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)

Myeloperoxidase catalyses the conversion of H2O2 and Cl- to hypochlorous acid (HOCl). It also reacts with O2- to form the oxy adduct (compound III). To determine how O2- affects the formation of HOCl, chlorination of monochlorodimedon by myeloperoxidase was investigated using xanthine oxidase and hypoxanthine as a source of O2- and H2O2. Myeloperoxidase was mostly converted to compound III, and H2O2 was essential for chlorination. At pH 5.4, superoxide dismutase (SOD) enhanced chlorination and prevented formation of compound III. However, at pH 7.8, SOD inhibited chlorination and promoted formation of the ferrous peroxide adduct (compound II) instead of compound III. We present spectral evidence for a direct reaction between compound III and H2O2 to form compound II, and for the reduction of compound II by O2- to regenerate native myeloperoxidase. These reactions enable compound III and compound II to participate in the chlorination reaction. Myeloperoxidase catalytically inhibited O2- -dependent reduction of Nitro Blue Tetrazolium. This inhibition is explained by myeloperoxidase undergoing a cycle of reactions with O2-, H2O2 and O2-, with compounds III and II as intermediates, i.e., by myeloperoxidase acting as a combined SOD/catalase enzyme. By preventing the accumulation of inactive compound II, O2- enhances the activity of myeloperoxidase. We propose that, under physiological conditions, this optimizes the production of HOCl and may potentiate oxidant damage by stimulated neutrophils.
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PMID:Superoxide modulates the activity of myeloperoxidase and optimizes the production of hypochlorous acid. 284 72

Chromate was reduced during the oxidation of 1-methylnicotinamide chloride by partially purified rabbit liver aldehyde oxidase. In addition to 1-methylnicotinamide, several other electron donor substrates for aldehyde oxidase were able to support the enzymatic chromate reduction. The reduction required the presence of both enzyme and the electron donor substrate. The rate of the chromate reduction was retarded by inhibitors of aldehyde oxidase but was not affected by substrates or inhibitors of xanthine oxidase. These results are consistent with the involvement of aldehyde oxidase in the reduction of chromate by rabbit liver cytosolic enzyme preparations.
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PMID:Chromate reduction by rabbit liver aldehyde oxidase. 294 Oct 18

Allopurinol is a scavenger of the highly reactive hydroxyl radical (k2 approx. 10(9) M-1 X s-1). One product of attack of hydroxyl radical upon allopurinol is oxypurinol, which is a major metabolite of allopurinol. Oxypurinol is a better hydroxyl radical scavenger than is allopurinol (k2 approx. 4 X 10(9) M-1 X s-1) and it also reacts with the myeloperoxidase-derived oxidant hypochlorous acid. Hence the protective actions of allopurinol against reperfusion damage after hypoxia need not be entirely due to xanthine oxidase inhibition.
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PMID:Allopurinol and oxypurinol are hydroxyl radical scavengers. 303 Aug 9

The oxidative inactivation of alpha 1-proteinase (alpha 1AP) inhibitor is a one of mechanisms that may lead to the pulmonary emphysema. This process is caused by oxidants derived from atmosphere and released from lung phagocytes. These cells produce various oxidants hydrogen peroxide (H2O2), hypochlorous acid (HClO), hydroxyl (OH.) and superoxide (O2-) radicals after inflammatory stimulation. In this study I have investigated the effects of H2O2 (1.5 x 10(-5) to 1.5 x 10(-2) M) alone or with addition of FeCl2 (50 microM) in order to generate OH., chloramine-T (1.5 x 10(-5) to 1.5 x 10(-3) M) which generates HClO, glucose 10 mg/ml-glucose oxidase (12.5 to 80 mU/ml)-H2O2 generating system, xanthine 0.2 mM-xanthine oxidase (12.5 to 80 mU/ml)-O2-2 generating system on the elastase inhibitory activity of alpha 1AP in vitro. H2O2 was weak in alpha 1AP inactivation--only concentration of H2O2 1.5 x 10(-2) caused severe loss of its activity to 23 +/- 8% inhibition of elastase. Addition of FeCl2 to H2O2 and following OH. generation did not enhance its alpha 1AP inactivation. O2-2 generating system inhibited moderately alpha 1AP. The % inhibition of elastase at concentration of xanthine oxidase 80 mU/ml was 65 +/- 7. HClO was most effective as an alpha 1AP inactivator. All used chloramine-T concentrations completely suppressed alpha 1AP activity. The obtained results and in vivo consumption of H2O2 by polymorphonuclear leukocyte myeloperoxidase for HClO production suggest that scavenging of these reactive oxygen species may be useful in prevention of emphysema.
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PMID:The comparative study of reactive oxygen species generated by polymorphonuclear leukocytes as alpha 1-proteinase inhibitor inactivators-possible application for antioxidant prevention of emphysema. 307 84

To determine the mechanism responsible for the enhanced susceptibility of endothelial cells to oxidant injury in the absence of glucose, we induced endothelial cell injury with oxygen radicals in the presence of various oxygen radical scavengers and measured endothelial cell levels of glutathione after oxidant injury in the presence and absence of glucose. Endothelial cells were damaged with toxic oxygen radicals generated by phorbol myristate acetate (PMA)-activated polymorphonuclear leukocytes (PMNs) or xanthine-xanthine oxidase in the presence and absence of glucose and catalase (scavenger of hydrogen peroxide), superoxide dismutase (scavenger of superoxide radical), isoleucine, valine, and serine (scavengers of hypochlorous acid), or mannitol, ethanol, benzoic acid, dimethyl sulfoxide, and dimethyl thiourea (scavengers of hydroxyl radical). Endothelial cell injury was quantitated by 2-deoxy-[1-3H] glucose or chromium 51 release assays or both. In each oxidant-generating system, in the presence and absence of glucose, only catalase significantly protected endothelial cells from oxidant injury (P less than 0.001). When endothelial cells were damaged by hydrogen peroxide generated with xanthine-xanthine oxidase in the presence of glucose, endothelial cell levels of glutathione remained unchanged. In contrast, when endothelial cells were damaged with xanthine-xanthine oxidase in the absence of glucose, endothelial cell levels of glutathione fell to less than 50% of baseline (P less than 0.05). Xanthine-xanthine oxidase-mediated endothelial cell damage and depletion of glutathione in the absence of glucose were similar to results obtained in the presence of glucose when glutathione was depleted with buthionine sulfoximine, diethyl maleate, or 1-chloro-2,4-dinitrobenzene.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of glutathione in protecting endothelial cells against hydrogen peroxide oxidant injury. 309 44

Xanthine oxidase (XO) and xanthine dehydrogenase (XD) activities decreased in lungs isolated from rats and cultured lung endothelial cells that had been exposed to hyperoxia. Purified XO activity also decreased after addition of a variety of chemically generated O2 metabolite species (superoxide anion, hydrogen peroxide, hydroxyl radical, or hypochlorous acid), hypoxanthine, or stimulated neutrophils in vitro. XO inactivation by chemically, self-, or neutrophil-generated O2 metabolites was decreased by simultaneous addition of various O2 metabolite scavengers but not their inactive analogues. Since XO appears to contribute to a variety of biological processes and diseases, hyperoxia- or O2 metabolite-mediated decreases in XO activity may be an important cellular control mechanism.
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PMID:Hyperoxia and self- or neutrophil-generated O2 metabolites inactivate xanthine oxidase. 320 79

Allopurinol has been shown to provide significant protection against ischemia/reperfusion-induced microvascular and parenchymal cell injury. It has been hypothesized that the protection seen with allopurinol after ischemia/reperfusion (I/R) is caused by inhibition of xanthine oxidase. However, recent reports suggest that the beneficial effects of allopurinol in I/R may be caused by direct free radical scavenging. The objective of this study was to determine whether the regimen of allopurinol administration used in most I/R studies leads to a significant modification of the free radical scavenging properties of extracellular fluid (ECF), i.e., plasma and lymph. Plasma and intestinal lymph samples obtained from both control and allopurinol-treated cats were used to assess the following: 1) allopurinol and oxypurinol concentrations, 2) xanthine oxidase inhibition, 3) myoglobin-catalyzed linolenic acid peroxidation, 4) hypochlorous acid scavenging, and 5) protein and nonprotein sulfhydryl content. ECF from allopurinol-treated animals contained approximately 10 microM each of allopurinol and oxypurinol. Ten percent ECF resulted in 80% inhibition of xanthine oxidase activity. Comparable volumes of control ECF did not inhibit xanthine oxidase. Furthermore, allopurinol treatment did not enhance the antioxidant properties of ECF. The results of this study do not support the contention that the beneficial effects of allopurinol in I/R injury are caused by the scavenging of oxidants produced in ECF by activated granulocytes.
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PMID:Allopurinol does not enhance antioxidant properties of extracellular fluid. 339 21

Our previous studies established that human neutrophils could damage and probably kill hyphae of Aspergillus fumigatus and Rhizopus oryzae in vitro, primarily by oxygen-dependent mechanisms active at the cell surface. These studies were extended, again quantitating hyphal damage by reduction in uptake of (14)C-labeled uracil or glutamine. Neither A. fumigatus nor R. oryzae hyphae were damaged by neutrophils from patients with chronic granulomatous disease, confirming the importance of oxidative mechanisms in damage to hyphae. In contrast, neutrophils from one patient with hereditary myeloperoxidase deficiency damaged R. oryzae but not A. fumigatus hyphae. Cell-free, in vitro systems were then used to help determine the relative importance of several potentially fungicidal products of neutrophils. Both A. fumigatus and R. oryzae hyphae were damaged by the myeloperoxidase-hydrogen peroxide-halide system either with reagent hydrogen peroxide or enzymatic systems for generating hydrogen peroxide (glucose oxidase with glucose, or xanthine oxidase with either hypoxanthine or acetaldehyde). Iodide with or without chloride supported the reaction, but damage was less with chloride alone as the halide cofactor. Hydrogen peroxide alone damaged hyphae only in concentrations >/=1 mM, but 0.01 mM hypochlorous acid, a potential product of the myeloperoxidase system, significantly damaged R. oryzae hyphae (a 1 mM concentration was required for significant damage to A. fumigatus hyphae). Damage to hyphae by the myeloperoxidase system was inhibited by azide, cyanide, catalase, histidine, and tryptophan, but not by superoxide dismutase, dimethyl sulfoxide, or mannitol. Photoactivation of the dye rose bengal resulted in hyphal damage which was inhibited by histidine, tryptophan, and 1,4-diazobicyclo(2,2,2)octane. Lysates of neutrophils or separated neutrophil granules did not affect A. fumigatus hyphae, but did damage R. oryzae hyphae. Similarly, three preparations of cationic proteins purified from human neutrophil granules were more active in damaging R. oryzae than A. fumigatus hyphae. This damage, as with the separated granules and whole cell lysates, was inhibited by the polyanion heparin. Damage to R. oryzae hyphae by neutrophil cationic proteins was enhanced by activity of the complete myeloperoxidase system or by hydrogen peroxide alone in subinhibitory concentrations. These data support the importance of oxidative products in general and the myeloperoxidase system in particular in damage to hyphae by neutrophils. Cationic proteins may also contribute significantly to neutrophil-mediated damage to R. oryzae hyphae.
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PMID:Damage to Aspergillus fumigatus and Rhizopus oryzae hyphae by oxidative and nonoxidative microbicidal products of human neutrophils in vitro. 629 3

A specific and highly sensitive fluorimetric method was developed for the determination of 6-mercaptopurine (6MP) in serum. The method is based on the enzymatic oxidation of 6MP with xanthine oxidase to the oxypurine, followed by oxidation with acidic chromate to the corresponding 6-sulfonate. The fluorescent product has excitation and emission maxima at 330 and 400 nm, respectively. The limit of sensitivity was approximately 22 pg/ml for 6MP in water. The sensitivity limit for 6MP in serum containing azathioprine was approximately 2.2 ng/ml. The rate constants for conversion of 6MP into the final product (6-thiouric acid) and the apparent Michaelis constant were also determined by a nonlinear regression analysis based on the integrated Michaelis-Menten equation using the ultraviolet absorbance data and the simplified complementary tristimulus colorimetry.
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PMID:The use of xanthine oxidase for a specific and sensitive fluorimetric determination of 6-mercaptopurine in serum. 654 26

Oxygen-derived free radicals (FRs) and other reactive oxygen species (ROS) have been implicated in the deleterious aspects of myocardial infarction, neutrophil infiltration and post-ischaemic reperfusion. We studied their actions on the main intracellular organelles of Ca-compartmentation and force production (the sarcoplasmic reticulum (SR) and myofilaments) in rat heart preparations by using two forms of chemical 'skinning'. We recorded Ca(2+)-activated isometric tension or, in saponin-treated trabeculae where SR function is maintained, either tension alone or tension and [Ca2+] transients evoked by caffeine. A single, brief application of xanthine/xanthine oxidase (generating superoxide; O2-) rapidly and irreversibly inhibits Ca(2+)-activated force with a dose- and time-dependent action. The kinetics of residual force production are slowed. Rigor induction (by ATP withdrawal) before and during exposure to .O2- prevents this action, suggesting the .O2(-)-sensitive site is occluded in rigor. Myofilament Ca-sensitivity and SR function were unaffected by .O2- or physiologically relevant [H2O2] (< 10 microM). Briefly applying 10-50 microM hypochlorous acid (HOCl) increased Ca-sensitivity and resting tension, but reduced Ca-activated force, in a manner consistent with 'rigor-like' crossbridges being involved. HOCl also provoked spontaneous Ca-release but reduced net SR Ca-uptake. Electron microscopy reveals that the myofilament lattice suffers a characteristic disruption by HOCl but not by .O2-. We conclude that FRs and ROS associated with myocyte dysfunction, reperfusion and inflammation could contribute to post-ischaemic myocardial dysfunction.
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PMID:Intracellular effects of free radicals and reactive oxygen species in cardiac muscle. 747 29

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