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)

In the ischemic heart, high-energy phosphates are rapidly broken down. We studied the release of AMP catabolites from the isolated perfused rat heart which was temporarily made ischemic or anoxic. We measured the concentration of purine nucleosides and oxypurines with a novel high-pressure liquid chromatographic technique. The postischemic working heart released adenosine, inosine, hypoxanthine, and also substantial amounts of xanthine. The latter could indicate that xanthine oxidase is present in rat heart. Further evidence for the myocardial occurrence of this enzyme was obtained from experiments with hearts perfused retrogradely with allopurinol, an inhibitor of xanthine oxidase. This drug greatly enhanced the release of hypoxanthine, both during normoxic and anoxic perfusions. We conclude that xanthine oxidase could play an essential role in the myocardial breakdown of AMP catabolites.
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PMID:Release of purine nucleosides and oxypurines from the isolated perfused rat heart. 668 47

Adenosine kinase, adenosine deaminase, hypoxanthine phosphoribosyltransferase, inosine-nucleoside phosphorylase, 5'-AMP deaminase and 5'-IMP nucleotidase were identified in cell-free extracts of duckling erythrocytes; no evidence for 5'-AMP nucleotidase and xanthine oxidase activity was found. The Km values for the duckling red cell enzymes were similar to those reported for human erythrocytes. Plasmodium lophurae extracts demonstrated similar enzyme activities except for 5'-AMP deaminase and 5'-IMP nucleotidase which were absent. It is proposed that during infection erythrocytic AMP is catabolized to IMP, inosine and hypoxanthine; the hypoxanthine is taken up by the plasmodium, utilized to form IMP, and this in turn is converted into adenine and guanine nucleotides.
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PMID:Purine metabolizing enzymes of Plasmodium lophurae and its host cell, the duckling (Anas domesticus) erythrocyte. 678 22

The present study investigated the effect of the administration of oxypurinol (40 mg/kg), an inhibitor of xanthine oxidase, on adenosine and adenine nucleotide levels in the rat brain during ischemia and reperfusion. The brains of the animals were microwaved before, at the end of a 20-min period of cerebral ischemia, and after 5, 10, 45, and 90 min of reperfusion. Cerebral ischemia was elicited by four-vessel occlusion with arterial hypotension to 45-50 mm Hg. Adenosine and adenine nucleotide levels in the oxypurinol-pretreated (administered intravenously 20 min before ischemia) rats were compared with those in nontreated animals exposed to the same periods of ischemia and reperfusion. Oxypurinol administration resulted in significantly elevated ATP levels at the end of ischemia and 5 min after ischemia, but not at 10 min after ischemia. ADP levels were also elevated, in comparison with those in the control rats, at the end of the ischemic period. Conversely, AMP levels were significantly reduced at the end of ischemia and during the initial (5 min) period of reperfusion. Adenosine levels were lower in oxypurinol-treated rats, during ischemia, and in the initial reperfusion phase. Oxypurinol administration resulted in a significant increase in the energy charge both during ischemia and after 5 min of reperfusion. Physiological indices, namely, time to recovery of mean arterial blood pressure and time to onset of respiration, were also shortened in the oxypurinol-treated animals. These beneficial effects of oxypurinol may have been a result of its purine-sparing (salvage) effects and of its ability to inhibit free radical formation by the enzyme xanthine oxidase. Preservation of high-energy phosphates during ischemia likely contributes to the cerebroprotective potency of oxypurinol.
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PMID:Oxypurinol-enhanced postischemic recovery of the rat brain involves preservation of adenine nucleotides. 772 3

APRT deficiency is an enzyme disorder which is inherited as an autosomal recessive trait. The use of adenine in purine metabolism is disturbed and it accumulates in the body, where it is oxidised by xanthine oxidase to poorly insoluble 2, 8-dihydroxyadenine (DHA). The dihydroxyadenine forms stones which cause recurrent urolithiasis, frequent episodes of urinary tract infection or interstitial nephritis, and finally renal insufficiency in some cases. We report a case of APRT deficiency discovered by urine examination. The patient was a 33-year-old man who had never had any episodes of urolithiasis. He was admitted to our hospital because of pseudoarthrosis of his left arm caused by a traffic accident. His urinalysis revealed no proteinuria nor hematuria, but disclosed numerous round brown crystals in the sediment. These crystals had the characteristics of 2, 8-DHA. The enzyme activity of APRT in his blood was completely deficient. He was diagnosed as an APRT* QO homozygote. In addition, diagnostic imaging revealed that his right kidney was poorly hypoplastic and the pelvis of his left kidney was extra-renal. The renal function was slightly disturbed. In Japan 6 cases of 2, 8-DHA urolithiasis associated with hypoplastic kidney had been reported by 1989. Theoretically, the incidence of hypoplastic kidney is around 20% of all 2, 8-DHA urolithiasis cases. We suspect a genetic correlation between hypoplastic kidney and APRT deficiency. This patient was treated with Allopurinol, which inhibits the process of xanthine oxidation, after which crystals were no longer detected in his urine.
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PMID:[A case of adenine phosphoribosyltransferase (APRT) deficiency discovered by urine examination]. 781 52

The synthesis of uric acid from purine bases, nucleosides and nucleotides has been measured in reaction mixtures containing rat liver supernatant and each one of the following compounds at 1 mM concentration (except xanthine, 0.5 mM and guanosine and guanine, 0.1 mM). The rates of the reaction, expressed as nanomoles of uric acid synthesized g-1 of wet liver min-1 were: ATP, 10; ADP, 37; AMP, 62; adenosine, 108; adenine 6; adenylosuccinate, 9; IMP 32; inosine, 112; hypoxanthine, 50; GTP, 19; GDP, 19; GMP, 27; guanosine, 34; guanine, 72; XMP, 10; xanthosine, 24; xanthine, 144. These figures divided by 55 correspond to nanomoles of uric acid synthesized min-1 per mg-1 of protein. The rate of synthesis of uric acid obtained with each one of those compounds at 0.1 and 0.05 mM concentrations was also determined. ATP (1 mM) strongly inhibited uric acid synthesis from 0.05 mM AMP (91 per cent) and from 0.05 mM ADP (88 per cent), but not from adenosine. CTP or UTP (1 mM) also inhibited (by more than 90 per cent) the synthesis of uric acid from 0.05 mM AMP. Xanthine oxidase was inhibited by concentrations of hypoxanthine higher than 0.012 mM. The results favour the view that the level of uric acid in plasma may be an index of the energetic state of the organism. Allopurinol, besides inhibiting uric acid synthesis, reduced the rate of degradation of AMP. The ability of crude extracts to catabolize purine nucleotides to uric acid is an important factor to be considered when some enzymes related to purine nucleotide metabolism, particularly CTP synthase, are measured in crude liver extracts.
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PMID:Uric acid synthesis by rat liver supernatants from purine bases, nucleosides and nucleotides. Effect of allopurinol. 783 12

1. The possible mechanisms of action of the inhibitory effect of gomisin C on the respiratory burst of rat neutrophils in vitro was investigated. 2. The peptide formyl-Met-Leu-Phe (FMLP) induced superoxide anion (O2-) formation and O2 consumption, which was inhibited by gomisin C in a concentration-dependent manner (IC50 21.5 +/- 4.2 micrograms ml-1 for O2- formation). Gomisin C also suppressed O2- formation and consumption at low concentrations of phorbol myristate acetate (PMA) with an IC50 value of 26.9 +/- 2.1 micrograms ml-1 for O2- formation. However, gomisin C did not affect the responses induced by a high concentration of PMA. 3. Gomisin C had no effect on O2- generation and uric acid formation in the xanthine-xanthine oxidase system, and failed to alter O2- generation during dihydroxyfumaric acid (DHF) autoxidation, indicating that it does not scavenge superoxide. 4. Like trifluoperazine (TFP), gomisin C attenuated the activity of PMA-activated neutrophil particulate NADPH oxidase in a concentration-dependent manner. 5. Gomisin C reduced the elevations of cytosolic free Ca2+ in neutrophils stimulated by FMLP in the presence or absence of EDTA. Cyclopiazonic acid (CPA) induced the release of Ca2+ from intracellular stores and this was also reduced by gomisin C. However, the Ca2+ influx pathway activated by CPA was not affected by gomisin C. 6. The cellular cyclic AMP level was markedly increased by forskolin, but not by gomisin C. Moreover, the inositol phosphate levels in FMLP-activated neutrophils were not affected by gomisin C. 7. These results show that the inhibitory action of gomisin C on the respiratory burst is not mediated by changes in cellular cyclic AMP or in inositol phosphates, or by scavenging O2- released from neutrophils, but may be mediated partly by the suppression of NADPH oxidase and partly by the decrease of cytosolic Ca2+ released from an agonist-sensitive intracellular store.
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PMID:Inhibition by gomisin C (a lignan from Schizandra chinensis) of the respiratory burst of rat neutrophils. 785 90

The perfused rat hindlimb preparation was used with a blood cell-free perfusate to investigate alterations in the purine nucleotide metabolism, flow rate, perfusion pressure, and venous excretion in response to ischemia and ischemia followed by reperfusion in skeletal muscle. The development of a physical hindrance during postischemic reperfusion, indicated by an increase in reperfusion pressure and a decrease in flow rate, coincided with a 90% decrease in phosphocreatine and a 50-70% reduction in total adenine nucleotide pool. The reflow impairment could not be explained by blood cell plugging of the capillaries. Washout of several metabolites was demonstrated during reperfusion. Hypoxanthine accumulated intracellularly during ischemia, and a substantial amount of uric acid was excreted into the venous effluent during reperfusion. The experimental data were fitted into a computer simulation model of the purine pathways. The model indicated that AMP deaminase was the predominant enzymatic pathway for the AMP degradation. It was demonstrated that ATP preferably accumulated as inosine-5'-monophosphate during ischemia and that xanthine oxidase was undetectable in skeletal muscle tissue homogenates. However, vascular endothelial cell xanthine oxidase activity responsible for a free radical-induced reperfusion injury could not be excluded.
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PMID:Purine metabolic pathways in rat hindlimb perfusion model during ischemia and reperfusion. 823 94

The effect of 5'-nucleotidase inhibitor (AMP-C) and xanthine oxidase inhibitor (Allopurinol: ALLO) on myocardial functional recovery and the restoration of myocardial high energy phosphates after 15 min of normothermic global ischemic insult, was studied in the isolated isovolemic Langendorff rat heart model. Fifty nine rats were divided into 4 groups: Group I; saline, Group II; AMP-C plus ALLO, Group III; AMP-C, Group IV; ALLO. Intermittent infusion of drugs was delivered in 3 ml of solution at 5 min intervals during ischemia. Percent recovery of left ventricular systolic function was as follows: Group I; 74.2 +/- 3.6%, Group II; 87.7 +/- 1.7%, Group III; 83.5 +/- 3.1%, Group IV; 86.4 +/- 2.6%. Improved recovery was statistically significant only in Group II (p < 0.05 vs Group I). Suppression of reactive hyperemia was seen with reperfusion in the groups which had been treated with AMP-C (i.e., Groups II and III). Myocardial adenine nucleotides and purines were measured in 6 hearts in each group using high performance liquid chromatography. Myocardial ATP levels was 0.89 +/- 0.16 nmol/mg left ventricular wet weight in Group I, 1.37 +/- 0.12 in Group II (p < 0.05 vs Group I), 1.42 +/- 0.17 in Group III (p < 0.05) and 1.17 +/- 0.15 in Group IV. This study demonstrates that intermittent infusion of AMP-C plus ALLO during global myocardial ischemia results in improved myocardial functional recovery and improved preservation of high energy phosphates.
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PMID:Evaluation of the effectiveness of 5'-nucleotidase inhibitor and allopurinol in myocardial ischemia. 835 99

Endothelial cells have ectonucleotidases that rapidly catabolize extracellular nucleotides. Our aim was to study whether the metabolism of extracellular nucleotides and adenosine are influenced by exposure of endothelial cells to reactive oxygen metabolites at concentrations relevant to human pathology. Human umbilical vein endothelial cells were incubated with hypoxanthine (100 microM) and xanthine oxidase (80 mU/ml), to generate superoxide, or with hydrogen peroxide (100 microM). The cells were then washed, and the metabolism of radioactive substrates was followed. After exposure to hypoxanthine-xanthine oxidase the half time of disappearance of [14C]ATP (5 microM) was prolonged from 9.9 +/- 5 to 28.3 +/- 15.6 min and that of [14C]AMP from 9.5 +/- 2.5 to 25.0 +/- 9.9 min. The conversion of extra- into intracellular nucleotides via adenosine was also decreased (mean for [14C]ATP 0.25 vs. 0.90 and for [14C]AMP, 0.075 vs. 0.75 nmol/10(6) cells in 30 min compared with parallel controls, respectively). Hydrogen peroxide or trypsin had no significant effect on the metabolism of extracellular adenine nucleotides and neither did a short (up to 15 min) exposure to the superoxide-generating system. The conversion of [14C]adenosine into intracellular nucleotides and hypoxanthine was not influenced by either hypoxanthine-xanthine oxidase or by hydrogen peroxide. We conclude that superoxide radicals inhibit the catabolism of extracellular adenine nucleotides by the ectonucleotidases of endothelial cells and may thus modify the pathophysiology of ischemia-reperfusion injury.
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PMID:Metabolism of extracellular adenine nucleotides by human endothelial cells exposed to reactive oxygen metabolites. 844 61

Cortical levels of nucleotides and their degradation products from 42 transplanted human kidneys have been studied. Biopsies were performed during renal harvesting just before cooling, at the end of cold storage, and following reinstallment of renal blood circulation. ATP levels fell, and AMP and degradation products (inosine monophosphate [IMP], inosine, adenosine, and hypoxanthine) increased during cold storage and returned to near-normal values 30 min after recirculation. The major degradation product found was hypoxanthine, indicating very poor xanthine oxidase activity in human kidneys. The sum of adenine nucleotides (ATP+ADP+AMP) did not significantly decrease after cold storage, but adenylate energy charge (ATP+1/2ADP/ATP+ADP+AMP) was reduced to half, being recovered in implanted kidneys. The sum of adenine nucleotides was significantly reduced after implantation. The rate of acute tubular necrosis was higher in kidneys preserved for more than 30 hr. Kidneys with acute tubular necrosis had significantly lower levels of the total pool of adenine nucleotides at reperfusion, but there was no correlation between incidence of acute tubular necrosis and ATP or other metabolite levels in the kidneys before or during cold preservation. The success of human kidney transplantation does not seem to depend only on the pool of residual nucleotides at the end of cold storage but on other factors that determine the ability of the cell to recover a normal energy state after reperfusion.
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PMID:Assessment of purine metabolism in human renal transplantation. 847 44

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