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)

Purine nucleotide synthesis and interconversion were examined over a range of purine base and nucleoside concentrations in intact N4 and N4TG (hypoxanthine-guanine phosphoribosyltransferase (HGPRT) deficient) neuroblastoma cells. Adenosine was a better nucleotide precursor than adenine, hypoxanthine or guanine at concentrations greater than 100 micron. With hypoxanthine or guanine, N4TG cells had less than 2% the rate of nucleotide synthesis of N4 cells. At substrate concentrations greater than 100 micron the rates for deamination of adenosine and phosphorolysis of guanosine exceeded those for any reaction of nucleotide synthesis. Labelled inosine and guanosine accumulated from hypoxanthine and guanine, respectively, in HGPRT-deficient cells and the nucleosides accumulated to a greater extent in N4 cells indicating dephosphorylation of newly synthesized IMP and GMP to be quantitatively significant. A deficiency of xanthine oxidase, guanine deaminase and guanosine kinase activities was found in neuroblastoma cells. Hypoxanthine was a source for both adenine and guanine nucleotides, whereas adenine or guanine were principally sources for adenine (greater than 85%) or guanine (greater than 90%) nucleotides, respectively. The rate of [14C]formate incorporation into ATP, GTP and nucleic acid purines was essentially equivalent for both N4 and N4TG cells. Purine nucleotide pools were also comparable in both cell lines, but the concentration of UDP-sugars was 1.5 times greater in N4TG than N4 cells.
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PMID:A comparison of purine metabolism and nucleotide pools in normal and hypoxanthine-guanine phosphoribosyltransferase-deficient neuroblastoma cells. 71 89

A study was made of the metabolism by the rabbit of adenine administered intravenously at a dose of 35 mg/kg with 100 micronCi of 8-14C-adenine. The infused adenine was removed from the blood in two phases, first by diffusion into the tissues and second by metabolic reactions throughout the body. The adenine equilibrated within a few seconds equally between plasma and red blood cells and between them and kidney, liver, duodenum, lung and heart. Diffusion into skeletal muscle was much slower and into brain slowest. The more gradual disappearance of adenine from blood, and from the rest of the body, with a half-life of about 20 minutes and with complete removal by two hours, was predominantly along three pathways, leading to, after four hours: 1) 74 per cent in adenine nucleotide (mostly AMP, ADP, and (ATP); 2) 12 per cent as unchanged adenine in the urine; and 3) 11 per cent as a mixture in almost equal parts of 8-oxyadenine and 2,8-dioxyadenine in the urine. Conversion of adenine to adenine nucleotide, probably by initial reaction with phosphoribosyl pyrophosphate and adenine-phosphoribosyltransferase, was at widely different rates in the organs with duodenum, kidney, liver, and lung high and heart, red blood cell, skeletal muscle and brain relatively low. Sites of formation of the two oxyadenines, probably by action of xanthine oxidase, were not determined.
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PMID:Metabolism by the rabbit of intravenously administered adenine. 87

The xanthine oxidase inhibitor, 4-hydroxypyrazolo(3,4-d) pyrimidine (HPP), Allopurinol, caused augmentation of myocardial uptake of [3H] hypoxanthine, which was eventually completely incorporated into ATP. The decrease of [32P] orthophosphate incorporation into ATP induced by isoproterenol was restored by HPP administration.
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PMID:Effect of xanthine oxidase inhibitor on myocardial ischemia. 103 53

Among the mechanisms postulated to contribute to myocardial "stunning" is a depression of contractility by oxygen-derived free radicals. It has been suggested that these radicals might depress the calcium sensitivity of the contractile proteins. We have exposed the myofilaments (in chemically "skinned" rat cardiac muscle) to the superoxide anion and measured isometric force at controlled degrees of activation. Superoxide was generated by the xanthine/xanthine oxidase system: the effects to be described were shown to be specifically attributable to superoxide. Maximum calcium-activated force is reduced, or even completely abolished, in a dose-dependent fashion and without any alteration in calcium sensitivity. The myofilaments are highly sensitive to superoxide: significant force reduction has been shown to be caused by enzyme concentrations as low as 2 microunits/ml xanthine oxidase and with exposures of less than 1 minute to the generating system (at higher enzyme concentrations). Once force has been depressed, it cannot be recovered within the duration of the experiments described. When xanthine oxidase is applied during the calcium-induced contracture, tension falls steadily. However, a similar concentration is without immediate effect on the rigor contracture (evoked by applying ATP-free solutions). To account for the depression of maximum calcium-activated force, we conclude that some aspect of crossbridge behavior is particularly vulnerable to superoxide rather than that the radical has a nonspecific "proteolytic" effect. This action on the fundamental units of force production could contribute to myocardial stunning since the effects we report are consistent with many aspects of this phenomenon.
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PMID:Depression of peak force without altering calcium sensitivity by the superoxide anion in chemically skinned cardiac muscle of rat. 131 36

The nitrovasodilator, nicorandil, is a clinically effective antianginal agent. We tested whether nicorandil may also possess anti-free-radical characteristics, since the nicotinamide moiety of its molecular structure is a known hydroxyl radical scavenger. In vitro production of hydroxyl radicals by hypoxanthine plus xanthine oxidase in the presence of iron produced a marked degradation of deoxyribose. Nicorandil and the structural analogs, nicotinic acid and nicotinamide, produced significant inhibition of deoxyribose breakdown at concentrations equipotent to the classical hydroxyl radical scavenger, mannitol. Nicorandil also produced a concentration-dependent inhibition of superoxide anion production by canine neutrophils that were activated with either phorbol myristate acetate (PMA) or opsonized zymosan. This inhibition could not be mimicked by the analog, nicotinamide. While equimolar concentrations of nitroglycerin produced less inhibition of superoxide anion generation in opsonized zymosan-activated neutrophils than that observed with nicorandil, nitroglycerin did not alter free-radical production in PMA-stimulated neutrophils. Glyburide, the ATP-sensitive potassium-channel blocker, did not reverse the action of nicorandil on neutrophils. Thus, nicorandil is a uniquely different nitrovasodilator with anti-free-radical and neutrophil-modulating properties.
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PMID:Anti-free-radical and neutrophil-modulating properties of the nitrovasodilator, nicorandil. 132 63

Injury to nonpulmonary organ systems often initiates systemic processes that cause recruitment of neutrophils to the lung. We found that rats subjected to intestinal ischemia-reperfusion (I/R) had increased transvascular leak of 125I-labeled albumin into lungs and decreased lung ATP levels (P less than 0.05). In addition, rats subjected to intestinal I/R had increased plasma xanthine oxidase (XO) activity, plasma leukotactic activity for neutrophils, and lung neutrophil retention (assessed by morphometry and myeloperoxidase activity) compared with sham-treated rats (P less than 0.05). By comparison, after intestinal I/R, rats fed an allopurinol- or tungsten-enriched diet had decreased plasma and intestinal XO activities, decreased plasma leukotacic and lung myeloperoxidase (MPO) activities, decreased lung leak, and increased lung ATP levels compared with rats fed control diets (P less than 0.05). Further studies suggested a more specific role for circulating rather than tissue XO in mediating lung neutrophil accumulation but not lung leak. Plasma XO, plasma leukotactic, and lung MPO activities, but not lung leak, increased in rats administered purified XO intravenously. In addition, plasma XO, plasma leukotactic, and lung MPO activities, but not lung leak, decreased in rats administered antisera against XO and then subjected to intestinal I/R. We conclude that circulating XO increases acutely and may contribute to pulmonary retention of neutrophils after an ischemic intestinal insult.
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PMID:Circulating xanthine oxidase mediates lung neutrophil sequestration after intestinal ischemia-reperfusion. 132 31

Mammalian spermatozoa are sensitive to oxygen-induced damages mediated by lipid peroxidation of the cell membrane. The aim of this study was to evaluate whether reactive oxygen species (ROS) could also induce axonemal damage. When Percoll-separated spermatozoa were treated with hydrogen peroxide, or the combination xanthine and xanthine oxidase (X + XO), there was a progressive decrease, leading to a complete arrest, in sperm flagellar beat frequency. Once demembranated in a medium containing magnesium adenosine triphosphate (Mg.ATP), ROS-immobilized spermatozoa still reactivated motility; however, the percentage and duration of motility obtained in these tests gradually decreased to zero in the next hour. In 50% of the cases, motility of intact spermatozoa spontaneously reinitiated after 6 to 24 hours of immobilization due to ROS treatment, although with percentages and beat frequencies lower than those of untreated spermatozoa. Studies using ROS scavengers (such as catalase, superoxide dismutase, and dimethylsulfoxide) indicated that hydrogen peroxide was the most toxic of the ROS involved, but that .O2- and .OH probably also played a role in immobilization of spermatozoa by ROS. The data suggest that ROS induce a chain of events leading to sperm immobilization, that axonemes are affected, and that limited endogenous repair mechanisms exist to reverse these damages.
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PMID:Reactive oxygen species and human spermatozoa. I. Effects on the motility of intact spermatozoa and on sperm axonemes. 133 Oct 6

There has been great interest stimulated by reports on factors influencing the survival of skin flaps which possess only venous inflow and outflow, i.e., venous flaps. The present study serially (Days 1, 2, and 4 postoperatively) observed several biochemical factors which might affect flap survival. ATP levels were measured to assess endogenous energy stores, malonyldialdehyde (MDA) and xanthine oxidase (XO) to estimate free radical production, superoxide dismutase (SOD) to quantify antioxidant defenses, and edema to measure inflammatory changes. Eighteen thighs on nine dogs were assigned randomly to one of three groups: full-thickness skin grafts, flaps based solely on the saphenous artery and vein (AV flaps), or flaps based solely on the saphenous vein (venous flaps). These were regarded as being mostly ischemic, totally perfused, and partially ischemic, respectively. Control skin biopsies were obtained adjacent to surgical sites. AV flaps and control skin were similar in all respects. Venous flaps compared with skin grafts were significantly less edematous (P less than 0.01) had less MDA and XO (P less than 0.05), but no significant differences in SOD and ATP levels. However venous flaps had significantly less ATP than AV flaps (P less than 0.01). Thus venous flaps survive despite depletion of ATP levels. These results suggest that decreased free radical production and lessened edema may be important factors in promoting ultimate survival of venous flaps.
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PMID:Biochemical analysis of the venous flap in the dog. 140 86

To investigate the pathophysiology of warm ischemia (WI) of the liver, the changes in hemodynamics and energy metabolism were studied during and after 60-min complete WI induced by total hepatic vascular exclusion (HVE) in the canine model. Hepatic arterial blood flow after WI was maintained at 76% of the pre-ischemic level, while portal blood flow was only 27% of the pre-ischemic level associated with increased portal vein pressure, which was twice the pre-ischemic level, resulting in a decrease of total hepatic blood flow to 46% of the pre-ischemic level. Concentration of tissue lipid peroxide increased after WI. Arterial blood ketone body ratio (AKBR), which reflects the hepatic mitochondrial redox state, could not recover to the pre-ischemic level after termination of WI. However, when 100 mg/kg of allopurinol (xanthine oxidase inhibitor) was administered intravenously 10 min prior to initiating WI, AKBR was restored to the pre-ischemic level at 30 min after WI in spite of the fact that allopurinol administration to one group produced no remarkable changes in the hepatic hemodynamics compared with the group without allopurinol treatment. Concentration of adenine nucleotides was significantly higher for the treated group at the end of and after WI than for the group without allopurinol treatment and was maintained at a higher level even after WI. Lipid peroxide production was suppressed. Electron microscopic examination revealed that allopurinol treatment could not prevent mitochondrial swelling. It is suggested that WI causes injury primarily to the portal sinusoidal circulation, resulting in portal congestion concomitant with high portal pressure after the release of WI. Allopurinol could prevent the deterioration of mitochondrial ATP metabolism, and was able to inhibit lipid peroxide production, resulting in the rapid recovery of mitochondrial redox state in spite of the fact that it produced no amelioration of hepatic hemodynamics and morphological alterations.
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PMID:Preserved mitochondrial function by allopurinol despite deteriorated hemodynamics in warm ischemia-damaged canine liver. 148 Aug 16

We propose new hypotheses for the mechanisms of streptozotocin (STZ) and alloxan inducing experimental diabetes in animals. STZ is transported into pancreatic beta cells through glucose transporter in the cell membranes and attacks mitochondria. Mitochondrial ATP generation is inhibited and the resulting high concentration of intracellular ADP causes its degradation providing hypoxanthine, a substrate of xanthine oxidase (XOD) whose activity is intrinsically very high in beta cells. Then, XOD-catalyzing reaction is proceeded as proved by increased formation of uric acid and O2- radicals are produced, but beta cells are inefficient to scavenge these radicals because of their extremely low activity of superoxide dismutase. On the other hand, STZ directly activates XOD and enhances O2- generation. Consequently, pancreatic beta cells are dually suffered from O2- radicals or probably hydroxyl radicals derived from the former when exposed to STZ. Allopurinol, an inhibitor of XOD, can protect animals from the diabetogenic effect of STZ. In pancreatic beta cells, alloxan anion radicals are generated from alloxan probably mediated by the action of microsomal cytochrome P-450 system. These radicals have long half-life and directly damage DNA in vitro. The widely accepted hypothesis that the cause of alloxan-induced diabetes is attributable to O2- radicals formed from alloxan is excluded, because alloxan itself shows a very potent scavenging effect to O2- radicals. Therefore alloxan anion radicals seem to be directly related to the incidence of diabetes by alloxan.
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PMID:[New hypotheses for the mechanisms of streptozotocin and alloxan inducing diabetes mellitus]. 148 45


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