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)

Renal reperfusion injury results from oxygen radical generation. During reoxygenation of hypoxic kidney cells, xanthine oxidase produces superoxide radical, which eventuates in hydroxyl radical formation by the Fenton reaction. This reaction, catalyzed by transition metals such as iron, is particularly important because hydroxyl radical is highly reactive with a wide variety of biomolecules. We tested the hypothesis that this catalytic function is fostered by iron released from the heme moiety of cytochrome P-450. Primary cultures of rat proximal tubule epithelial cells studied in a subconfluent stage were subjected to 60 min of hypoxia and 30 min of reoxygenation. When cells were pretreated with one of three cytochrome P-450 inhibitors (piperonyl butoxide, cimetidine, or ketoconazole), lethal cell injury was attenuated. There was the expected increase in O2-. production during hypoxia/reoxygenation that cytochrome P-450 inhibitors did not prevent; on the other hand, inhibitors did prevent reoxygenation-induced hydroxyl radical formation. Analogously, the increase in catalytic iron (bleomycin-detectable iron) that accompanies hypoxia/reoxygenation did not occur in the presence of cytochrome P-450 inhibitors. In vivo studies confirmed a protective effect of cytochrome P-450 inhibition because glomerular filtration rate was better preserved in rats pretreated with cimetidine and then subjected to renal artery occlusion. In summary, several chemically distinct cytochrome P-450 inhibitors reduced iron release, and thereby, hydroxyl radical formation and reoxygenation-induced lethal cell injury, without inhibiting superoxide radical formation. We conclude that highly labile P-450 may act as an Fe-donating catalyst for Fenton reaction production of HO.-mediated reperfusion injury.
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PMID:Cytochrome P-450 mediates tissue-damaging hydroxyl radical formation during reoxygenation of the kidney. 804 36

Merbarone (MB), a nonsedating derivative of thiobarbituric acid, was recently found to induce profound hypouricemia. When incubated with xanthine oxidase (XO) and hypoxanthine in vitro, MB is both an inhibitor of XO and degraded by the XO-hypoxanthine interaction. Compared with allopurinol (Ki = 0.025 microM), MB is a very weak inhibitor of XO (Ki = 51 +/- 8 microM). MB interacts with XO in the presence of hypoxanthine to yield three chromatographically separate products. One of these products has been identified by HPLC retention time and spectral characteristics as 2-oxo-2-desthiomerbarone (2-oxo-MB). The other two products are thought to be S-oxide intermediates in the oxidative desulfuration of this drug. Formation of these products was blocked by catalase, suggesting that the conversion was dependent on reactive oxygen species (especially H2O2) generated by the hypoxanthine-XO system. This suggestion was confirmed by incubating MB with H2O2. In vitro studies with rat liver microsomes have documented the formation of 2-oxo-MB and 4'-OH-MB (4'-OH-MB), the latter being identified by the characteristic HPLC retention time of its acetylated derivative. The formation of 4'-OH-MB has many characteristics of a cytochrome P-450-dependent monooxygenase reaction (NADPH requirement and SKF 525-A inhibition); formation of 2-oxo-MB occurs by a different mechanism that is, as yet, uncharacterized. Incubation of kidney microsomes with MB generated 2-oxo-desthiomerbarone but no detectable 4'-OH-MB.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vitro differential metabolism of merbarone by xanthine oxidase and microsomal flavoenzymes. The role of reactive oxygen species. 810 Apr 95

BRL 55792, BRL 55791, and BRL 55039 are prodrugs of an active anti-viral agent 9-(3-hydroxypropoxy) guanine, (BRL 44385). The prodrugs were 6-deoxygenated analogues of BRL 44385 with ether groups substituted at the 9-position: BRL 55792 with an (isopropoxymethyloxy)propoxy group, BRL 55791 with a (methoxymethyloxy)propoxy group, and BRL 55039 with an ethoxypropoxy group. Conversion of the prodrugs to BRL 44385 had been demonstrated in vivo in rat and involved 6-oxidation followed by dealkylation. Metabolism was studied in rat liver in vitro systems to find a model to evaluate BRL 44385 production. Rat hepatocytes performed both reaction steps and were used to assess which of the three prodrugs demonstrated greatest production of the active drug. BRL 55792 demonstrated greatest conversion in vitro and this was in agreement with in vivo data. The production of BRL 44385 from BRL 55792 was also demonstrated in human hepatocyte incubations providing evidence that these reactions can occur in man thereby increasing confidence that BRL 55792 would be a suitable prodrug for human therapy. Further experiments were performed to investigate the enzymes involved in these conversions. The 6-oxidation step occurred in the cytosol. Use of allopurinol and menadione (xanthine and aldehyde oxidase inhibitors) indicated that these conversions were catalyzed exclusively by xanthine oxidase in the rat but mainly by aldehyde oxidase in man. The dealkylation reaction was detected in hepatocytes but not in homogenates or subcellular fractions. Inhibition of this reaction by aminobenzotriazole and ketoconazole (P-450 inhibitors) indicated that it was mediated by cytochrome P-450.
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PMID:Use of rat and human in vitro systems to assess the effectiveness and enzymology of deoxy-guanine analogues as prodrugs of an antiviral agent. 814 71

Oxygen stress is well recognized to be a key step in the pathogenesis of ethanol-associated liver injury. Ethanol administration induces an increase in lipid peroxidation either by enhancing the production of oxygen-reactive species and/or by decreasing the level of endogenous antioxidants. Numerous experimental studies have emphasized the role of the ethanol-inducible cytochrome P-450 in the microsomes, as well as the molybdo-flavoenzymes xanthine oxidase in the cytosol. This review shows the putative role of ethanol-induced disturbances in iron metabolism in relation to iron as a prooxidant factor. Ethanol administration also affects the mitochondrial free radical generation. Although many previous studies suggest a role for active oxygens in ethanol-induced mitochondrial dysfunction in hepatocytes, the detailed mechanism of ethanol-induced oxidative stress on mitochondria remains to be clarified further. Studies of our laboratory using a confocal laser scanning microscopic system strongly suggest that active oxidants produced during ethanol metabolism modulate mitochondrial energy synthesis in isolated and cultured hepatocytes. In addition, our investigations implicate endogenous glutathione-glutathione peroxidase system and catalase as important antioxidants and cytoprotective machinery in the hepatocyte mitochondria exposed to ethanol. The fluorographic investigations using the confocal laser scanning microscopy may be useful to extend our knowledge and provide a new view about ethanol-associated oxidative stress and metabolic changes in hepatocytes.
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PMID:Ethanol-induced oxidative stress in the liver. 865 98

Expression of NADPH oxidase and low superoxide generation (approx. 0.06 nmol/min per 10(6) cells) by cytokine- or ionophore-stimulated human fibroblasts is known. However, we here show that these cells also contain an ectoplasmic enzyme, distinct from NADPH oxidase, which can generate superoxide (2.19 +/- 0.14 nmol/min per 10(6) cells) at levels similar to phorbol ester-stimulated monocytes on exogenous NADH addition. Superoxide generation was temperature-dependent, insensitive to chelation (desferal), and had a K(m) (app)(NADH) of 11.5 microM. Inhibitor studies showed that there was no involvement of NADPH oxidase (diphenylene iodonium, diphenyl iodonium), prostaglandin H synthase (indomethacin), xanthine oxidase (allopurinol), cytochrome P-450 (metyrapone) or mitochondrial respiration (rotenone, antimycin A). NAD+ was a competitive inhibitor, whereas NADPH supported 40% of the rate seen with NADH. No luminescence was observed after the addition of lactate, malate, pyruvate, GSH or L-cysteine. NADH-stimulated superoxide generation was enhanced by the addition of (3-30 microM) arachidonic acid, linoleic acid or (5S)-hydroxyeicosatetraenoic acid [(5S)-HETE] but not palmitic acid, (15S)-hydroperoxyeicosatetraenoic acid [(15S)-HPETE], (15S)-HETE or (12S)-HETE. Several features suggest involvement of an enzyme related to 15-lipoxygenase, and, in support of this, we show superoxide generation and NADH oxidation by recombinant rabbit reticulocyte 15-lipoxygenase. The large amounts of superoxide measured suggest that the fibroblast extracellular enzyme could be a major source of reactive oxygen species after tissue damage.
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PMID:High rates of extracellular superoxide generation by cultured human fibroblasts: involvement of a lipid-metabolizing enzyme. 883 23

We investigated the effect of fluvastatin sodium (fluvastatin) and pravastatin, 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors, on the formation of thiobarbituric acid reactive substances both in vivo and in vitro in rat liver microsomes and on active oxygen species. Oral administration of fluvastatin at low doses (3.13 and 6.25 mg/kg) inhibited the formation of thiobarbituric acid reactive substances in rat liver microsomes, but high doses (12.5 and 25 mg/kg) did not change the formation of thiobarbituric acid reactive substances. Fluvastatin at any dose used had no effect on the content of cytochrome P-450 and the activity of NADPH-cytochrome P-450 reductase. In in vitro experiments, concentrations of fluvastatin ranging from 1 x 10(-6) - 1 x 10(-4) M markedly inhibited NADPH-dependent lipid peroxidation in liver microsomes, but pravastatin weakly inhibited lipid peroxidation. The order of magnitude of inhibition of each drug on in vitro lipid peroxidation was butylated hydroxytoluene > probucol > or = fluvastatin > pravastatin. Moreover, fluvastatin chemically scavenged active oxygen species such as hydroxyl radicals and superoxide anion generated by the Fenton reaction and by the xanthine-xanthine oxidase system, respectively, but pravastatin showed no scavenging of superoxide anion. These results indicate that the suppression of in vivo and in vitro lipid peroxidation in liver microsomes may be, at least in part, due to the scavenging by fluvastatin of free radicals.
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PMID:Fluvastatin, an inhibitor of 3-hydroxy-3-methylglutaryl-CoA reductase, scavenges free radicals and inhibits lipid peroxidation in rat liver microsomes. 985 51

Although endothelium-derived hyperpolarizing factor (EDHF) is thought to be a cytochrome P-450 product (arachidonic acid metabolite) in some tissues, in porcine coronary arteries (PCAs) its nature remains unclear. Because phospholipase A2 and C are involved in the synthesis and/or release of EDHF in the PCA, the arachidonic acid (AA) pathway may be involved. In the presence of the cyclooxygenase inhibitor indomethacin (10(-5) M) and the NOS inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME; 10(-4) M), both bradykinin (BK; 10(-9)-10(-6) M) and AA (10(-7)-10(-4) M) induced dose-dependent relaxation of PGF2alpha-contracted PCA rings, which was blocked by a high extracellular concentration of KCl (30 mM) or pretreatment with ouabain, a Na+/K+-adenosine triphosphatase (ATPase) inhibitor (5 x 10(-7) M). Eicosatetraynoic acid (ETYA; 20 microM), which inhibits all AA pathways, slightly affected the response to BK and AA; however, lipoxygenase or cytochrome P-450 inhibitors had no effect, suggesting that relaxation is independent of these enzymatic pathways. Because endothelial cells can generate reactive oxygen species (ROS) via metabolism of AA and independent of cyclooxygenase activity, we also studied (a) whether ROS can relax the PCA, as well as the mechanism(s) involved, and (b) the role of ROS in BK- and AA-induced relaxation. Xanthine (X; 100 microM) plus xanthine oxidase (XO; 0.02 U/ml) induced time-dependent relaxation of PGF2alpha-contracted PCA rings in the presence of indomethacin and L-NAME. Dilatation was not affected by superoxide dismutase (SOD; 500 U/ml) but was abolished by catalase (300 U/ml), suggesting that hydrogen peroxide (H2O2) is involved. When rings were contracted by depolarizing them with 30 mM KCl, X/XO failed to elicit relaxation. Ouabain abolished the response to X/XO, suggesting that X/XO may induce relaxation by hyperpolarizing vascular smooth muscle cells via stimulation of the Na+/K+-ATPase pump. We therefore questioned whether ROS might be involved in BK- and AA-induced relaxation. Because catalase combined with SOD had little or no effect, we concluded that in the PCA, the relaxation induced by BK via EDHF involves some mechanism independent of NO, AA metabolism, or ROS.
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PMID:Reactive oxygen species: role in the relaxation induced by bradykinin or arachidonic acid via EDHF in isolated porcine coronary arteries. 1051 Nov 33

The effects of specific xanthine oxidase induction and inhibition on glutathione antioxidant system activity, lipid peroxidation, cytochrome P-450 quantity and corticosteroids concentration in the rat liver were studied. It was dependence established that there was a straight between xanthine oxidase activity and the activity of glutathione antioxidant system, lipid peroxidation and the ascorbic acid formation. The reciprocal dependence was established between xanthine oxidase activity and the concentrations of cytochrome P-450 and corticosteroids.
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PMID:[Activity of the glutathione antioxidant system and cytochrome P-450 in rat liver under induction and inhibition of xanthine oxidase]. 1159 32

The effect of an endotoxin from Sh. Boydii on the biotransformation of amidopyrine and acetanilide, the activity of microsomal monooxygenases, hemoxygenase, and xanthine oxidase, the lipid peroxidation (LPO) intensity, the phospholipid spectrum, and the solubilization of microsomal membrane components was studied by intraperitoneal injections (2.5 mg/kg) in rats. It was found that the endotoxin inhibits the reactions of C- and N-acetanilide hydroxylation, N-amidopyrine demethylation, acetanilide hydrolysis at the amide bond, conjugation of aminophenol metabolites with glucuronic acid and sulfate, and 4-aminoantipyrine binding to acetate. The endotoxin effect reached maximum 24 h after injection and was observed for 96 h. The inhibition of metabolism of the test preparations is related to a decrease in the content of cytochrome P-450 and in the activity of 1A2, its 2B, 2C, 3A, and 2E1 isoforms. This is obviously caused by activated LPO and enhanced nitric oxide synthesis, as evidenced by a tenfold increase in the content of NO metabolites (nitrites and nitrates) in the blood of test animals. In clinical practice, it is necessary to take into account the possibility of a significant biotransformation of drugs in the acute period of bacterial infection, which may lead to changes in the pharmacological effect and toxicity of some drugs.
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PMID:[Various mechanisms of the depriming effect of bacterial endotoxin on drug metabolism]. 1176 4

Intravital microscopic techniques were used to examine the mechanisms underlying bradykinin-induced leukocyte/endothelial cell adhesive interactions (LECA) and venular protein leakage (VPL) in single postcapillary venules of the rat mesentery. The effects of bradykinin superfusion to increase LECA and VPL were prevented by coincident topical application of either a bradykinin-B(2) receptor antagonist, a cell-permeant superoxide dismutase (SOD) mimetic or antioxidant, or inhibitors of cytochrome P-450 epoxygenase (CYPE) or protein kinase C (PKC) but not by concomitant treatment with either SOD, a mast cell stabilizer, or inhibitors of nitric oxide synthase, cyclooxygenase, xanthine oxidase, NADPH oxidase, or platelet-activating factor. Immunoneutralizing P-selectin or intercellular adhesion molecule-1 (ICAM-1) completely prevented bradykinin-induced leukocyte adhesion and emigration but did not affect VPL. On the other hand, stabilization of F-actin with phalloidin prevented bradykinin-induced leukocyte emigration and VPL but did not alter leukocyte adhesion. These data indicate that bradykinin induces LECA in rat mesenteric venules via a B(2)-receptor-initiated, CYPE-, oxidant- and PKC-mediated, P-selectin- and ICAM-1-dependent mechanism. Bradykinin also produced VPL, an effect that was initiated by stimulation of B(2) receptors and involved CYPE and PKC activation, oxidant generation, and cytoskeletal reorganization but was independent of leukocyte adherence and emigration.
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PMID:Bradykinin-induced proinflammatory signaling mechanisms. 1238 46


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