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: UNIPROT:P47989 (xanthine oxidase)
8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous work suggested that the oxidation of uroporphyrinogen to uroporphyrin is catalyzed by cytochrome P450IA2. Here we determined whether purified reconstituted mouse P450IA1 and IA2 oxidize uroporphyrinogen. Cytochromes P450IA1 and IA2 were purified from hepatic microsomes from 3-methylcholanthrene (MC)-treated C57BL/6 mice, using a combination of affinity chromatography and high performance liquid chromatography. Reconstituted P450IA1 was more active than P450IA2 in catalyzing ethoxyresorufin-O-deethylase (EROD) activity, whereas P450IA2 was more active than P450IA1 in catalyzing uroporphyrinogen oxidation (UROX). Both reactions required NADPH, NADPH-cytochrome P450 reductase, and either P450IA1 or IA2. Ketoconazole competitively inhibited both EROD and UROX activities, in microsomes from MC-treated mice. Ketoconazole also inhibited UROX catalyzed by reconstituted P450IA2. In contrast, ketoconazole did not inhibit UROX catalyzed by xanthine oxidase in the presence of iron-EDTA. Superoxide dismutase, catalase, and mannitol inhibited UROX catalyzed by xanthine oxidase/iron-EDTA, but did not affect UROX catalyzed by either microsomes or reconstituted P450IA2. These results suggest that UROX catalyzed by P450IA2 in microsomes and reconstituted systems does not involve free reactive oxygen species. Two known substrates of cytochrome P450IA2, 2-amino-3,4-dimethylimidazole[4,5-f]quinoline and phenacetin, were shown to inhibit the microsomal UROX reaction, suggesting that uroporphyrinogen binds to a substrate-binding site on the cytochrome P450.
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PMID:Uroporphyrinogen oxidation catalyzed by reconstituted cytochrome P450IA2. 156 6

Superoxide anion radical and hydrogen peroxide (H2O2) are reactive oxygen metabolites which are thought to be involved in oxidant-induced lung injuries. Therefore, we studied their effects on the pulmonary metabolism of benzo[a]pyrene (BP) in rat lung microsomes. The microsomes were incubated with xanthine and xanthine oxidase to generate superoxide anion (effects verified with superoxide dismutase) or H2O2 and then the products formed during the metabolism of BP were measured. Both oxygen metabolites inhibit BP hydroxylase activity, i.e., the production of 3- and 9-hydroxybenzo[a]pyrene (phenols) in a concentration-dependent manner. The phenols account for approximately 75% of metabolite formation and are the major products of BP metabolism. Two components of the monooxygenase system responsible for BP metabolism, cytochrome P-450 and NADPH-cytochrome P-450 reductase, are also inhibited by the two oxygen metabolites in a similar manner. Superoxide anion is more effective than H2O2 in the inhibition of both BP hydroxylase and the monooxygenase components. Neither oxygen metabolite has any effect on the formation of minor metabolites of benzo[a]pyrene, i.e., BP-quinones and BP-dihydrodiols. These are the BP metabolites thought to produce toxic effects and which may lead to the formation of carcinogens and/or mutagens. The results of all these experiments suggest that exposure of lung microsomes to oxygen metabolites can lead to a slowing of overall BP metabolism and the increased accumulation of potentially toxic BP metabolites.
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PMID:Alterations of pulmonary benzo[a]pyrene metabolism by reactive oxygen metabolites. 165 2

About 30 antitumor anthracycline antibiotics were tested for their susceptibilities to reductive deglycosidation at C-7 catalyzed by rat liver microsomal NADPH-cytochrome P-450 reductase, xanthine oxidase, cytochrome C reductase and DT-diaphorase. Enzymatic activities to reduce the C-7 position of anthracycline antibiotics were similar among the four redox enzymes although a few exceptions were observed with DT-diaphorase. Among therapeutic use of anthracyclines, aclacinomycin A (ACM-A, aclarubicin) and daunomycin (daunorubicin) were found to be highly sensitive to the redox enzymes tested while adriamycin (ADM, doxorubicin) and THP-ADM (pirarubicin) were resistant to enzymatic reductive deglycosidation. When glycosidic and hydroxylated analogs of ACM-A were compared it was found that anthracyclines with smaller glycoside residues were more sensitive to the redox enzymes and the presence of hydroxyl groups on the aglycone moiety decreased the reductive deglycosidation activities. Thus, the aglycone, aklavinone, was most rapidly reduced to 7-deoxyaklavinone. 1-Hydroxy-, 2-hydroxy-, 11-hydroxy- and 1,11-dihydroaclacinomycins A were more resistant to the redox enzymes that ACM-A. Especially, 2-hydroxyaclacinomycins were completely insensitive to the enzymatic reduction. THP-ADM, 4'-substituted analog of ADM, was more resistant to the redox enzymes than ADM itself. These results show that the presence of a hydroxyl group, its position on aglycone, the presence of 4'-substituent on aminosugar and its length in the anthracycline molecule play important roles on the C-7 reduction by the redox enzymes. Relationship between reductive deglycosidation susceptibilities and cell-growth inhibitory activities of anthracycline antibiotics are also discussed.
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PMID:Structure-sensitivity relationship of anthracycline antibiotics to C7-reduction by redox enzymes. 190 11

Relationships of reductive potential, kinetics of enzymatic reduction, augmented oxygen consumption, and cytotoxicity were determined for seven clinically relevant mitomycin antibiotics. Potentials for one-electron reduction were obtained by cyclic voltammetry analysis in dimethyl sulfoxide with 0.1 M tetraethyl-ammonium perchlorate. These potentials were -0.55 V for N7-acetylmitomycin C, -0.61 V for mitomycin A, -0.75 V for N7-(p-hydroxyphenyl)mitomycin C, -0.79 V for N7-(dimethylamino-methylene)mitomycin C, -0.81 V for N7-(2-(4-nitrophenyldithio)-ethyl)-mitomycin C, -0.81 V for mitomycin C, and -0.89 V for porfiromycin. All seven antibiotics were reduced by xanthine oxidase and NADPH-cytochrome P450 reductase, but the rate of reduction varied for each antibiotic and each enzyme. The less negative the reductive potential of an antibiotic, the more easily that antibiotic was reduced enzymatically. These seven mitomycin antibiotics also augmented oxygen consumption by rat liver microsomes. As with their reduction by xanthine oxidase and NADPH-cytochrome P450 reductase, the less negative the reductive potential of an antibiotic, the more it augmented oxygen consumption. Cytotoxicity of each antibiotic was assessed by defining the IC50 against HCT 116 human colon carcinoma cells. A relationship between the reductive potential of these antibiotics and their cytotoxicity against HCT 116 cells was also observed.
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PMID:Mitomycin antibiotic reductive potential and related pharmacological activities. 211 7

The effect of an experimental ischemia lasting for 45 minutes and a subsequent period of reperfusion of equal length on the activity of xanthine oxidase (XO) and microsomal NADPH-cytochrome P450 reductase (NADPH-CR) were investigated in the small intestinal mucosa of male neonatal calves of the breed German "Schwarzbunte". The activity of the NADPH-CR was determined by chemiluminescence. The activity of XO decreased during ischemia, but rose to values above the control level following reperfusion. 5 mg of Cu2(succinate)2 (CuSu) administered either intraarterially or intraluminally during reperfusion prevented the rise in XO. Formation of malondialdehyde decreased in the presence of CuSu. The NADPH-CR likewise showed subnormal activity values during ischemia, but also remained at a low level during reperfusion. The activity of this enzyme was further lowered by local intraarterial or intraluminal administration of 5 mg of CuSu and by 120 mg of CuSu administered intravenously during the reperfusion. These results are discussed with regard to the superoxide anion radical induced tissue lesions observed during reperfusion.
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PMID:Investigations on the influence of copper succinate on the production of superoxide anion radicals by bovine small intestinal mucosa cells. 255 59

5-(4-Nitrophenyl)penta-2,4-dienal (NPPD) stimulated NADPH-supported oxygen consumption by rat liver microsomes in a concentration-dependent manner. The NPPD stimulation of O2 uptake was not inhibited by metyrapone and was decreased in the presence of NADP+ and p-hydroxymercuribenzoate. These observations suggest that the NPPD initial reduction step is mediated by NADPH-cytochrome P-450 reductase and not by cytochrome P-450. Spin-trapping studies using 5,5-dimethyl-1-pyrroline N-oxide (DMPO) revealed the formation of superoxide anion upon incubation of NPPD, NADPH, DMPO and rat liver microsomes. Hydrogen peroxide generation was also detected in these incubations, thus confirming redox cycling of NPPD under aerobic conditions. NPPD stimulated oxygen consumption, superoxide anion formation and hydrogen peroxide generation by rat kidney, testes and brain microsomes. Other enzymes capable of nitroreduction (NADH dehydrogenase, xanthine oxidase, glutathione reductase, and NADP+ ferredoxin oxidoreductase) were also found to stimulate redox cycling of NPPD. The ability of NPPD to induce superoxide anion and hydrogen peroxide formation might play a role in its reported mutagenicity.
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PMID:Generation of superoxide anion and hydrogen peroxide during redox cycling of 5-(4-nitrophenyl)-penta-2,4-dienal by mammalian microsomes and enzymes. 283 86

Human polymorphonuclear leucocytes were found to promote peroxidation linolenic acid micelles. The peroxidation was markedly enhanced by addition of ferric iron, either in the form of chloride, ADP-complex or EDTA to the phosphate-buffered reaction mixture. The leucocyte oxygen burst was induced by the addition of the lipid micelles, and no other stimulatory agent was therefore required. Pretreatment of the leucocytes with cytochalasin B did not inhibit t.e lipid peroxidation which indicates that phagocytosis was not part of the peroxidative mechanism. Lipid peroxidation was inhibited by alpha-tocopherol acetate, butylated hydroxytoluene, manganese ions and desferrioxamine but not by superoxide dismutase, catalase or the hydroxyl radical scavenger dimethylsulfoxide. Lipid peroxidation promoted by xanthine oxidase, was studied for comparison. This was inhibited by superoxide dismutase, indicating that xanthine oxidase, in contrast to leucocytes, promotes lipid peroxidation via a superoxide-dependent mechanism. Manganese ions and butylated hydroxytoluene, and to a lesser extent alpha-tocopherol, were also inhibitors. The leucocyte promoted lipid peroxidation is similar to the well-known peroxidation promoted by microsomal NADPH-cytochrome P450 reductase, which also is not induced by superoxide radicals. Peroxidation of lipids may be a mechanism whereby granulocytes express tissue damage in for example inflammation and ischaemia.
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PMID:Peroxidation of linolenic acid promoted by human polymorphonuclear leucocytes. 287 64

The anthracenedione antineoplastic agents mitoxantrone and ametantrone are potent inhibitors of basal and drug-stimulated lipid peroxidation in a variety of subcellular systems (Kharasch, E. D., and Novak, R. F. (1983) J. Pharmacol. Exp. Ther. 226, 500-506). The mechanism by which these compounds function as antioxidants has been investigated using enzymic and chemical systems. Mitoxantrone and ametantrone inhibited NADPH-cytochrome P-450 reductase- and xanthine oxidase-catalyzed conjugated diene formation from linoleic acid in a concentration-dependent manner with half-maximal inhibition achieved at approximately 0.5 microM anthracenedione. Inhibition of linoleic acid peroxidation was not attributable to a decrease in P-450 reductase activity, hydroxyl radical scavenging, or iron chelation by the anthracenediones. Nonenzymic fatty acid peroxidation was also inhibited by the anthracenediones. Linoleic acid oxidation initiated by superoxide (ferrous iron autoxidation) or by hydroxyl radicals (Fenton's reagent) was diminished by mitoxantrone and ametantrone after a brief delay, suggesting an effect subsequent to activated oxygen-dependent initiation. In contrast, linoleic acid oxidation initiated by iron-dependent hydroperoxide decomposition was inhibited immediately. Reinitiation of linoleic acid oxidation in an anthracenedione-inhibited system was accomplished only by superoxide generation, but not by fatty acid hydroperoxide decomposition. These results suggest the anthracenediones diminished neither oxygen radical formation nor oxygen radical-dependent initiation of peroxidation. Rather, inhibition of fatty acid peroxidation by mitoxantrone and ametantrone results from the inhibition of hydroperoxide-dependent initiation and propagation reactions.
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PMID:Mitoxantrone and ametantrone inhibit hydroperoxide-dependent initiation and propagation reactions in fatty acid peroxidation. 299 83

NADPH-cytochrome P-450 reductase-catalyzed reduction of paraquat promoted the release of iron from ferritin. Aerobically, iron release was inhibited approximately 60% by superoxide dismutase, whereas xanthine oxidase-dependent iron release was inhibited nearly 100%. This suggests that both superoxide and the paraquat cation radical can catalyze the release of iron from ferritin. Accordingly, under anaerobic conditions, the paraquat radical mediated a very rapid, complete release of iron from ferritin. Similarly, the cation free radicals of the closely related chemicals, diquat and benzyl viologen, also promoted iron release. ESR studies demonstrated that electron transfer from the paraquat cation radical to ferritin accounts for the reductive release of iron. The ferritin structure was not altered by exposure to the paraquat radical and also retained its ability to re-incorporate iron. These studies indicate that release of iron from ferritin may be a common feature contributing to free radical-mediated toxicities.
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PMID:Reductive release of iron from ferritin by cation free radicals of paraquat and other bipyridyls. 302 22

NADPH-cytochrome P-450 reductase catalyzes a low rate of oxidation of hydroxyl radical scavenging agents such as ethanol and 2-keto-4-thiomethylbutyric acid (KMBA), in a reaction markedly stimulated by the addition of ferric-EDTA. The effect of various ratios of cytochrome P-450 (phenobarbital-inducible isozyme)/reductase on the oxidation of ethanol and KMBA was determined: There was essentially no increase in KMBA oxidation over the range of ratios from 0.5 to 5 as compared to the reductase-catalyzed rate. High ratios actually caused some decrease in KMBA oxidation, which was especially notable under conditions of increased rates of hydroxyl radical generation (presence of increasing amounts of ferric-EDTA). This decrease at high P-450/reductase ratios could reflect tight coupling of reductase to P-450-PB, therefore decreasing electron transfer from reductase to ferric-EDTA, or could involve non-specific scavenging of .OH by P-450-PB. Indeed, native, but not boiled, P-450 inhibited KMBA oxidation by the xanthine oxidase system. By contrast, the oxidation of ethanol was stimulated at all concentrations of P-450-PB, and this increase was not sensitive to desferrioxamine. However, under conditions of high rates of .OH production, the ethanol oxidation profile tended to resemble the KMBA oxidation profile with respect to the effect of P-450-PB, whereas the two profiles were different under conditions of low rates of .OH production. These results suggest that P-450-PB does not catalyze the oxidation of .OH scavengers or promote the production of .OH, even at ratios of P-450/reductase approaching those found with intact microsomes and even in the presence of excess iron-EDTA, whereas ethanol is directly oxidized by P-450-PB, as are typical drug substrates. However, the P-450-PB-dependent oxidation of ethanol can be masked under conditions in which .OH production is increased.
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PMID:Differential effects of the cytochrome P-450/reductase ratio on the oxidation of ethanol and the hydroxyl radical scavenging agent 2-keto-4-thiomethylbutyric acid (KMBA). 302 48


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