Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The metabolic fate of labeled hypoxanthine and inosine, degradation products of adenine nucleotides, was studied in cultured beating cardiomyocytes, in order to assess the physiological significance of their contribution to salvage nucleotide synthesis in the heart. Inosine and hypoxanthine were found to be incorporated into nucleotides by a similar rate, but in the presence of 8-aminoguanosine, a potent inhibitor of purine nucleoside phosphorylase (EC 2.4.2.1), the rate of inosine incorporation into nucleotides was markedly reduced (by 75%), indicating that inosine incorporation to IMP (inosinic acid) occurs following its degradation to hypoxanthine. The proportion of hypoxanthine converted to IMP by hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8) is markedly greater than that degraded to xanthine and uric acid by xanthine oxidase (EC 1.3.2.3). However, close to 50% of the IMP formed was degraded to inosine by IMP 5'-nucleotidase (EC 3.1.3.5). The results demonstrate the activity of the following futile cycle in the cardiomyocytes: hypoxanthine----IMP----inosine----hypoxanthine. The rational for the activity of this energy consuming cycle is yet unclear.
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PMID:Metabolic fate of hypoxanthine and inosine in cultured cardiomyocytes. 158 1

Adenosine and adenine nucleotides shorten the action potential duration of atrial myocytes and activate a specific acetylcholine and adenosine receptor-operated potassium outward current referred to as IKACh,Ado. The objective of this study was to determine whether adenine nucleotides shorten the action potential duration and increase IKACh,Ado in guinea pig atrial myocytes by directly activating adenosine receptors. The potency and efficacy of AMP and adenosine in increasing IKACh,Ado and shortening atrial action potential duration were similar; the EC50 values for AMP and adenosine were 3.4 +/- 0.8 and 3.1 +/- 0.4 microM, respectively. Likewise, the maximum increases in IKACh,Ado caused by AMP and adenosine were similar (122 +/- 11% versus 123 +/- 9%). In comparison, ATP and the stable analogue of AMP, adenosine monophosphorothioate (AMPS), were significantly less potent and efficacious than adenosine and AMP, and adenosine receptor antagonist 8-(p-sulfophenyl)theophylline and abolished in the presence of adenosine deaminase and alpha, beta-methylene-ADP (APCP, an inhibitor of AMP degradation). Binding of the A1-adenosine antagonist [3H]8-cyclopentyl-1,3-dipropylxanthine (DPCPX) to guinea pig atrial membranes treated with adenosine deaminase and APCP was reduced up to 60% by 100 microM concentrations of AMP, AMPS, and adenosine. Inosine inhibited binding by 43 +/- 3% at 100 microM, whereas hypoxanthine and xanthine had little (5-10% inhibition) and uric acid had no effect. Only 3% of AMP and 35% of AMPS were recovered intact after a 90-minute incubation at 21 degrees C with preparations of guinea pig atrial membranes. Percent displacement of [3H]DPCPX binding to atrial membranes by 100 microM AMP was significantly less in the presence of nucleoside phosphorylase and xanthine oxidase (to degrade inosine, hypoxanthine, and xanthine to uric acid) than in their absence (12.4 +/- 3.1% versus 49.7 +/- 1.5%). The results suggest that the observed electrophysiological actions of adenine nucleotides in cardiomyocytes are mediated by adenosine and are consistent with activation of A1-adenosine receptors.
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PMID:Electrophysiological and receptor binding studies to assess activation of the cardiac adenosine receptor by adenine nucleotides. 200 6

Coformycin, which is an inhibitor of adenosine deaminase, significantly inhibited in vitro blastogenic responses of human lymphocytes to both phytohaemagglutinin (PHA) and pokeweed mitogen (PWM), whereas blastogenic responses to bacterial lipopolysaccharide (LPS) were rather enhanced by the addition of coformycin. Blastogenic responses of lymphocytes to PHA and PWM were markedly suppressed by the addition of adenosine, which is a substrate of adenosine deaminase. Allopurinol, which is an inhibitor of xanthine oxidase, inhibited blastogenic responses of human lymphocytes to PHA, PWM, and bacterial LPS. Inosine (a substrate of purine nucleoside phosphorylase) and hypoxanthine (a substrate of xanthine oxidase) showed no or only a small effect on blastogenic responses of human lymphocytes. These results suggest that adenosine deaminase activity is associated with the T-cell response but not with the B-cell response and that the impaired T-cell response in adenosine deaminase deficiency is the result of intracellular retention of adenosine in T cells. The results also suggest that purine nucleoside phosphorylase or xanthine oxidase activity is associated with both T- and B-cell responses.
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PMID:Purine metabolic enzymes in lymphocytes. IV. Effects of enzyme inhibitors and enzyme substrates on the blastogenic responses of human lymphocytes. 392 75

We describe a one-step kinetic method for the determination of 5'-nucleotidase (EC 3.1.3.5). Inosine is formed by the hydrolysis of inosine 5'-monophosphate which is catalyzed by seric 5'-nucleotidase, and then is converted to hypoxanthine by nucleoside phosphorylase. Two moles of hydrogen peroxide are formed for each mole of hypoxanthine oxidized to urate by xanthine oxidase. The rate formation of hydrogen peroxide is monitored at 510 nm using the oxidation of the chromogenic system 3,5-dichloro-2-hydroxybenzenesulfonic acid/4-aminophenazone in the presence of peroxidase. beta-Glycerophosphate inhibits the unspecific cleavage of the substrate by alkaline phosphatases. Inorganic phosphate is added to improve the reagent stability, and ferrocyanide to reduce bilirubin interference. Automation of the technique requiring 20 microliter of serum on a centrifugal analyzer is also described.
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PMID:A one-step determination of serum 5'-nucleotidase using a centrifugal analyzer. 627 35

1. The absorption and metabolism of purine nucleosides and their constituent bases has been investigated by perfusion through the lumen of isolated loops of rat jejunum. In control perfusions and those with luminal purines or purine nucleosides, high-performance liquid chromatography (HPLC) revealed uric acid as the only detectable purine in the mucosal epithelial layer and the serosal secretions unless the xanthine oxidase inhibitor allopurinol was present. 2. Adenosine (0.5 mM) was quantitatively deaminated to inosine in the lumen after perfusion for 30 min. 3. Luminal inosine and hypoxanthine (0.15-1.0 mM) increased the serosal uric acid concentration significantly (P < 0.001); at 0.5 and 1.0 mM the nucleoside gave a significantly greater (P < 0.01) rate of serosal uric acid appearance than the base. 4. Luminal guanosine (0.05-0.50 mM) and guanine (0.05-0.15 mM) increased the serosal uric acid concentration significantly (P < 0.001); with 0.15 mM nucleoside the serosal uric acid appeared significantly faster (P < 0.01) than it did from the base. 5. Luminal allopurinol (0.3 mM) inhibited xanthine oxidase by 80% and reduced serosal purine appearance significantly (P < 0.01) from luminal guanine, hypoxanthine and inosine. With allopurinol, guanosine (0.1 and 0.15 mM) and inosine (0.1-1.0 mM) gave significantly higher (P < 0.01) total serosal purine concentrations than their respective bases. 6. Inosine and guanosine were cleaved to their respective bases plus ribose phosphate by the action of a cytoplasmic nucleoside phosphorylase, which was found to have widely different Michaelis constants (Km; 318 +/- 45 and 41.4 +/- 3.6 microM for inosine and guanosine, respectively) and maximum velocities (Vmax; 79.3 +/- 4.0 and 20.5 +/- 0.05 mumol min-1 (mg protein)-1 for inosine and guanosine, respectively). 7. We conclude that hypoxanthine and guanine absorbed by rat small intestine are oxidized to uric acid which is released in the serosa. The corresponding nucleosides are split by phosphorolysis after absorption and the resulting purine bases are converted to uric acid which appears on the serosal side with similar quantities of ribose phosphate.
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PMID:Purine nucleoside transport and metabolism in isolated rat jejunum. 825 12

Purine efflux from transplanted human cardiac allografts was investigated as a potential biochemical correlate to graft preservation and eventual function. Coronary sinus effluent from 14 allografts was sampled at 1, 5, 10, 15, 20, and 25 minutes after reperfusion. The plasma fraction from each sample was analyzed for hypoxanthine, xanthine, urate, inosine, and adenosine by high-performance liquid chromatography. Total organ preservation time, aortic crossclamp and bypass times, and initial cardiac index off bypass were recorded. An inotropic score was calculated from the dosages of inotropic agents each recipient required immediately after transplantation. Inosine and adenosine were not detectable in the coronary sinus effluent at any time during reperfusion. Hypoxanthine concentration rose sevenfold (p < 0.001) 1 minute after reperfusion. Xanthine concentration peaked later at 5 minutes after reperfusion, a twofold increase (p < 0.02). As reperfusion continued, hypoxanthine and xanthine concentrations returned toward baseline levels. The rise in coronary sinus xanthine concentration provides evidence for hypoxanthine degradation by xanthine oxidase during the immediate reperfusion period. The extent of hypoxanthine efflux correlated with total graft ischemic time (p < 0.05), inotropic score (p < 0.005), and the time from crossclamp release to cessation of bypass (p < 0.01). Hypoxanthine efflux can be used as a sensitive and objective biochemical indicator of graft preservation and immediate function.
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PMID:Purine efflux from transplanted human cardiac allografts. Correlation with graft function. 830 67

A new kinetic method for the determination of serum adenosine deaminase (EC 3.5.4.4) is described, with adenosine as the substrate and nucleoside phosphorylase and xanthine oxidase as the reaction enzymes. Inosine is produced, which is converted to hypoxanthine. The hypoxanthine is oxidized to xanthine, which is further oxidized to uric acid. In these two reactions, blue 2,6-dichlorophenolindophenol is reduced to a colorless compound and the decrease in color is measured spectrophotometrically at 606 nm. The assay was automated by using a Cobas Mira analyzer. The automated assay had a CV of < 7%, and the calibration curve was linear from 10 to 120 U/L. The assay correlates well with an established method, based on detection of liberated NH3 with Berthelot's reaction. The reference interval (mean +/- 2 SD) was 14-34 U/L (mean 24 U/L, n = 84). The enzymatic method described is easily automated and seems to be suitable for the routine determination of adenosine deaminase in serum.
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PMID:Kinetic determination of serum adenosine deaminase. 840 5

Inosine deriving from the metabolism of adenosine or inosine monophosphate (IMP) in the fibroblast provides the substrate for xanthine oxidase and is, therefore, an important source of toxic oxygen free radicals. With well-oxygenated medium, adenosine release appears to be greater for aged than young fibroblasts. In that the adenosine release by young cells is enhanced by reduced oxygenation, the effect anoxic stress on the release of the purine nucleosides adenosine and inosine by low-passage (PDL 23-26; young) vs. high-passage (PDL 43-51; aged) human lung fibroblasts (IMR-90) was studied. Cultures of confluent fibroblasts were incubated for 16 hr under normoxic (NF) or anoxic (AF) atmospheres. The release of adenosine and inosine was determined by HPLC at 0, 3, 6 and 24 hr after termination of the 16-hr period. Immediately following anoxia (time 0), adenosine release by young AF was 29% greater than for young NF, whereas both the youn
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PMID:Anoxia-induced changes in purine nucleoside metabolism of in vitro aged human fibroblasts. 1188 13

A simple and rapid procedure for the determination of fish freshness was developed and applied to the determination of the K(1) parameter (freshness indicator): K(1) = ([HXR] + [HX])/([IMP] + [HXR] + [HX]) x 100, where [IMP], [HXR] and [HX] are inosine monophosphate, inosine and hypoxanthine concentrations, respectively. A platinum electrode is used to detect hydrogen peroxide produced by the enzymatic reaction catalysed by xanthine oxidase immobilised on the electrode surface. The determination of inosine and inosine monophosphate was performed by the addition of nucleoside phosphorylase, 5'-nucleotidase or alkaline phosphatase to the buffer solution. Parameters such as type of buffer, amount of enzymes and sample treatment were optimised. With this procedure a linear response was obtained in the concentration range 1 x 10(-6)-2 x 10(-5)mol 1(-1) for hypoxanthine, inosine and inosine monophosphate. The detection limit was 5 x 10(-7) mol 1(-1).
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PMID:Enzyme sensors for determination of fish freshness. 1896 89

Carbon-based screen-printed electrodes are suitable for uric acid detection. Xanthine oxidase (XO) was immobilized either directly on the surface of the electrode or in a reactor with CPG aminopropylsilane in a FIA assembly. Higher reproducibility and lifetime was obtained with the reactor. Optimum conditions were found for the determination of Hypoxanthine (Hx), Inosine (HxR) and Inosine monophosphate (IMP). Calibration curves for IMP, HxR and Hx are linear up to 50 muM with detection limit of 1 muM for 50 mul injection. One assay is completed within 30 s. The reproducibility of 20 muM of Hx was obtained with CV 2%.
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PMID:Amperometric detection of uric acid and hypoxanthine with Xanthine oxidase immobilized and carbon based screen-printed electrode. Application for fish freshness determination. 1896 65


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