Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Treatment of rabbit polymorphonuclear leukocytes (PMN) with triphenyltin chloride (TPTCl) inhibited chemiluminescence generation stimulated by particulate stimulus, zymosan, or soluble stimuli, concanavalin A + cytochalasin D. Superoxide anion (O-2) production was also inhibited, indicating that the inhibition involved inhibition of early oxidative metabolic process(es). The direct inhibition of the activation process of the oxidative burst was established by the experiments showing that a) chemiluminescence generated by xanthine oxidase-acetaldehyde system was not inhibited by TPTCl, b) washing the PMN after the treatment with TPTCl did not affect the results of chemiluminescence, and c) there was no change in cell viability after the treatment with TPTCl.
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PMID:Inhibition of oxidative metabolism in rabbit polymorphonuclear leukocytes by triphenyltin chloride. 631 89

Sickle cell anemia and other chronic hemolytic anemias are associated with an increased frequency of bacterial infections. There is evidence to suggest that in hemolytic states massive erythrocyte (RBC) ingestion by macrophages interferes with their antibacterial function, thereby predisposing infection. Stimulated by this possibility, we recently demonstrated that erythrophagocytosis by macrophages markedly inhibited intracellular killing of bacteria, and that zymosan-stimulated superoxide generation and chemiluminescence were also suppressed by RBC ingestion. We examined the effects of RBC components on generation of chemiluminescence, superoxide, and bactericidal activity by cell-free oxidative systems. Generation of chemiluminescence by hypoxanthine-xanthine oxidase was depressed in the presence of human RBC lysate or column-fractionated hemoglobin but not crystallized human hemoglobin (methemoglobin) (peak cpms of 15,522 [P = 0.00024], 28,360 [P = 0.0088], and 50,041 [P = 0.37], respectively, compared with 59,898 for positive controls). Similarly, hypoxanthine-xanthine oxidase production of superoxide was inhibited in the presence of column-fractionated human hemoglobin (43.8 versus 17.4 nmol per tube, P = 0.000001). A cell-free bactericidal system, acetaldehyde and xanthine oxidase with or without myeloperoxidase and Cl-, was markedly inhibited by column-purified hemoglobin. For example, after 2 h of incubation, surviving numbers of Staphylococcus aureus were: control (buffer only), 2.5 X 10(6)/ml; bactericidal system, none; bactericidal system plus hemoglobin, 2.2 X 10(6)/ml (P less than or equal to 0.03, bactericidal system versus other systems). Our studies have documented that interactions between RBC (hemoglobin) and reactive products of oxygen metabolism inhibit oxidative bactericidal mechanisms in cell-free systems as well as in macrophages.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of cell-free oxidative bactericidal activity by erythrocytes and hemoglobin. 632 49

Formamide is a substrate of xanthine oxidase. At pH 8.2 and 1.14 mM-O2, Vmax.(app.) is 3.1 s-1 and Km (app.) is 0.7 M. Mo(V) e.p.r. signals obtained by treating the enzyme with formamide were studied, and these provide new information about the ligation of molybdenum in the enzyme and about the enzymic mechanism. The substrate is the first compound that is not a nitrogen-containing heterocycle to give a Very Rapid signal. This supports the hypothesis that the Very Rapid signal, though it is not detectable with all substrates, represents an essential intermediate in turnover. Formamide also gives the Inhibited signal and is the first non-aldehyde substrate to do so. The Rapid type 1 signal obtained in the presence of formamide was examined in H2O enriched with 2H or with 17O. The single oxygen atom detectable in the signal is shown to be strongly and anisotropically coupled. This indicates that this atom remains as an oxo ligand of molybdenum in this signal-giving species. Other structural features of this species are discussed.
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PMID:Formamide as a substrate of xanthine oxidase. 633 8

Upon an increase in the size of the substituent, the reactivity of xanthine oxidase to ortho-substituted benzaldehydes drastically decreases while that to para-substituted benzaldehydes does not change significantly. The enzyme exhibits this regiospecificity with respect to both electron-withdrawing substituents (e.g., halogens) and electron-donating ones (alkyls and alkoxyls). Xanthine oxidase-catalyzed oxidation of m- and p-nitrobenzaldehyde is more than 300-times faster than that of the o-isomer, whereas the rates of their non-enzymatic oxidation are comparable, as are the rates of the enzymatic oxidation of p- and o-nitrocinnamaldehyde. These and other findings of this work indicate that the discovered positional specificity of xanthine oxidase is due to steric hindrances in the reaction of the enzyme's active center with the aldehyde moiety having a bulky substituent in its close proximity. Such regiospecificity of the enzyme exists regardless of the nature of the electron acceptor used and can be employed for the separation of mixtures of positional isomers of substituted benzaldehydes. A marked positional specificity in the xanthine oxidase-catalyzed oxidation of substituted benzaldehydes appears to be a rather general phenomenon: three other enzymes tested, alcohol dehydrogenases from horse liver and yeast and aldehyde dehydrogenase from yeast, all follow a similar pattern in the reactions with para- and ortho-substituted halobenzaldehydes.
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PMID:Remarkable positional (regio)specificity of xanthine oxidase and some dehydrogenases in the reactions with substituted benzaldehydes. 633 34

DMSO is a hydroxyl radical scavenger that inhibits platelet aggregation in vivo in injured microvessels, and that also inhibits the dilation displayed by pial arterioles following a local injury. The injurious stimulus is a result of local excitation of circulating sodium fluorescein by an appropriate light source. It is likely that this excitation results in the generation of hydroxyl radicals, which are the immediately injurious agent. This postulate is supported not only by the inhibitory effect of DMSO but also by the inhibitory effect of glycerol, another hydroxyl scavenger. Both the hypothesis that DMSO inhibits hydroxyl-mediated dilation, and the hypothesis that free radicals can dilate pial arterioles, are further supported by direct evidence from studies employing local application of xanthine oxidase plus acetaldehyde. This well established radical-generating system dilated pial arterioles. The dilation was inhibited by the local application of superoxide dismutase and also by local application of catalase, as well as by intraperitoneal administration of DMSO. Since DMSO failed to inhibit the dilation produced by increases of inspired CO2, we believe that the inhibitory effect of DMSO on the other dilating stimuli in these studies was due to the hydroxyl scavenging properties of this drug, rather than to other nonspecific effects.
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PMID:Dimethyl sulfoxide effects on platelet aggregation and vascular reactivity in pial microcirculation. 641 Sep 63

The inactivation of bovine milk xanthine oxidase by various aldehydes has been investigated. For each aldehyde, the inactivation reaction gives rise to a unique molybdenum(V) electron paramagnetic resonance signal from xanthine oxidase (the Inhibited signal). Of the aldehydes tested, only a few (mainly aromatic) failed to undergo this reaction. The g values of the Inhibited signals vary systematically from one aldehyde to another. As the substituents of the alpha-carbon atom become more electron withdrawing, so the gav increases. The inactivation rate depends on both enzyme and aldehyde concentration. Oxygen or another oxidizing substrate is also required for inhibition by 3-pyridinecarboxaldehyde and butyraldehyde but not formaldehyde. Reactivation of xanthine oxidase inhibited by an aldehyde occurs spontaneously after removal of excess aldehyde. For butyraldehyde or 3-pyridinecarboxaldehyde, greater than 95% recovery of activity was observed. The rate of reactivation is dependent both on the nature of the molecule bearing the aldehyde group and on a pK (6.6) of the complex with the enzyme. Evidence is presented that the modifying aldehyde in the Inhibited signal-giving species has (contrary to earlier assumptions) not been oxidized. These results are discussed in relation to the structure of the molybdenum center, and a mechanism for the inhibiting reaction is suggested.
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PMID:Inhibition of xanthine oxidase by various aldehydes. 654 82

Single-strand DNA breaks were produced in isolated rat liver nuclei incubated with 3 separate oxygen free radical generating systems: xanthine oxidase-acetaldehyde plus Fe(II); hematin-R(H)OOH; Fe(II)-H2O2. Uric acid inhibited the induction of damage in the first two systems only. At concentrations below those found in human plasma, it was particularly effective against strand breaks produced by hematin-cumene hydroperoxide. These results offer additional evidence that uric acid may function as a cellular protective agent against superoxide and hydroperoxyl free radical-induced cytotoxicity toxicity.
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PMID:Inhibition of free radical-induced DNA damage by uric acid. 654 13

In response to a recent report (Lewis, A.S., Murphy, L., Mcalla, C., Fleary, M., and Purcell, S. (1984) J. Biol. Chem. 259, 12-15) that folic acid was a potent inactivator of xanthine oxidase, the details of this apparent inactivation were studied. In confirmation, we also found that commercially available folic acid produced a time-dependent progressive inhibition (apparent inactivation) of xanthine oxidase. A plot of the pseudo-first order rate constant of the decay of enzyme activity versus the concentration of folic acid resulted in a straight line. This indicated that the progressive inhibition was caused by a slow second order combination of an inhibitor with the enzyme. The second order rate constant for this association (slope of replot) was 5.7 X 10(3) M-1 S-1. The slowness of this constant together with the observation that complete inactivation did not occur suggested that the progressive inhibition might be due to the slow binding of a high affinity contaminant. This was corroborated by the finding that the association constant was decreased to 1.6 X 10(2) M-1 S-1 after partially purifying the folic acid. The compound most likely to be producing this inhibition is pterin aldehyde (2-NH2-4-OH-pteridine-6-aldehyde), a photolytic breakdown product of folic acid. Pterin aldehyde was found to be a progressive inhibitor of xanthine oxidase with an association constant of 2.2 X 10(5) M-1 S-1. When the apparent association constants of commercial and purified folic acid were adjusted to reflect the pterin aldehyde content (3.6% and 0.2%, respectively), they became similar to the association constant of pterin aldehyde. Thus, it seems that the apparent inactivation of xanthine oxidase by folic acid was caused by the slow binding of contaminating pterin aldehyde.
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PMID:Folic acid does not inactivate xanthine oxidase. 654 55

The aldehyde specificity of xanthine oxidase (xanthine:oxygen oxidoreductase, EC 1.2.3.2) has been reinvestigated. The biogenic aldehydes and succinate semialdehyde are reasonable substrates for xanthine oxidase. Pyrophosphate, which binds to xanthine oxidase, does not seem to affect significantly the enzyme's catalytic activity. The steady-state parameters for the oxidation of several substrates by xanthine oxidase and oxygen have been determined. Formaldehyde differs from xanthine and other aldehydes in phi 2, the parameter describing the reaction with oxygen. Substrate inhibition has been studied at high concentrations of xanthine with oxygen as the electron acceptor. The inhibition is hyperbolic and uncompetitive with respect to oxygen. This is possibly due to rate-limiting product release from molybdenum(IV) being slower than from molybdenum(VI).
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PMID:Studies on the specificity toward aldehyde substrates and steady-state kinetics of xanthine oxidase. 668 10

In order to understand why different stages of Trichinella spiralis vary in their susceptibility to killing by leukocytes, the effects of artificially generated oxidants on different stages of this parasite were compared. More than 90% newborn larvae were killed after incubation in acetaldehyde-xanthine oxidase or glucose-glucose oxidase. On the other hand, fewer than 10% of adult worms or muscle larvae were killed when incubated under identical conditions. Thus, only the stages which are resistant to killing by leukocytes are resistant to killing by oxidants. The larvicidal effect of acetaldehyde-xanthine oxidase was blocked by the addition of either superoxide dismutase or catalase and was partially inhibited by radical scavengers and singlet oxygen quenchers. The oxidant resistant adults and muscle larvae contained 3-5 times more superoxide dismutase and at least five times more glutathione peroxidase than the oxidant sensitive newborn larvae. In contrast, all 3 stages lacked detectable amounts of catalase and contained roughly equivalent amounts of reduced glutathione. Accordingly, adults and muscle larvae may be more resistant to killing by leukocytes than newborn larvae because they contain better oxidant defenses.
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PMID:Scavenger enzymes and resistance to oxygen mediated damage in Trichinella spiralis. 669 69


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