

We sought to examine mechanisms underlying nitroglycerin (NTG) tolerance and "cross-tolerance" to other nitrovasodilators. Rabbits were treated for 3 d with NTG patches (0.4 mg/h) and their aortic segments studied in organ chambers. Relaxations were examined after preconstriction with phenylephrine. In NTG tolerant rabbit aorta, relaxations to cGMP-dependent vasodilators such as NTG (45 +/- 6%), SIN-1 (69 +/- 7%), and acetylcholine (ACh, 64 +/- 5%) were attenuated vs. controls, (90 +/- 2, 94 +/- 3, and 89 +/- 2% respectively, P < 0.05 for all), while responses to the cAMP-dependent vasodilator forskolin remained unchanged. In tolerant aorta, endothelial removal markedly enhanced relaxations to NTG and SIN-1 (82 +/- 4 and 95 +/- 3%, respectively). Other studies were performed to determine how the endothelium enhances tolerance. Vascular steady state .-O2 levels (assessed by lucigenin chemiluminescence) was increased twofold in tolerant vs. control vessels with endothelium (0.31 +/- 0.01 vs. 0.61 +/- 0.01 nmol/mg per minute). This difference was less in vessels after denudation of the endothelium. Diphenylene iodonium, an inhibitor of flavoprotein containing oxidases, and Tiron a direct .-O2 scavenger normalized .-O2 levels. In contrast, oxypurinol (1 mM) an inhibitor of xanthine oxidase, rotenone (50 microM) an inhibitor of mitochondrial electron transport and NG-nitro-L-arginine (100 microM) an inhibitor of nitric oxide synthase did not affect the chemiluminescence signals from NTG-tolerant aortas. Pretreatment of tolerant aorta with liposome-entrapped, pH sensitive superoxide dismutase (600 U/ml) significantly enhanced maximal relaxation in response to NTG, SIN-1, and ACh, and effectively reduced chemiluminescence signals. These studies show that continuous NTG treatment is associated with increased vascular .-O2-production and consequent inhibition of NO. mediated vasorelaxation produced by both exogenous and endogenous nitrovasodilators.
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PMID:Evidence for enhanced vascular superoxide anion production in nitrate tolerance. A novel mechanism underlying tolerance and cross-tolerance. 781 13

In this study we examined the intracellular sources of superoxide anion (O2-.) in cultured bovine coronary endothelium, employing lucigenin (250 microM)-elicited chemiluminescence (CL). In the homogenate from these cells, 100 microM NADPH increased O2-. by 81% from 8.9 +/- 1.5 to 16.0 +/- 1.5 x 10(5) cpm/mg protein (P < 0.01, n = 8). In the presence of 100 microM NADH, however, CL increased by 458% from 8.9 +/- 1.6 to 49.6 +/- 12.0 x 10(5) cpm/mg protein (P < 0.01, n = 8). Scavengers of O2-., superoxide dismutase (100 micrograms/ml), or 4,5-dihydroxy-1,3-benzenedisulfonic acid disodium salt (Tiron, 10 mM) inhibited NADH-mediated CL by 70 and 83%, respectively. Neither hypoxanthine (100 microM) nor antimycin (10 microM)+succinate (5 mM) had any significant effect on basal CL levels, thereby excluding xanthine oxidase and mitochondria, respectively, as a detectable sources of O2-. generation. The presence of NAD+ (100 microM) and lactate (1 mM) increased CL by 88% (n = 8, P < 0.01). In the intact cells, basal production of CL was increased by 205% (P < 0.01) by 5 mM lactate, but not by 5 mM pyruvate, and CL was inhibited by 10 mM Tiron, suggesting the reduction of cytosolic NAD by lactate dehydrogenase stimulates O2-. production. Diphenyliodonium at 1 and 10 microM inhibited both NADH-mediated CL in homogenate and lactate-mediated CL in intact endothelium by 50 and 33%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:NADH oxidoreductase is a major source of superoxide anion in bovine coronary artery endothelium. 802 19

Several studies indicate that reactive oxygen species (ROS) are involved in defective sperm function pathophysiology. In this study we attempted to determine differentially the effects of xanthine (0.12 mM) plus xanthine oxidase (0.035 U/mL) (X+XO, a ROS promoter system), ROS scavengers (Tiron (TIR, 15 mM); catalase (CAT, 10 micrograms/mL); dimethylsulfoxide (DMSO, 140 mM)), and X+XO plus scavengers on several epididymal mouse spermatozoa functional parameters, incubated in NTPC medium, for 29 min. In the presence of X+XO, progressive gametes significantly diminished. TIR or CAT attenuated this effect, but DMSO did not. Inversely, X+XO increased the bending-forms population; only TIR reversed this phenomenon. The ROS promoter system diminished the viable cell population; all scavengers assayed maintained sperm viability at levels similar to control ones. When exposed to hypoosmotic shock after 29 min incubation with X+XO, the percentage of swollen cells decreased; TIR, CAT, or DMSO did not prevent this effect. Our experiments demonstrate that it is possible to differentiate the deleterious ROS effects upon sperm functional activity. O-2. and H2O2 preferentially seem to modify sperm motility, O-2. exhibiting the greatest ability for generating bending-form gametes, OH-being the most lethal ROS. In addition, sperm membrane clearly appears as the most damaged structure.
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PMID:Differential effects of pharmacologically generated reactive oxygen species upon functional activity of epididymal mouse spermatozoa. 916 98

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