EC:1.17.3.2 - FACTA Search

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)

We examined the killing of Actinobacillus actinomycetemcomitans and Haemophilus aphrophilus by oxygen metabolites generated by the xanthine-xanthine oxidase (X-XO) system. This system generates a mixture of oxidants, including superoxide radical, hydrogen peroxide, hydroxyl radical, and possibly singlet oxygen. Differential sensitivity to the X-XO system was observed among strains of A. actinomycetemcomitans; notably, 2 catalase-deficient strains and 2 strains representative of serotypes b and c were the most susceptible. H. aphrophilus was not sensitive. The amount of oxidants produced by the X-XO system more closely correlated with killing than the ratio of oxidant production. Cytochrome c, superoxide dismutase, catalase, dimethyl sulfoxide, and desferrioxamine were used to determine the role of superoxide radical, hydrogen peroxide and hydroxyl radical in the bactericidal process. Hydrogen peroxide was the major bactericidal agent against A. actinomycetemcomitans. Superoxide anion participated in killing of A. actinomycetemcomitans to varying but lesser degrees. The intracellular generation of hydroxyl radical was implicated in the killing of several strains. We conclude that (i) strains of A. actinomycetemcomitans are differentially sensitive to the bactericidal effects of the X-XO system and (ii) of the oxidants produced by the X-XO system, hydrogen peroxide is the most bactericidal against A. actinomycetemcomitans.
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PMID:Sensitivity of Actinobacillus actinomycetemcomitans and Haemophilus aphrophilus to oxidative killing. 166 50

The sensitivity of fibroblasts derived from patients with chronic actinic dermatitis (CAD) ultraviolet B (UVB), UVA and superoxide radical was examined. Fibroblasts from the skin of 3 patients with CAD showed abnormal hypersensitivity after exposure to mid-UV (UVB) and near-UV (UVA) radiation in both the dividing and quiescent phases. In their dividing phases, the 3 cell strains (CAD1TO, CAD2TO and CAD3TO) exhibited 78, 55 and 82 J/m2 for the mean lethal dose (Do) values in UVB survival curves. In the quiescent phases their Do values were 262, 226 and 165 J/m2, respectively. Regarding UVA sensitivity, Do value in the dividing phases were 4.9, 3.9 and 3.8 x 10(4) J/m2, and in the quiescent phases, 2.0, 1.9 and 1.7 x 10(5) J/m2. Do values were lower than in the cell strains derived from healthy individuals (Do = 120 +/- 18 and 390 +/- 72 J/m2) for UVB sensitivity in the dividing and quiescent phases and (5.9 +/- 0.6) x 10(4) and (3.2 +/- 1.0) x 10(5) J/m2 for UVA sensitivity in the dividing and quiescent phases. DNA repair synthesis was similar between the cell lines. Furthermore, the 3 CAD cell lines showed a higher sensitivity to superoxide radical generated by hypoxanthine/xanthine oxidase treatment. These results suggest that patients with CAD may suffer from a defect in dealing with damage induced by oxygen radicals.
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PMID:Hypersensitivity of skin fibroblasts from patients with chronic actinic dermatitis to ultraviolet B (UVB), UVA and superoxide radical. 166 59

It has been proposed that beta-blockers and agents affecting Ca2+ metabolism might exert cardioprotective actions because of their ability to act as antioxidants in vivo. The feasibility of this proposal was tested by examining the reaction of a series of such compounds with various oxygen-derived species. None of the compounds tested was sufficiently reactive with superoxide radical, hydrogen peroxide or hypochlorous acid for scavenging of these species to be feasible in vivo at the drug concentrations present in patients given the usual therapeutic doses. All the drugs tested were powerful scavengers of hydroxyl radical except for flunarizine, which stimulated iron ion-dependent hydroxyl radical generation from hydrogen peroxide. However, none of the drugs significantly inhibited production of hydroxyl radicals in this system. Propranolol, verapamil and flunarizine had significant inhibitory effects on the peroxidation of rat liver microsomes in the presence of iron ions and ascorbic acid. All three compounds exerted weaker inhibitory effects on peroxidation of arachidonic acid caused by a mixture of myoglobin and H2O2: pindolol stimulated peroxidation in this system. It is concluded that the ability of beta-blockers and "Ca(2+)-blockers" to inhibit lipid peroxidation varies with the lipid substrate used and the mechanism by which peroxidation is induced. We conclude that suggestions that beta-blockers and "Ca(2+)-blockers" exert antioxidant effects in vivo are not well founded, although there is a possibility that verapamil and propranolol might have some inhibitory effects against peroxidation if they accumulate in membranes to a sufficiently-high concentration in vivo. We could not confirm the reported ability of propranolol to inhibit the enzyme xanthine oxidase.
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PMID:Free radical scavenging and inhibition of lipid peroxidation by beta-blockers and by agents that interfere with calcium metabolism. A physiologically-significant process? 167 58

The effects of azelastine, an orally active anti-allergic drug, on several inflammatory parameters of human neutrophils, including human neutrophil chemotaxis, phagocytosis and generation of reactive oxygen species (ROS), was examined. ROS generated in a cell-free, xanthine-xanthine oxidase system was also assessed. The species investigated were superoxide radical anion (O2-), hydrogen peroxide (H2O2) and hydroxyl radical (OH.). Azelastine significantly inhibited human neutrophil phagocytosis and the generation of O2-, H2O2, OH. by human neutrophils. However, the drug did not markedly affect human neutrophil chemotaxis or the ROS levels generated in the xanthine-xanthine oxidase system. The present study indicates that azelastine may exert an anti-inflammatory action by inhibiting human neutrophil phagocytosis as well as oxygen radical generation at the sites of inflammation.
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PMID:Effects of azelastine on neutrophil chemotaxis, phagocytosis and oxygen radical generation. 168 70

The superoxide radical scavenging effects of the SH group in the captopril molecule has been proposed to be the basis of the "cadioprotective" effect of this angiotensin converting enzyme (ACE) inhibitor in animal models of myocardial injury. We determined the effects of captopril, another ACE inhibitor with an SH group (SQ 26,703), its stereoisomer without ACE inhibitory effect but with an SH group (SQ 14,534), another ACE inhibitor without a SH group (enalaprilat), and N-acetylcysteine on superoxide radical generation by human neutrophils and by the purine-xanthine oxidase reaction. None of the compounds examined decreased superoxide radicals in therapeutic concentrations; however, SH-containing agents directly reduced spectrophotometric absorbance of ferricytochrome C. Thus, SH-containing agents with or without ACE inhibitory effects do not scavenge superoxide radicals.
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PMID:Sulfhydryl group in angiotensin converting enzyme inhibitors and superoxide radical formation. 170 10

High performance liquid chromatography with TSK 5000 PW or TSK 6000 PW size exclusion columns combined with a 125I labelled hyaluronic acid binding protein assay was used to study the effects of oxygen derived free radicals on synovial fluid hyaluronate. A continuous flux of free radicals was generated by the xanthine oxidase/hypoxanthine system. When the free radical flux was generated with xanthine oxidase/hypoxanthine in the presence of the iron chelator desferrioxamine and the hydroxyl radical scavenger mannitol a 30-50% decrease in hyaluronate peak was detected, but the molecular weight of synovial fluid hyaluronate remained almost unchanged as a result of reaction with superoxide radicals and hydrogen peroxide. When trace amounts of iron and EDTA were present in the reaction mixture depolymerisation of synovial fluid hyaluronate occurred, and it reached a final molecular weight of about 13,500 daltons. These results suggest that superoxide and hydroxyl radicals may have a different mode of action on synovial fluid hyaluronate. Superoxide radicals and hydrogen peroxide do not induce depolymerisation but, rather, change the molecular configuration of synovial fluid hyaluronate.
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PMID:Oxygen derived free radicals and synovial fluid hyaluronate. 171 35

The ability of stobadine (ST) to prevent lipid peroxidation was tested in incomplete rat cerebral ischemia induced by 4 hour ligation of the common carotid arteries with a subsequent 10 min reperfusion. The extent of lipid peroxidation was determined by the measurement of the level of conjugated dienes (CD) and thiobarbituric acid reactive substances (TBARS). The levels of CD and TBARS were significantly elevated in brain cortex samples from animals subjected to ischemia followed by reoxygenation in comparison with ischemic samples without reperfusion, samples from sham operated or control animals. The concentration of CD and TBARS significantly decreased in animals treated with therapeutic doses of ST (2 mg/kg) administered i.v. immediately before reperfusion or 10 min after the onset of reperfusion. Stobadine was more effective than the known lipid antioxidant vitamin E, given in a dose of 30 mg/kg.day i.m. over 3 consecutive days prior to ischemia. The beneficial effect of ST on survival of rats was more effective in comparison with vitamin E. Significant changes were found in the activities of the antioxidative enzymes, i.e. increase in superoxide dismutase (SOD) and decrease in glutathione peroxidase (GP) in brain cortex samples from animals subjected to ischemia followed by reoxygenation. Stobadine prevented these changes. Catalase (CAT) activity was not detectable. It may be concluded from the increased SOD activity that oxygen radicals play a significant role in cerebral ischemia followed reperfusion. In addition to its antioxidant effect, stobadine probably prevents superoxide radical generation. The mechanism of xanthine oxidase inhibition is not involved in preventing superoxide radical generation by stobadine. Stobadine maintained high GP activity, probably by preventing glutathione oxidation.
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PMID:Effect of stobadine on brain lipid peroxidation induced by incomplete ischemia and subsequent reperfusion. 178 73

Superoxide anion radicals are generated in association with prostaglandin production, and are implied in the mediation of secondary brain damage following cerebral ischemia or injury. In a model of closed head injury in rats we have demonstrated the activation of phospholipase A2 (PLA2) and the increased production of eicosanoids in the post-trauma period. In the present study we investigated the role of superoxide dismutase (SOD) in this model. Head trauma was induced over the left cerebral hemisphere of ether anesthetized rats by a calibrated weight drop device. Cortical tissue samples were taken 15 min, 4 and 24 h later. SOD activity was assayed by its ability to inhibit the xanthine oxidase-cytochrome c reduction. There was no significant change in SOD activity in any of the regions studied - the site of injury, and contralateral region as well as the remote frontal lobes of both hemispheres. Although intense PLA2 activity and production of eicosanoids was previously found in some of these regions, activity of SOD was unaffected. These results do not support an important role for endogenous SOD up to 24 h after head injury.
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PMID:Superoxide dismutase activity is not affected by closed head injury in rats. 178 58

Many reports concerning the involvement of active oxygen free radicals in the pathogenesis and progression of acute pancreatitis have been published. In this study, the direct toxic effect of active oxygen free radicals on the rat pancreas was evaluated in vivo. Superoxide anions, generated via the xanthine/xanthine oxidase (X/XO) system, and hydrogen peroxide (H2O2) were used. After continuous arterial injection of X/XO into the celiac artery hemorrhage and extensive edema developed. However, additional continuous injection of superoxide dismutase (SOD) into the external jugular vein completely suppressed the hemorrhage and relieved the edema. When hydrogen peroxide (100 microM/Kg/hour) was injected continuously through the celiac artery made hemorrhage and edema were recognized in the pancreas, both of which were suppressed by continuous injection of catalase (10 mg/Kg/hour) or gabexate mesilate (10 mg/Kg/hour) into the external jugular vein. The amylase and lipase levels in the intraperitoneal fluid rose to more than 10 times the preoperative values 5 hours after drug administration. These levels were lowered to 2 times the preoperative values by the continuous venous injection of SOD or catalase (which are specific scavengers of superoxide anions or hydrogen peroxide, respectively) or by gabexate mesilate. On the other hand, serum amylase and lipase levels remained almost constant throughout the entire experiment. Thus, the administration of active oxygen free radicals caused acute pancreatitis, which was suppressed by the systemic administration of specific scavengers for each free radical. Active oxygen free radicals were shown to have a direct, toxic effect on the pancreas.
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PMID:[Effect of oxygen free radicals on the rat pancreas in vivo]. 182 4

Experiments were performed to investigate the hypothesis that exposure of vascular endothelial cells to low levels of reduced oxygen products results in DNA strand breakage as an early event and to determine if endothelial cells derived from bovine pulmonary artery demonstrate a susceptibility to oxidant injury that is different from that of cells derived from bovine aorta. Endothelial cells grown in culture were exposed to H2O2 (either added directly or generated from glucose oxidase) or superoxide radical (generated from xanthine oxidase), and DNA strand breakage was determined using fluorescent analysis of DNA unwinding. Cell injury was also assessed by measuring the release of lactate dehydrogenase (LDH) or the release of 51Cr from prelabeled cells. Whereas LDH or 51Cr release detected injury resulting from exposure of endothelial cells to greater than or equal to 100 microM H2O2 and was apparent only 2 or more h after exposure, DNA strand breakage was detectable after 15 min of exposure of endothelial cells to 50 microM H2O2. Approximately equivalent DNA strand breakage resulted from exposure to 50 microM H2O2, to 25 mU glucose oxidase, or to 10 mU xanthine oxidase; this injury is similar to that seen following exposure to 10 gray X-radiation. DNA strand breakage following exposure of cells to xanthine oxidase was preventable by catalase but not by superoxide dismutase or hydroxyl radical scavengers, suggesting that H2O2 is the active extracellular oxidant mediating DNA strand breaks. No differences were seen in the susceptibility of pulmonary artery or aortic endothelial cells to oxidant injury.
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PMID:DNA strand break formation following exposure of bovine pulmonary artery and aortic endothelial cells to reactive oxygen products. 189 51

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