EC:1.17.3.2 - FACTA Search

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)

Endothelium-dependent contractions to acetylcholine and endothelium-independent contractions to oxygen-derived free radicals in the aorta of the spontaneously hypertensive rat (SHR) are mediated by an unidentified product of the cyclooxygenase pathway of arachidonic acid metabolism. To determine the role of thromboxane A2 (TXA2) or prostaglandin H2 (PGH2) in these contractions, rings of the thoracic aorta of SHR were suspended in organ chambers for measurement of isometric force. Acetylcholine caused endothelium-dependent contractions in quiescent rings from SHR aortas. Oxygen-derived free radicals generated with xanthine plus xanthine oxidase caused contractions in rings without endothelium. Dazoxiben (thromboxane synthetase inhibitor) did not affect contractions evoked by acetylcholine. AH 23,848, SQ 29,548, or R 68,070 (TXA2/PGH2 receptor antagonists) inhibited contractions to U 46,619 (a TXA2/PGH2 receptor agonist), acetylcholine, and oxygen-derived free radicals. Acetylcholine stimulated the release of prostacyclin from Wistar-Kyoto (WKY) rat and SHR aortas but not the release of other prostaglandins (PGE2, PGF2 alpha, TXA2). Oxygen-derived free radicals did not stimulate the release of prostaglandins from either SHR or WKY rat aortas. These results demonstrate that stimulation of TXA2/PGH2 receptors probably by PGH2 might be involved in endothelium-dependent contractions. Oxygen-derived free radicals, which might be an endothelium-derived contracting factor or factors, ultimately cause contraction by stimulation of TXA2/PGH2 receptors.
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PMID:Thromboxane A2 receptor antagonists inhibit endothelium-dependent contractions. 214 Oct 3

The changes in short circuit current (electrogenic Cl- secretion) of rat colon brought about by xanthine/xanthine oxidase in the Ussing chamber were inhibited by catalase and diethyldithiocarbamate, but not by superoxide dismutase. These results, the reproduction of the response with glucose/glucose oxidase and with exogenous H2O2, and the lack of effect of preincubation with deferoxamine or thiourea implicate H2O2, and not O2- or OH., as the important reactive oxygen metabolite altering intestinal electrolyte transport. 1 mM H2O2 stimulated colonic PGE2 and PGI2 production 8- and 15-fold, respectively, inhibited neutral NaCl absorption, and stimulated biphasic electrogenic Cl secretion with little effect on enterocyte lactic dehydrogenase release, epithelial conductance, or histology. Cl- secretion was reduced by cyclooxygenase inhibition. Also, the Cl- secretion, but not the increase in prostaglandin production, was reduced by enteric nervous system blockade with tetrodotoxin, hexamethonium, or atropine. Thus, H2O2 appears to alter electrolyte transport by releasing prostaglandins that activate the enteric nervous system. The change in short circuit current in response to Iloprost, but not PGE2, was blocked by tetrodotoxin. Therefore, PGI2 may be the mediator of the H2O2 response. H2O2 produced in nontoxic concentrations in the inflamed gut could have significant physiologic effects on intestinal water and electrolyte transport.
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PMID:Hydrogen peroxide stimulates rat colonic prostaglandin production and alters electrolyte transport. 216 49

To determine whether oxygen metabolites can cause ductus relaxation, we used rings of fetal ductus obtained from 36 near-term lambs and measured the effects of the oxygen metabolites generated by the combination of hypoxanthine and xanthine oxidase. The oxygen metabolites produced by hypoxanthine plus xanthine oxidase caused relaxation of the ductus that was inhibited by catalase (hydrogen peroxide scavenger) but not by superoxide dismutase (superoxide anion scavenger). In addition, hypoxanthine plus xanthine oxidase produced a 14-fold increase in prostaglandin (PG) E2 production with only twofold increase in 6-keto-PGF1 alpha (the stable metabolite of PGI2). PGE2 is the most potent relaxant of the ductus arteriosus. The presence of either catalase or indomethacin blocked both the increase in prostaglandin production and the relaxation. We conclude that reactive oxygen metabolites relax the ductus arteriosus and oppose the normal constriction that occurs after birth. However, the vasoactive effects of reactive oxygen metabolites in the ductus appear to be mediated exclusively through the generation of PGE2.
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PMID:Reactive oxygen metabolites relax the lamb ductus arteriosus by stimulating prostaglandin production. 290 93

Cultured rat mesangial cells were exposed to a reactive oxygen species (ROS) generating system (xanthine plus xanthine oxidase) to explore the effect of ROS on their metabolism of arachidonic acid (AA). Cell viability, as assessed by 51Cr release, was not affected by the concentrations of xanthine plus xanthine oxidase used. Prostaglandin E2 (PGE2) production following exposure to increasing quantities of xanthine plus xanthine oxidase was significantly decreased to 38.1 +/- 9.7 or 30.8 +/- 6.9% of control levels (P less than 0.05) when cells were stimulated with the calcium ionophore A23187 (1 microgram/ml) or AA (10(-6) M), respectively. Maximum suppression of production was seen within 10 min of ROS exposure. Thromboxane B2 production was similarly decreased to 83.1 +/- 7.6 (0.05 less than P less than 0.10) or 54.9 +/- 2.5% (P less than 0.05). This effect was reversed by addition of catalase to the ROS generating system but not by superoxide dismutase or mannitol, which suggested that H2O2 was the responsible metabolite. High levels of H2O2 (5 x 10(-4) M) suppressed PGE2 production to 44.0 +/- 4.1 or 17.4 +/- 6.2% of A23187- or AA-stimulated production (P less than 0.05). Lower levels of H2O2 resulted in significant stimulation of base-line PGE2 production. Analysis of release of [3H]AA-labeled metabolites from A23187-stimulated cells showed no effect of H2O2 on phospholipase activity. Thus ROS can stimulate or inhibit AA metabolism in the glomerular mesangium, which may have important effects on glomerular hemodynamics during glomerular injury.
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PMID:Biphasic effect of oxygen radicals on prostaglandin production by rat mesangial cells. 310 32

Effects of protizinic acid (PRT) on prostaglandins (PG) and the production of oxygen radicals were compared with those of other non-steroidal anti-inflammatory agents. Oral administration of 30 mg/kg of PRT, indomethacin (IM), or ibuprofen (IB) significantly inhibited arachidonic acid-induced erythema in guinea pigs. Although 30 mg/kg of PRT significantly inhibited PGE2-induced erythema, IM and IB did not significantly inhibit it. PRT inhibited phospholipase A2 (PLA2) activity, and the IC50 value was 2.1 X 10-4 M. On the other hand, IM and IB exerted no effect on the PLA2 activity at 3 X 10-4 M. These results suggest that PRT possesses a broader pharmacological activity on the PG system than IM and IB. As for effects on the production of oxygen radicals, in order of relative inhibitory potency was PRT greater than metiazinic acid (MA) = IM greater than IB = phenylbutazone (PB) in the xanthine oxidase assay, PB great than IM greater than PRT greater than MA = IB in the rabbit neutrophil myeloperoxidase assay, and IM greater than PB greater than PRT greater than MA greater than IB in the guinea pig macrophage assay. In the rabbit neutrophil and aggregated IgG-bound micropore filter assay, the order was PRT greater than MA greater than PB greater than IM = IB. Thus, the inhibitory effects of PRT was verified in all experiments on the production of oxygen radicals in contrast to IB. In particular, it could be especially meaningful that PRT showed the most potent activity in the aggregated IgG-bound micropore filter assay which has been reported to be a good model for studying the pathogenesis of inflammatory diseases believed to be caused by immune complexes.
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PMID:[Effects of protizinic acid on the prostaglandins system and the production of oxygen radicals]. 629 Mar 56

The responses of pig aortic endothelial cells to sublethal doses of potentially toxic stimuli were investigated by monitoring K+ efflux, prostaglandin production, and the release of cytoplasmic purines. Xanthine plus xanthine oxidase reversibly stimulated these three parameters of endothelial cell function at doses that were not cytotoxic, as measured by chromium release, adenine uptake, and vital dye exclusion. The effects of xanthine plus xanthine oxidase were inhibited by catalase but not by superoxide dismutase, suggesting that H2O2 was responsible. Reagent H2O2 also reversibly stimulated K+ efflux, prostaglandin production, and the release of purines. The threshold concentration of H2O2 for these effects was approximately 10 microM, which was at least 30-fold lower than that which caused cytotoxicity. In addition to the direct effect of H2O2 in stimulating prostaglandin production (PGI2 and PGE2), prior exposure of endothelial cells to lower doses of H2O2 (less than 0.1 microM) at high oxygen tension inhibited the subsequent stimulation of prostaglandin production by ATP, A23187, and H2O2 itself. We conclude that H2O2 has substantial effects on endothelial physiology at doses up to 3,000-fold lower than those which induce cytotoxicity.
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PMID:Differential effects of hydrogen peroxide on indices of endothelial cell function. 636 99

Polymorphonuclear leukocytes secreting oxygen radicals are found in the glomerular capillaries at an early stage of experimental acute glomerulonephritis. The aim of this work was to study the effects of these radicals on prostaglandin (PG) production by the glomeruli. Glomeruli were isolated from rat renal cortex and incubated in the presence of a biochemical system capable of generating oxygen radicals (addition to 100 microM xanthine of increasing concentrations of xanthine oxidase). Synthesis of PGE2, PGF2alpha, 6 keto PGF1alpha, and TXB2 estimated using specific radioimmunoassays was twofold greater in the presence of oxygen radicals. This effect was inhibited by catalase, slightly stimulated by superoxide dismutase, unaffected by hydroxyl radical scavengers, thus suggesting that hydrogen peroxide was the by-product responsible. This was confirmed by the stimulatory effect of hydrogen peroxide itself (1 to 100 microM) on PG synthesis. The effect of mepacrine, an inhibitor of phospholipase activity, on PG production was more marked in the presence of hydrogen peroxide and the stimulation of PG synthesis by hydrogen peroxide or oxygen radicals was progressively inhibited in the presence of arachidonic acid. Moreover, oxygen radicals stimulated the release of 14C-arachidonic acid previously incorporated in isolated glomeruli. This demonstrates that the increase in PG synthesis in response to oxygen radicals is due to activation of glomerular phospholipase by these radicals. This effect that is likely to occur at an early stage of experimental glomerulonephritis could play a role in the mechanism of the inflammatory process.
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PMID:Stimulation by oxygen radicals of prostaglandin production by rat renal glomeruli. 730 Jan 22

The implication of different eicosanoids and oxygen free radicals in the development of pancreatic injury after an ischemia-reperfusion process has been evaluated. For this purpose we have compared the effect of allopurinol and indomethacin administration on the pancreatic levels of eicosanoids in a rat model of pancreatic ischemia-reperfusion. After 60 min of pancreatic ischemia and 2 h of reperfusion, significant increases in 6-keto-PGF1 alpha, PGE2, and LTB4 in pancreas tissue were detected. Allopurinol before the ischemic period reduced 6-keto-PGF1 alpha, PGE2, and LTB4 levels to the range of basal values, while prior indomethacin treatment significantly reduced 6-keto-PGF1 alpha and PGE2 levels, with LTB4 remaining unmodified. Increased postischemic plasma lipases were also significantly reduced by allopurinol to the range of sham-operated animals whereas indomethacin did not modify these levels. The data suggest a role for lipoxygenase metabolites in the development of pancreatic injury and the importance of the enzyme xanthine oxidase as an inductor of eicosanoid biosynthesis.
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PMID:Role of xanthine oxidase and eicosanoids in development of pancreatic ischemia-reperfusion injury. 755 51

We tested the hypothesis that reducing the hepatic O2 supply by 30 min of constant-flow hypoxia (PO2, approximately 45 Torr) following gram-negative bacteremia downregulates tumor necrosis factor-alpha (TNF-alpha) in buffer-perfused rat lives (total n = 44). Eight groups were studied after intraportal 10(9) viable E. coli serotype 055:B5 (EC) or 0.9% NaCl (NS) at t = 0:1) normoxic EC; 2) normoxic NS controls; 3) EC+hypoxia (H)-reoxygenation (R) in which H began 30 min after EC followed by 120 min of R; and 4) NS+H/R. To assess the role of cyclooxygenase vs. xanthine oxidase activation, the effects of 10(-5) M indomethacin (Indo) in 5) Indo+EC+H/R and 6) Indo+NS+H/R were compared with allopurinol (Allo) in 7) Allo+EC+H/R and 8) Allo+NS+H/R groups. Bacterial clearance, bioactive and antigenic TNF-alpha, and hepatic O2 uptake and performance were serially assessed, as was prostaglandin (PG) E2 at baseline and peak hypoxia in EC-challenged groups. Intrahepatic bacterial killing and TNF-alpha mRNA were determined at t = 180 min. Bioactive venous TNF-alpha did not increase in normoxic NS controls (6 +/- 3 U/ml at t = 180 min; mean +/- SE), whereas levels rose in NS4H/R by 180 min (111 +/- 34 U/ml; P < 0.01) without increases in TNF-alpha mRNA. In contrast, EC-induced increases in TNF-alpha transcripts during normoxia were attenuated in EC+H/R, as were protein levels (57 +/- 20 U/ml; P < 0.05), despite similar bacterial clearance. Neither Indo-mediated reductions in PGE2 nor allopurinol increased TNF-alpha after EC+H/R.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Downregulation of E. coli-induced TNF-alpha expression in perfused liver by hypoxia-reoxygenation. 786 28

The middle ear epithelium and respiratory epithelia share basic properties such as homeostasis of air-filled cavities and mucociliary clearance toward the pharynx. With the middle ear SV40-transformed (MESV) cell line, we used the short-circuit current (Isc) technique to investigate changes in ion transport induced by oxidants. Xanthine and xanthine oxidase on the basal side of the monolayers dramatically increased Isc up to 50%. This effect was not affected by superoxide dismutase or mannitol, but could be blunted by catalase or 1,3-dimethyl-2-thiourea. Increasing concentrations of H2O2 from 10(-5) to 5 x 10(-4) M produced a dose-dependent increase in Isc from 0.26 +/- 0.16 up to 4.21 +/- 0.43 microA/cm2 (P < 0.05, n = 5). Concentration of half-maximal stimulation (EC50) was 4.68 x 10(-5) M. This effect was inhibited by indomethacin and was related to a sodium transport, since the H2O2-induced increase in Isc could be prevented or abolished by 1) apical addition of benzamil (10(-6)M) and 2) substitution of sodium with N-methyl-glucamine. H2O2 exposure also induced indomethacin-sensitive increase in released prostaglandin (PG) E2 (EC50 = 5.62 x 10(-5) M) and in cAMP content (EC50 = 3.95 x 10(-5) M) with similar kinetics. These results suggest that exposure of MESV cells to oxidants stimulates the production of PGE2, which in turn increases the transepithelial sodium transport rate.
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PMID:Oxygen metabolites modulate sodium transport in gerbil middle ear epithelium: involvement of PGE2. 790 Aug 20

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