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 sensitivity of Treponema pallidum (Nichols strain) to toxic products of oxygen reduction. T pallidum was sensitive to hydrogen peroxide at concentrations similar to those to which obligate anaerobes are sensitive. Accelerated death of T pallidum occurred at hydrogen peroxide concentrations below 50 mumol/l. Agents protective against hydrogen peroxide and the hydroxyl free radical (catalase, peroxidase, and mannitol) significantly enhanced treponemal survival in vitro under all three conditions of aerobiosis tested--that is, air, 3% oxygen, and 3% oxygen in conjunction with a reduced medium. Superoxide dismutase (which provides protection against superoxide radicals) did not enhance treponemal survival in normal media. When superoxide radicals were generated in the medium by means of a xanthine and xanthine oxidase system, however, the enzyme did protect T pallidum. A possible toxic involvement of singlet oxygen was also indicated by enhanced treponemal survival in air in the presence of histidine. Extracts of T pallidum from infected rabbit testes showed catalase activity which, on polyacrylamide gel electrophoresis, had the same relative mobility as purified rabbit catalase. The treponemal catalase activity was neutralised by anti rabbit catalase antiserum (raised in guinea pigs). This confirmed that the catalase was of rabbit origin and not an endogenous enzyme of T pallidum. We discuss the relation of these results to the obligate parasitism of T pallidum.
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PMID:Susceptibility of Treponema pallidum to the toxic products of oxygen reduction and the non-treponemal nature of its catalase. 642 49

A selective and sensitive assay of hypoxanthine and xanthine in biological fluids by high-performance liquid chromatography coupled with immobilized-enzyme reactors was developed. The separations were achieved by reversed-phase liquid chromatography. Hydrogen peroxide produced from hypoxanthine and xanthine by immobilized xanthine oxidase was determined fluorometrically using immobilized peroxidase and p-hydroxyphenylacetic acid. Immobilized enzymes were prepared by intermolecular cross-linking to controlled-pore glass. Assay of allopurinol was also possible by the present method. The method was applied to serum and urine. The detection limits of hypoxanthine and xanthine were approximately 50 and 120 pg per injection, respectively.
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PMID:Fluorometric determination of hypoxanthine and xanthine in biological fluids by high-performance liquid chromatography using enzyme reactors. 668 28

The effect of various Pasteurella multocida fractions on bovine polymorphonuclear leukocyte (PMN) functions was examined in vitro by using two encapsulated strains, P-2383 and P-1062 (both are Carter capsular type A and of bovine origin). The ability of PMNs to ingest Staphylococcus aureus and iodinate protein was significantly inhibited in the presence of live cells, heat-killed whole cells, or saline-extracted capsules but not in the presence of the decapsulated heat-killed cells. None of the fractions of the two strains inhibited nitroblue tetrazolium reduction by PMNs. The saline extract did not inhibit the binding of iodine to protein by a reaction involving xanthine, xanthine oxidase, and horseradish peroxidase. The PMN inhibitory factor was further characterized as a heat-stable capsular material of greater than 300,000 molecular weight.
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PMID:Effect of type A Pasteurella multocida fractions on bovine polymorphonuclear leukocyte functions. 669 Apr 17

The mechanism of cytochrome P-450-dependent oxidation of ethanol has been investigated using reconstituted phospholipid vesicles containing purified preparations of rabbit liver microsomal NADPH-cytochrome P-450 reductase and cytochrome P-450 LM2. Incorporation of cytochrome b5 into the vesicles resulted in a 5-fold enhancement of cytochrome P-450-catalyzed O-dealkylation of 7-ethoxycoumarin, whereas the cytochrome P-450-dependent ethanol oxidation was slightly inhibited. Superoxide dismutase, added in increasing amounts to the vesicles, inhibited the formation of superoxide anions and, in a concomitant manner, also the production of acetaldehyde from ethanol in the system. Also horseradish peroxidase inhibited ethanol oxidation catalyzed by the vesicles; acetaldehyde formation and H2O2 formation decreased in a concomitant manner as the amount of the peroxidase was increased. Externally added hydrogen peroxide markedly stimulated cytochrome P-450-dependent ethanol oxidation, but not until the concentration of H2O2 reached 0.3 mM, whereas the hydroxyl radical scavenger mannitol completely inhibited the cytochrome P-450-dependent acetaldehyde production. Oxidation of ethanol was also accomplished using vesicles containing cytochrome b5 instead of cytochrome P-450 and in other systems regenerating superoxide anions, e.g. the xanthine-xanthine oxidase system and dihydroxyfumarate. The results are consistent with an iron-catalyzed Haber-Weiss mechanism for regeneration of hydroxyl radicals which subsequently react with ethanol, thereby giving the corresponding aldehyde.
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PMID:The mechanism of cytochrome P-450-dependent oxidation of ethanol in reconstituted membrane vesicles. 678 51

The activation of N2-methyl-9-hydroxyellipticinium acetate (4) by a peroxidase--H2O2 system leads to the formation of an omicron-quinone (7a). This omicron-quinone is not directly generated from the starting material but through a quinone imine intermediate (6) which is subsequently oxidized. This reaction is highly dependent on pH values. The omicron-quinone 7a is easily protonated (7b), gives an addition product with methanol (9), and is reduced by cysteine. The omicron-quinone 7b has a rather low inhibitory effect against L1210 leukemia cell multiplication but acts as an electron carrier and dramatically augments the oxygen consumption in xanthine oxidase-NADH and rat liver microsomes-NADPH systems.
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PMID:omicron-Quinone formation in the biochemical oxidation of the antitumor drug N2-methyl-9-hydroxyellipticinium acetate. 683 91

A highly sensitive and accurate spectrophotometric method was developed for determination of guanase activity with guanine as substrate. The assay is based on the oxidative coupling of 3-methyl-2-benzothiazolinone hydrazone and N,N-diethylaniline. Xanthine formed from guanine by guanase is oxidized to uric acid and hydrogen peroxide by xanthine oxidase, and the hydrogen peroxide produced is determined by an oxidative-coupling reaction with 3-methyl-2-benzothiazolinone hydrazone and N,N-diethylaniline mediated by peroxidase. Formation of the indamine dye is greatly affected by the superoxide radical ion (O2-) and pH value. These problems can be overcome by separating the two reactions of hydrogen peroxide formation and color production and carrying out that color-producing reaction at pH 3.0. This method is very sensitive and accurate because the indamine dye has a very high molar extinction coefficient of 29,800. It can be used with various kinds of automatic analyzers such as a Hitachi, Olympus, or Technicon analyzer. Comparative studies showed that this method is more sensitive and reproducible than other methods. Furthermore, guanase activities determined by this method correlated well with those determined by the improved Ellis-Goldberg method. This method should be useful for measurement of guanase activity in banked blood for preventing transfusion hepatitis and could be valuable as a liver function test.
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PMID:A sensitive spectrophotometric assay for guanase activity. 686 16

The intrapulmonary instillation into rat lung of enzymes that generate oxygen metabolites results in acute lung injury. The injection of xanthine oxidase and xanthine produces acute lung injury that, in the presence of superoxide dismutase, but not in the presence of catalase, can be significantly diminished, suggesting that O2- has the capacity to injure the lung. Instillation of a generator of H2O2, namely glucose oxidase, will, in sufficient quantities, produce acute injury that is not neutrophil-dependent. When either a low dose of glucose oxidase alone or lactoperoxidase alone is employed, little lung injury occurs. However, instilling the combination of the two enzymes produces severe, acute injury that can be blocked in a dose-dependent manner by catalase, but not by superoxide dismutase. Purified human leukocytic myeloperoxidase, but not horseradish peroxidase, will substitute for lactoperoxidase in the model of lung injury. The lung damaging effects of these enzymes cannot be attributed to the presence of contaminating proteases. Acute lung injury produced by the instillation of glucose oxidase and lactoperioxidase progresses to interstitial fibrosis. These studies represent a direct application of generators of oxygen metabolites to the in vivo induction of lung injury. The data suggest that rat lung is susceptible to injury by a variety of oxygen metabolites, including O2-, H2O2 and its lactoperoxidase or myeloperoxidase-produced derivatives. The studies also indicate that lung injury produced by oxygen metabolites can result in interstitial pulmonary fibrosis.
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PMID:In vivo damage of rat lungs by oxygen metabolites. 689 54

1. Human red blood cell membrane oxidase catalyzes the transformation of folic acid to pterin-6-aldehyde and p-aminobenzoyl glutamic acid provided hydrogen peroxide, a xanthine oxidase inhibitor, is present. Horseradish peroxidase produces the same product in the absence of hydrogen peroxide. 2. The oxidation of folic acid by horseradish peroxidase is accompanied by photon emission. Several lines of evidence suggest that singlet oxygen is the emitting species and is generated directly: a) the effects of singlet oxygen traps such as bilirubin, and of singlet oxygen enhancers such as 1,4-diazobicyclo 2.2.2 octane (DABCO) and eosin; b) the emission spectrum maximum of the unsensitized reaction was greater than 560 nm; c) enhancement of photon emission when the reaction was carried out in D2O, and d) no enhancement of the emission was observed when anthracenic energy acceptors were present. 3. Singlet oxygen production and the inactivation of xanthine oxidase may be important when considering folic acid metabolism by cancer cells, in view of the fact that the level of this enzyme is low in these cells.
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PMID:Human red blood cell membrane oxidase and horseradish peroxidase cleavage of folic acid: evidence for formation of singlet oxygen. 689 21

Superoxide radicals were investigated as to their capability of depolymerizing the hyaluronic acid of the bovine vitreous body. Using viscometry it was found that O2 radicals, generated by the hypoxanthine/xanthine oxidase method or the combination of NADH and phenazine methosulphate, degraded hyaluronic acid. This reaction was suppressed by superoxide dismutase, catalase, and peroxidase. In contrast, the depolymerization of hyaluronic acid by oxidation-reduction systems like ascorbic acid or ferrous ions was abolished by catalase and peroxidase while superoxide dismutase showed no effect.
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PMID:The inability of superoxide dismutase to inhibit the depolymerization of hyaluronic acid by ferrous ions and ascorbate. 690 74

In this comprehensive approach, inhibition of autoxidation of PUFA by SOD or other enzymes has been studied. The systems used were: 1) in miscible media in which enzyme, substrat, and peroxidation products are soluble; 2) in non-miscible media such as emulsions; 3) in heterogenous media containing subcellular fragments or whole blended tissue. Depending on experimental conditions, inhibition or activation of peroxidation by SOD can be observed in miscible systems. Other enzymes such as phospholipase A, xanthine oxidase, or horseradish peroxidase are protective in heterogeneous media. Moreover, PUFA hydroperoxide are scavenged by glutathione peroxidase which thus could lessen the autocatalytic effects encountered during peroxidation. Enzymatic inhibition of autoxidation in emulsions was not observed. We conclude that superoxide ion does not play a major role in the initiation of peroxidation and that it may very well act as a free radical chain terminator. In addition, other enzymes such as xanthine oxidase, horseradish peroxidase or phospholipase A show an effective although empirical protection against autoxidation in homogenates of tissues.
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PMID:[Inhibition of the autoxidation of polyunsaturated fatty acids by superoxide dismutase]. 700 94


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