Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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

To determine the mechanisms whereby complement-activated granulocytes induce microvascular dysfunction in skeletal muscle, we examined the effect of antineutrophil serum (ANS), IB4 (a monoclonal antibody that inhibits CD18-dependent neutrophil adherence), xanthine oxidase inhibition or inactivation, deferoxamine, and catalase on the increase in canine gracilis muscle microvascular permeability induced by intravascular administration of zymosan-activated plasma (ZAP). Changes in vascular permeability were assessed by measurement of the solvent drag reflection coefficient (sigma) for total plasma proteins, and the extent of neutrophil infiltration was estimated by assessing muscle myeloperoxidase activity. ZAP infusion was associated with a marked increase in vascular permeability compared with control muscles that received no treatment or to muscles treated with zymosan heat-inactivated plasma (ZIP) (sigma = 0.51 +/- 0.04, 0.89 +/- 0.02, and 0.90 +/- 0.01, respectively). Estimates of sigma in animals rendered neutropenic with ANS, or treated with IB4, deferoxamine, or catalase before ZAP infusion were not significantly different from values obtained in control or ZIP-treated muscles (sigma = 0.96 +/- 0.02, 0.88 +/- 0.03, 0.85 +/- 0.02, and 0.79 +/- 0.01, respectively). However, xanthine oxidase inactivation or inhibition provided no protection from this ZAP-induced microvascular dysfunction (sigma = 0.58 +/- 0.02 and 0.58 +/- 0.01, respectively). In addition, neutropenia and inhibition of neutrophil adherence also prevented ZAP-induced increases in vascular resistance and tissue neutrophil infiltration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidant-mediated, CD18-dependent microvascular dysfunction induced by complement-activated granulocytes. 167 94

The effects of cimetidine, ranitidine, histamine and histidine, as well as of their copper complexes, have been examined in an enzymic and chemical O2- generated systems. Copper complexes like CuZnSOD inhibited both the reduction of cytochrome c and NBT2+ in xanthine-xanthine oxidase systems, but their inhibitory action was due to a certain extent to the copper-induced inhibition of xanthine oxidase. EDTA abolished the inhibitory effect of all copper complexes studied. Luminol chemiluminescence in NADH2-PMS system was inhibited by CuZnSOD while it was enhanced by copper complexes. The copper-accelerating effect gradually increased up to about 1 microM Cu and decreased, reaching the control values up to 10 microM Cu. In the presence of low copper concentrations chemiluminescence was inhibited by CuZnSOD only, while in the presence of high copper concentrations it was inhibited by catalase and mannitol, but not by CuZnSOD. The ligands however, have been ineffective in the two O2- generated systems.
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PMID:Do the copper complexes of histamine, histidine and of two H2-antagonists react with O2-? 167 75

Bleomycin, in the presence of ferric salts, oxygen and a suitable reductant, degrades DNA with the release of base propenals, detected as thiobarbituric acid (TBA) reactivity, and the formation of 8-hydroxydeoxyguanosine (8OHdG) detected by HPLC. When xanthine oxidase is added to the incubated mixture of DNA degradation products, TBA-reactivity is destroyed but 8OHdG formation is increased. EPR Spin trapping experiments show that hydroxyl radicals (OH) are formed in the reaction mixture and can be inhibited by the inclusion of either superoxide dismutase or catalase. These findings suggest that the base propenals and possibly malondialdehyde, formed from them, are aldehydic substrates for xanthine oxidase and, the product of this reaction is superoxide (O2-) and hydrogen peroxide (H2O2). Thus, TBA reactivity is destroyed in the formation of O2- and H2O2 which stimulate further oxidative damage to DNA resulting in increased 8OHdG formation.
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PMID:Bleomycin-iron damage to DNA with formation of 8-hydroxydeoxyguanosine and base propenals. Indications that xanthine oxidase generates superoxide from DNA degradation products. 169 21

Hydrogen peroxide produces marked antigonadotropic and lytic actions in luteal cells, but the effects of superoxide, the archetypal oxygen radical, are unknown. Xanthine oxidase generates superoxide, and the activity of this enzyme, and purine substrate, are increased under ischemia, such as that seen at luteal regression. We therefore examined the actions of xanthine oxidase on luteal cells to assess the effects of this enzyme and the superoxide anion on luteal function. Xanthine oxidase, in the presence of hypoxanthine (50 microM), produced marked inhibition of LH-sensitive cAMP and progesterone production with complete inhibition at 25 mU/ml and half-maximal inhibition at about 5 mU/ml. These antigonadotropic actions of xanthine oxidase were rapid with maximal effects within 5 min, followed several minutes later by substantial depletion of ATP. Heat, superoxide dismutase, and catalase or catalase alone abolished the actions of xanthine oxidase. While depletion of ATP by xanthine oxidase was prevented by 3-amino-benzamide, an inhibitor of DNA repair, inhibition of cAMP and progesterone production was still evident. Xanthine oxidase also inhibited progesterone synthesis stimulated by 8-bromo-cAMP. Isobutylmethylxanthine, a cAMP phosphodiesterase inhibitor, did not reverse the inhibition of cAMP accumulation by xanthine oxidase, and the enzyme had no effect on LH receptor binding activity. Since catalase reversed the effects of xanthine oxidase, we conclude that superoxide was rapidly dismuted to hydrogen peroxide and mediated the antigonadotropic and antisteroidogenic actions of xanthine oxidase in luteal cells. The sensitivity of luteal cells to xanthine oxidase raises the possibility that this enzyme may serve as a significant source of hydrogen peroxide in the corpus luteum.
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PMID:Inhibition of gonadotropin action and progesterone synthesis by xanthine oxidase in rat luteal cells. 170 32

Postischemic myocardial dysfunction in canine myocardium has been reported to be reduced by scavengers of oxygen-derived free radicals. One potential source of oxygen-derived free radicals in canine myocardium is xanthine oxidase, but human and rabbit myocardium either lack or possess very low levels of this enzyme. Therefore, the effects of scavengers of oxygen-derived free radicals on postischemic myocardial dysfunction produced by 15 min of ischemia and 3 h of reperfusion were evaluated in vivo in the rabbit. Superoxide dismutase (SOD) (45,000 U/kg) and catalase (55,000 U/kg) were given into the left atrium 10 min before ischemia, and followed by an additional 45,000 U/kg of SOD and 55,000 U/kg of catalase given over 85 min. This treatment reduced postischemic myocardial dysfunction, as did sulfhydryl-containing free radical scavengers N-2-mercaptopropionyl glycine (4 mg/kg, i.v.) and captopril (3 mg/kg, i.v.) given 5 min before and 60 min after reperfusion. SOD given alone at the same dose was ineffective, as was enalaprilat (0.3 mg/kg, i.v.), an angiotensin-converting enzyme inhibitor that does not scavenge oxygen-derived free radicals. Thus, postischemic myocardial dysfunction was reduced by scavengers of oxygen-derived free radicals in vivo in a species that is deficient in myocardial xanthine oxidase. This suggests that oxygen-derived free radicals derived from a source other than xanthine oxidase play a role in postischemic myocardial dysfunction.
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PMID:Protection against postischemic myocardial dysfunction in anesthetized rabbits with scavengers of oxygen-derived free radicals: superoxide dismutase plus catalase, N-2-mercaptopropionyl glycine and captopril. 170 21

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

Reactive oxygen intermediates (ROI) play a major role in the mucosal damage developing during the reperfusion period following intestinal ischemia. We have shown previously that histamine (H) release is related to the ROI generated by xanthine oxidase during intestinal ischemia-reperfusion. The present study sought to determine the possible chain of events leading to H liberation. The artery supplying a segment of the ileum was occluded for 2 hr in 51 anesthetized dogs, and plasma levels of H were determined radioenzymatically in the venous effluent. Catalase was applied to scavenge hydrogen peroxide; dimethylsulfoxide and mannitol were used as hydroxyl radical scavengers; the role of catalytically active iron was assessed by using desferrioxamine. Pretreatment with either catalase or desferrioxamine, but not with dimethyl sulfoxide or mannitol, was effective in reducing the postocclusive H release. The results provide further in vivo evidence that ROI are causative agents in H liberation during reperfusion of the ischemic gut. Hydrogen peroxide can interact with catalytically active iron and generate highly reactive oxidants, which in turn are responsible for H release. The exact nature of these oxidants is still uncertain.
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PMID:Histamine release during intestinal ischemia-reperfusion: role of iron ions and hydrogen peroxide. 172 54

Clinical and experimental data indicate that activated oxygen species interfere with vascular endothelial cell function. Here, the impact of extracellular oxidant injury on the fibrinolytic response of cultured human umbilical vein endothelial (HUVE) cells was investigated at the protein and mRNA levels. Xanthine (50 microM) and xanthine oxidase (100 milliunits), which produces the superoxide anion radical (O2-) and hydrogen peroxide (H2O2), was used to sublethally injure HUVE cells. Following a 15-min exposure, washed cells were incubated for up to 24 h in serum-free culture medium. Tissue-type plasminogen activator (t-PA) antigen, plasminogen activator inhibitor-1 (PAI-1) antigen, and PAI-1 activity were determined in 1.25 ml of conditioned medium and t-PA and PAI-1 mRNA in the cell extracts of 2 x 10(6) HUVE cells. Control cells secreted 3.9 +/- 1.3 ng/ml (mean +/- S.D., n = 12) within 24 h. Treatment with xanthine/xanthine oxidase for 15 min induced a 2.8 +/- 0.4-fold increase (n = 12, p less than 0.05) of t-PA antigen secretion after 24 h. The t-PA antigen was recovered predominantly in complex with PAI-1. The oxidant injury caused a 3.0 +/- 0.8-fold increase (n = 9, p less than 0.05) in t-PA mRNA within 2 h. Total protein synthesis was unaltered by xanthine/xanthine oxidase. The oxidant scavengers superoxide dismutase and catalase, in combination, abolished the effect of xanthine/xanthine oxidase on t-PA secretion and t-PA mRNA synthesis. Xanthine/xanthine oxidase treatment of HUVE cells did not affect the PAI-1 secretion in conditioned medium nor the PAI-1 mRNA levels in cell extracts. Thus extracellular oxidant injury induces t-PA but not PAI-1 synthesis in HUVE cells.
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PMID:Modulation of the fibrinolytic response of cultured human vascular endothelium by extracellularly generated oxygen radicals. 173 Jun 19

This study was designed to probe the hypothesis that oxygen-derived free radicals are involved in initiation of the no-reflow phenomenon. We developed a reproducible model of no reflow in the rat hind limb. Laser Doppler studies confirmed that the hind limbs perfused well after 2 or 4 hours of ischemia, but perfusion ceased in the first 10 minutes after 6 hours of ischemia. Venous blood samples and biopsy specimens of skin and muscle were taken after 2 and 4 hours of ischemia to study tissue injury. Blood samples were evaluated for xanthine oxidase (XO), xanthine dehydrogenase, and creatine phosphokinase (CPK) activities. Conjugated dienes and iodine 125-labeled albumin extravasation were quantified in tissue samples. Groups of animals were treated with inhibitors of XO (allopurinol), antioxidant enzymes (superoxide dismutase plus catalase), and free radical scavengers (dimethyl sulfoxide and dimethyl thiourea) to assess the roles of free radicals in ischemia-reperfusion injury in the hind limbs. After 4 hours of ischemia followed by reperfusion, plasma XO activity rose threefold over preischemia levels (p less than 0.05). Xanthine dehydrogenase activity did not change; conjugated diene levels in muscle rose twofold; CPK levels rose sixfold, and 125I albumin extravasation rose twofold (p less than 0.05). Pretreatment with the XO inhibitor allopurinol reduced XO activity to negligible levels and significantly attenuated conjugated diene levels, CPK levels, and albumin extravasation. Albumin extravasation was also significantly attenuated by pretreating animals with superoxide dismutase together with catalase, dimethyl thiourea, and dimethyl sulfoxide. In all animals pretreated with allopurinol or superoxide dismutase and catalase, reperfusion persisted after 6 hours of ischemia. These data suggest that, in ischemia followed by reperfusion, tissue injury is related to oxygen products derived from XO activity.
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PMID:Xanthine oxidase: its role in the no-reflow phenomenon. 173 87


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