UNIPROT:P47989 - FACTA Search

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

Our previous studies established that human neutrophils could damage and probably kill hyphae of Aspergillus fumigatus and Rhizopus oryzae in vitro, primarily by oxygen-dependent mechanisms active at the cell surface. These studies were extended, again quantitating hyphal damage by reduction in uptake of (14)C-labeled uracil or glutamine. Neither A. fumigatus nor R. oryzae hyphae were damaged by neutrophils from patients with chronic granulomatous disease, confirming the importance of oxidative mechanisms in damage to hyphae. In contrast, neutrophils from one patient with hereditary myeloperoxidase deficiency damaged R. oryzae but not A. fumigatus hyphae. Cell-free, in vitro systems were then used to help determine the relative importance of several potentially fungicidal products of neutrophils. Both A. fumigatus and R. oryzae hyphae were damaged by the myeloperoxidase-hydrogen peroxide-halide system either with reagent hydrogen peroxide or enzymatic systems for generating hydrogen peroxide (glucose oxidase with glucose, or xanthine oxidase with either hypoxanthine or acetaldehyde). Iodide with or without chloride supported the reaction, but damage was less with chloride alone as the halide cofactor. Hydrogen peroxide alone damaged hyphae only in concentrations >/=1 mM, but 0.01 mM hypochlorous acid, a potential product of the myeloperoxidase system, significantly damaged R. oryzae hyphae (a 1 mM concentration was required for significant damage to A. fumigatus hyphae). Damage to hyphae by the myeloperoxidase system was inhibited by azide, cyanide, catalase, histidine, and tryptophan, but not by superoxide dismutase, dimethyl sulfoxide, or mannitol. Photoactivation of the dye rose bengal resulted in hyphal damage which was inhibited by histidine, tryptophan, and 1,4-diazobicyclo(2,2,2)octane. Lysates of neutrophils or separated neutrophil granules did not affect A. fumigatus hyphae, but did damage R. oryzae hyphae. Similarly, three preparations of cationic proteins purified from human neutrophil granules were more active in damaging R. oryzae than A. fumigatus hyphae. This damage, as with the separated granules and whole cell lysates, was inhibited by the polyanion heparin. Damage to R. oryzae hyphae by neutrophil cationic proteins was enhanced by activity of the complete myeloperoxidase system or by hydrogen peroxide alone in subinhibitory concentrations. These data support the importance of oxidative products in general and the myeloperoxidase system in particular in damage to hyphae by neutrophils. Cationic proteins may also contribute significantly to neutrophil-mediated damage to R. oryzae hyphae.
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PMID:Damage to Aspergillus fumigatus and Rhizopus oryzae hyphae by oxidative and nonoxidative microbicidal products of human neutrophils in vitro. 629 3

Recent observations indicate that OH . may be important in the microbicidal capacity of phagocytic cells, in prostaglandin metabolism, and as a mediator of inflammation. Although glucose is a weak hydroxyl scavenger, it occurs in high concentrations in biological systems. We therefore studied the capacity of glucose to scavenge OH . in biological systems known to generate this reactive oxygen species. Our experiments used a specific assay for the detection of OH .. We measured 14CO2 released during the oxidation of 14C-benzoic acid. We have previously demonstrated that benzoic acid is oxidized as a consequence of OH . in the following systems: the enzyme system xanthine-xanthine oxidase, zymosan-stimulated granulocytes, and arachidonic acid-stimulated platelets as a consequence of the lipoxygenase pathway. In all three systems the oxidation of benzoic acid was inversely proportional to the concentration of glucose in the assays. Also, platelets incubated with arachidonic acid and a high concentration of glucose increased HETE production, an effect predicted by the capacity of glucose to act as an OH . scavenger. Our results indicate that glucose acts as a scavenger of OH . in physiological concentrations and therefore may serve an antioxidant role in biological systems. In addition, the capacity of glucose to act as an OH . scavenger may explain some of the defects seen in patients with diabetes mellitus.
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PMID:Glucose: a role as a free radical scavenger in biological systems. 629 3

A continuous cloned murine macrophage-like cell line, clone 16 derived from J774, has been found upon appropriate stimulation to be capable of oxidizing glucose by the hexose monophosphate shunt and producing O2- and H2O2. A variant in oxidative metabolism, clone C3C, was selected from this cell line which under similar conditions is unable to produce significant amounts of O2- and H2O2. When cells of the parental clone 16 were infected with epimastigotes of Trypanosoma cruzi, there was significant killing or growth inhibition of the parasites at 3 to 4 days after infection. In contrast, the parasites grew in the oxidative variant, clone C3C. Trypomastigote forms of T. cruzi were found to be only partially killed in the parental clone 16 but grew abundantly in the oxidative variant. Infection of the parental clone, but not the variant, was sufficient to stimulate oxygen metabolism as demonstrated by the increased reduction of nitro blue tetrazolium. Studies on the killing of T. cruzi epimastigotes in cell-free suspension by xanthine-xanthine oxidase indicated that 90% of the killing was catalase sensitive and due to H2O2, with at most 7 to 8% killing which could be inhibited by scavengers of . OH and singlet oxygen (1O2). In the in vitro experiment with H2O2 produced by glucose and glucose oxidase, the 50% lethal doses of epimastigotes and trypomastigotes were 6.0 and 8.7 nmol of H2O2 per min per ml, respectively, indicating that trypomastigotes were more resistant to killing by H2O2 than epimastigotes were. A reconstitution experiment of trypanocidal activity in clone C3C by ingestion of zymosan particles coupled with glucose oxidase showed that H2O2 was essential for this cytocidal process in the macrophage cell line. These results provide clear evidence for killing of an intracellular parasite by a continuous macrophage-like cell line and suggest the importance of the oxidative cytocidal mechanism in this process.
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PMID:Growth of Trypanosoma cruzi in a cloned macrophage cell line and in a variant defective in oxygen metabolism. 635 Jan 85

The susceptibility of the human malaria parasite, Plasmodium falciparum, to killing in vitro by macrophage secretory products was investigated. The effect of O2 radicals and tumor necrosis factor on parasite viability was assessed both morphologically and by following the uptake of [3H]hypoxanthine. H2O2 produced by the interaction of glucose and glucose oxidase was found to reduce viability; this effect was reversed by the addition of exogenous catalase. Further studies indicated that the catalase level within the erythrocyte was not altered upon parasite invasion. O2 radicals produced during the xanthine-xanthine oxidase interaction also killed P. falciparum. The addition of various O2 radical scavengers (including catalase) did not reverse this effect; therefore, it was not possible to determine which of the O2 radicals were involved in the killing process. Samples from three different sources containing tumor necrosis factor, a nonspecific soluble mediator derived from Mycobacterium bovis BCG-activated macrophages treated with endotoxin, also killed the parasite. There was no evidence that tumor necrosis factor or the products of the xanthine-xanthine oxidase interaction caused damage to the erythrocyte membrane that could be implicated as an important aspect of the killing process. These findings all strongly suggest that such macrophage products play an important role in immunity to malaria.
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PMID:Killing of human malaria parasites by macrophage secretory products. 636 96

Using mouse small intestine brush-border membrane vesicles virtually free of xanthine oxidase (EC 1.2.3.2) and free of uricase (EC 1.7.3.3) the uptake of the purines uric acid, xanthine and hypoxanthine have been studied. The sodium-dependent overshoot phenomenon shown to exist for the uptake into the vesicles for D-glucose and L-phenylalanine was not observed with the purines. However, the uptake of the three purines in the presence of NaCl or KCl was greater than the uptake in the presence of either NaSCN or mannitol. Although 12.9% of the xanthine uptake and 17.6% of the hypoxanthine uptake was attributed to binding to the membranes, almost all the uric acid uptake was due to transport into an osmotically active space. The apparent intravesicular volume, calculated after 60 min incubation, for the three purines was consistently greater than the values obtained with D-glucose, L-glucose and L-phenylalanine equilibration, suggesting slow continuing penetration of purines associated with swelling or an apparent accumulation of purines within the vesicles associated with normal vesicle volume.
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PMID:Uptake of uric acid, xanthine and hypoxanthine by brush-border membrane vesicles from mouse small intestine. 650 51

The murine malaria parasite Plasmodium yoelii was killed in vitro when incubated with glucose and glucose oxidase, a system generating hydrogen peroxide, or with xanthine and xanthine oxidase, a system which produces the superoxide anion and subsequently other products of the oxidative burst. Catalase blocked the killing in both cases; superoxide dismutase and scavengers of hydroxyl radicals or singlet oxygen were ineffective in the xanthine oxidase system. Thus, hydrogen peroxide appears to be the main reactive oxygen species killing P. yoelii.
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PMID:Killing of Plasmodium yoelii by enzyme-induced products of the oxidative burst. 654 75

Resealed ghosts of human erythrocytes are sensitive to oxidative damage induced by xanthine oxidase acting on xanthine in the presence of iron. Damage was assessed in terms of lipid peroxidation and increased permeation of trapped markers, Na+ and glucose-6-P. Key findings are as follows. (a) Marker efflux from xanthine/xanthine oxidase/iron-treated ghosts accelerated after a lag, Na+ emerging far ahead of glucose-6-P. (b) Both effluxes and lipid peroxidation were stimulated by Fe(III) in a dose-dependent fashion and inhibited by chelating agents. (c) The antioxidant butylated hydroxytoluene effectively halted lipid peroxidation and net glucose-6-P efflux, but slowed Na+ efflux only partially. (d) Lipid peroxidation and marker release could be completely inhibited by superoxide dismutase or catalase, indicating that O2- and H2O2 are both required, possibly as precursors of OH. via the iron-catalyzed Haber-Weiss reaction (O2- + H2O2 leads to OH- + OH. + O2). (e) OH. scavengers, e.g. ethanol, mannitol, choline, had no protective effect against marker efflux and lipid peroxidation. Yet these agents did intercept OH. in the bulk medium, since they inhibited the degradation of 2-deoxyribose added as an extramembranous OH. probe. It is proposed that OH. produced on the membrane at iron binding sites reacts so rapidly with target molecules that scavengers cannot compete. (f) Desferrioxamine abolished all effects, including net egress of Na+. EDTA, while totally inhibitory toward lipid peroxidation and glucose-6-P release, diminished Na+ release partially, changing it to first order, approximately 3-fold faster than background. The latter response was totally inhibited by catalase, but only marginally by superoxide dismutase. This and other evidence suggests that different forms of membrane damage are responsible for enhanced permeation of the two markers; although glucose-6-P depends on lipid peroxidation, Na+ does not, certainly when EDTA is present.
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PMID:Damaging effects of oxygen radicals on resealed erythrocyte ghosts. 654 80

The luminol-dependent chemiluminescence (CL) of neutrophils phagocytosing zymosan is inhibited by superoxide dismutase (SOD), catalase, sodium benzoate, and 2,5-dimethyl furan. In the present report it is shown that inhibition by SOD and 2,5-dimethyl furan is diminished and removed, respectively, by the omission of glucose from the incubation medium. Zymosan-induced CL is also inhibited by inhibitors of arachidonic acid (AA) metabolism, including 5,8,11,14-eicosatetraynoic acid, nordihydroguaiaretic acid, quinacrine, indomethacin, and aspirin, by prostaglandins E1 and E2, theophylline, and dibutyryl cyclic AMP (cAMP), and by the addition of AA, sodium fluoride, and xanthine oxidase plus xanthine to the cell suspension. These findings lead us to postulate that the metabolism of AA via the lipoxygenase (and cyclooxygenase) pathway(s) is the source of CL observed in neutrophils after phagocytosis. Reactive oxygen species produced as a result of activation of NAD(P)H oxidase provide oxidizing agents for the oxidation of AA along these pathways. It is also suggested that elevated levels of cAMP induced by prostaglandins synthesized via the cyclooxygenase pathway may play a role in the regulation of the zymosan-induced CL response.
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PMID:The origin of chemiluminescence produced by neutrophils stimulated by opsonized zymosan. 668 3

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

We have developed a quantitative assay to monitor the oxidative burst (H2O2 production) of polymorphonuclear leukocytes (PMNL) using single cell analysis by flow cytometry, and have examined whether PMNL respond to membrane stimulation with an all-or-none oxidative burst. During incubation with normal neutrophils, dichlorofluorescin diacetate diffused into the cells, was hydrolyzed to 2',7'-dichlorofluorescin (DCFH) and was thereby trapped within the cells. The intracellular DCFH, a nonfluorescent fluorescein analogue, was oxidized to highly fluorescent 2',7'-dichlorofluorescein (DCF) by PMNL stimulated by phorbol myristate acetate (PMA). That the oxidative product was DCF was shown by excitation/emission spectra and by mass spectrometry of the product from PMA-stimulated PMNL. Normal resting and PMA-stimulated PMNL oxidized 6.9 +/- 0.7 and 160 +/- 13 attomoles DCF per cell, respectively, in 15 min. Absence of calcium and magnesium ions and/or addition of 2 mM EDTA did not inhibit DCF formation by PMNL stimulated by 100 ng/ml PMA. Since EDTA prevented aggregation of PMNL (even when stimulated by 100 ng/ml PMA), which would prevent accurate flow cytometric analysis, further experiments were performed with EDTA in the medium. A close correlation between average DCFH oxidation and hexose monophosphate shunt stimulation was demonstrated using cells from patients whose PMNL had oxidative metabolic defects of varying severity. Intracellular DCFH was also oxidized by reagent H2O2 or oxygen derivatives generated by glucose oxidase + glucose or by xanthine oxidase + acetaldehyde; DCFH oxidation by these systems was inhibited by catalase but unchanged by superoxide dismutase. The data indicate that the DCFH oxidation assay is quantitatively related to the oxidative metabolic burst of PMNL, and they strongly suggest that the reaction is mediated by H2O2 generated by the PMNL. Incubation of PMNL with varying concentrations of PMA caused graded responses by all PMNL present; i.e., 1 ng/ml PMA caused a mean response of 34% maximal with a single population of responding PMNL (rather than 66% resting and 34% fully stimulated as predicted by the all-or-none hypothesis). Thus, with these assay conditions, oxidative product formation by PMNL occurs as a graded response to membrane stimulation by PMA.
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PMID:Flow cytometric studies of oxidative product formation by neutrophils: a graded response to membrane stimulation. 683 55

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