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)

1. The hypothesis was tested that the renal xanthine oxidase system provides a source of oxygen free radicals in puromycin aminonucleoside and adriamycin experimental nephrosis by generating uric acid from hypoxanthine and xanthine. 2. The concentrations in renal tissue of the putative intermediary products of puromycin aminonucleoside metabolism, hypoxanthine and xanthine, and of their precursors, adenosine and inosine, were lower in rats treated with puromycin aminonucleoside than in normal controls, whereas concentrations of the metabolites were normal after adriamycin intoxication. Their daily urinary excretion was lower in the 24 h after puromycin aminonucleoside administration compared with the baseline values and returned to near normal levels within 5 days. After adriamycin the 24 h urinary excretion of xanthine and uric acid was double the baseline levels (P less than 0.001). 3. When equimolar amounts of hypoxanthine were injected instead of puromycin aminonucleoside, the concentration of all bases increased slightly in renal tissue and their urinary efflux was double the baseline level: allantoin, uric acid, the unmodified nucleotide and xanthine were the most represented compounds in urine. 4. The enzymatic activities relative to xanthine oxidase (EC 1.1.3.22) and xanthine dehydrogenase (EC 1.1.1.204) in renal tissues were unchanged 1 day after puromycin aminonucleoside or hypoxanthine intoxication and only moderately increased in both groups at 13 days (the time of appearance of heavy proteinuria in the puromycin aminonucleoside-treated group). In contrast, xanthine oxidase and xanthine dehydrogenase activities were higher in adriamycin-treated rats at 1 and 15 days after the treatment (P less than 0.001). 5. Feeding rats with normoprotein diets containing tungsten induced a marked and constant decrease of renal xanthine oxidase and xanthine dehydrogenase activities to 20% of the baseline values in both puromycin aminonucleoside- and adriamycin-treated rats. Inhibition of renal xanthine oxidase and xanthine dehydrogenase activities by tungsten was associated with a marked reduction (P less than 0.001) of proteinuria in adriamycin-treated rats and the same occurred with allopurinol, a specific inhibitor of xanthine oxidase activity. In contrast, tungsten treatment did not reduce the proteinuria associated with puromycin aminonucleoside, which reached a maximum 13 days after puromycin aminonucleoside intoxication. Hypoxanthine-treated rats were normoproteinuric after 2 months of observation. 6. These data demonstrate an activation of renal xanthine oxidase and xanthine dehydrogenase after adriamycin intoxication which is relevant to the induction of proteinuria. They also argue against the involvement of the renal xanthine oxidase system as a source of free radicals in puromycin aminonucleoside nephrosis and suggest that the nucleotide cycle is not a normal route for puromycin aminonucleoside degradation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Renal purine efflux and xanthine oxidase activity during experimental nephrosis in rats: difference between puromycin aminonucleoside and adriamycin nephrosis. 215 48

We investigated the effects of superoxide anion on the intracellular free calcium concentration ([Ca2+]i) in human cultured myometrial cells using a calcium-sensitive fluorescent dye, indo-1, and a digital imaging fluorescence microscopic system. Hypoxanthine (HX) plus xanthine oxidase induced a rise in [Ca2+]i in a manner dose-dependent on xanthine oxidase. The increase in [Ca2+]i in the absence of extracellular calcium ([Ca2+]ex) was 10% of that in the presence of [Ca2+]ex. Nifedipine, which blocks voltage-sensitive calcium channels, also reduced the increase in [Ca2+]i induced by HX-xanthine oxidase. Superoxide dismutase or superoxide dismutase plus catalase, which metabolizes superoxide anion, inhibited the effect of HX-xanthine oxidase on [Ca2+]i. The desensitization of the effect of superoxide anion on [Ca2+]i was investigated by pulsatile administration of HX and xanthine oxidase. Desensitization was observed on pulsatile administration of HX-xanthine oxidase at 2-min intervals. These data suggest that superoxide production may participate in uterine contraction via [Ca2+]i increase.
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PMID:Superoxide anion increases intracellular free calcium in human myometrial cells. 217 20

Hypoxanthine is the final product of the catabolism of ATP in the stored red cell. Upon transfusion, this purine may be uptaken by the endothelial cell and oxidized in a post-ischemic or post-anoxic environment with production of oxygen-derived free radicals. We have tested this hypothesis with a isolated perfused rat heart model monitoring the recovery of the heart function from 20 min anoxia in the presence of 0.1 mM hypoxanthine or xanthine. Addition of 0.1 mM guanine minimized the fraction of hypoxanthine to be salvaged. The presence of hypoxanthine in the vascular space impaired the recovery of the end-diastolic pressure, left ventricular developed pressure, contraction rate, and coronary perfusion pressure. We conclude that intravascular hypoxanthine is oxidized by the endothelial cell xanthine oxidase contributing to the post-anoxic reoxygenation injury. Since the injury led by equimolar xanthine was nearly half of that observed for hypoxanthine, this injury appears to be correlated to the stoichiometry of the oxygen-derived free radical generating reaction.
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PMID:Impairment of the post-anoxic recovery of isolated rat hearts by intravascular hypoxanthine and xanthine. 236 53

The effects of a reactive oxygen system on axonal conduction were assessed in an in vitro rat spinal cord preparation. An enzyme system, containing hypoxanthine and xanthine oxidase as a source of superoxide and hydrogen peroxide, was used in combination with ADP and FeCl3 as catalysts for peroxidative activity. The reactants were mixed as they entered a temperature-controlled Plexiglas chamber containing a longitudinal hemisection of adult rat spinal cord. Extracellular action potentials were recorded with a glass microelectrode before, during, and after the exposure. A significant conduction block developed during the 30 min exposure. Action potential amplitude decreased to less than 45% of pre-exposure level while absolute refractory period to paired stimuli increased 160%. Following reintroduction of normal bathing medium, amplitude and absolute refractory period exhibited recovery toward pre-exposure control levels, but did not fully recover. Isolated spinal cord membranes exposed to the same xanthine oxidase system produced significant levels of malondialdehyde (MDA). Superoxide dismutase (SOD), but not catalase, effectively inhibited MDA production. Hypoxanthine, xanthine oxidase, and ADP-Fe3+ were all required to induce conduction block in the spinal cord and peroxidation in the isolated membranes. However, addition of intermediate scavengers, SOD and catalase, alone or in tandem, did not prevent the conduction block. Mechanisms other than radical-induced lipid peroxidation may be working to alter the membrane ionic equilibrium in the cord preparation.
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PMID:In vitro spinal cord conduction block during exposure to a xanthine oxidase/hypoxanthine system: noninvolvement of superoxide and hydrogen peroxide. 254 77

To assess the effects of xanthine oxidase (XO) inhibition on ischemic injury, rats were pretreated with oxypurinol (OXY, 5 mg/kg) and subjected to 30 min of bilateral renal artery occlusion. OXY's effect on adenine nucleotide-nucleoside-purine base concentrations was determined at 10 and 30 min of ischemia and during reperfusion (5 and 30 min). To assess whether XO-mediated oxidant stress influences the severity of ischemic acute renal failure (IARF), the effects of 1) OXY pretreatment and 2) hypoxanthine infusion were assessed. During ischemia OXY inhibited XO activity (more than fourfold rise in hypoxanthine-xanthine ratios) and induced quantitatively trivial but significant increases in ATP and total adenine nucleotide concentrations (by 30 min). Increased OXY dosage (15 mg/kg) or allopurinol (40 mg/kg) had no greater effects. At 5 min of reflow, OXY maintained XO inhibition but did not influence adenine nucleotide levels. By 30 min of reflow, 17-20% increments in ATP-total adenine nucleotides resulted. Nevertheless, OXY did not lessen the severity of IARF (assessed by azotemia-histology at 24 h). Hypoxanthine infusion increased end-ischemic hypoxanthine concentrations by 47%, but it did not change the severity of renal damage. Conclusions include 1) OXY-allopurinol induces intrarenal XO inhibition; 2) XO inhibitors slightly increase late ischemic-reperfusion adenine nucleotide concentrations; and 3) neither XO inhibition nor intrarenal hypoxanthine loading alters the severity of IARF, suggesting that XO-mediated oxidant stress is not a critical, consistent mediator of ischemic renal injury.
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PMID:Effects of xanthine oxidase inhibition on ischemic acute renal failure in the rat. 260 62

Postischemic renal dysfunction (PIRD) is characterized by a reduction in glomerular filtration and tubular reabsorption of solute. The relative contribution of oxygen free radicals (OFRs) generated during reperfusion remains unclear. This study characterized the renal response to OFRs--independent of an ischemic insult. Isolated rat kidneys were perfused at 37 degrees C and 90-100 mm Hg with a modified Krebs' buffer. Hypoxanthine (25 mumole) and xanthine oxidase (1 unit) were combined and infused proximal to the kidney. There was a 50% increase in vascular resistance. This was accompanied by a 30% reduction in perfusate flow rate and a 70% reduction in glomerular filtration rate. There was also a significant reduction in urine flow rate and oxygen consumption. The percentage reabsorption of filtered water and sodium by the renal tubules was not diminished, however. This pattern was not observed when the xanthine oxidase was inactivated or when the perfusate was pretreated with superoxide dismutase (250 units/ml) and catalase (500 units/ml). The generation of OFRs, independent of an ischemic insult, causes a decrease in glomerular filtration out of proportion to the decrease in renal flow similar to that observed with PIRD. OFRs may contribute to the hemodynamic and glomerular alterations seen with PIRD. Factors other than OFRs, probably associated with ischemia, must be responsible for the tubular dysfunction.
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PMID:Oxygen free radical mediated renal dysfunction. 271 9

Xanthine oxidase [EC 1.2.3.2] was purified 2000-fold from human liver. The last step of the procedure involved affinity chromatography. The resulting preparation showed two closely migrating bands of enzyme activity after gel electrophoresis under nondenaturing conditions. No other proteins were detected on these gels. The average particle mass of the enzyme was 300 kDa as determined by size-exclusion chromatography. This together with results of gel electrophoresis under denaturing conditions suggested that the native enzyme was composed of two subunits of approximately 150 kDa each. The electrophoretic patterns also indicated that a portion of these subunits had undergone partial proteolysis. The substrate specificity of the purified human enzyme was studied using an assay in which phenazine ethosulfate coupled the transfer of electrons from the reduced enzyme to cytochrome c. Hypoxanthine, 2-hydroxypurine, xanthine, 2-aminopurine, and adenine were among the most efficient purine substrates studied. Most purine nucleosides tested were oxidized at detectable rates, but with relatively high Km values. The 2'-deoxyribonucleosides were more efficient substrates than were the corresponding ribonucleosides or arabinonucleosides. In a direct comparison with xanthine oxidase from bovine milk, the human enzyme showed a similar specificity toward purine substrates. However, considerable differences between the bovine and human enzymes were observed with nucleoside substrates. With xanthine as the substrate for the human enzyme, 20% of the total electron flow was univalently transferred to oxygen to produce superoxide radicals.
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PMID:Xanthine oxidase from human liver: purification and characterization. 301 Aug 73

The effect of free oxygen radicals on the electrical resistance of brain venular endothelium was studied in anesthetized frogs. The technique allowed continuous recording of the electrical resistance of the vascular wall reflecting its ionic permeability. The oxygen radicals were generated by an enzymatic reaction between xanthine oxidase and hypoxanthine supplied to the surface of the exposed brain. Electrical resistance of the venular endothelium decreased within 1-2 s after the reaction was initiated. Hypoxanthine (1 mM) and xanthine oxidase at a concentration of 10, 25, 50, 100, and 250 mU ml-1 lowered resistance to 1.0, 0.9, 0.8, 0.5 and 0.2 X control value, respectively, within a 3 min period of administration. The effect induced by 25 and 50 mU ml-1 of xanthine oxidase was readily reversible, whereas that induced by the two highest concentrations was irreversible within the observation time. The response was totally blocked by allopurinol as well as by superoxide dismutase plus catalase. Pretreatment with methylprednisolone or BW755C (an inhibitor of cyclo- and lipoxygenase) did not inhibit the response, nor did removal of calcium or magnesium from the extracellular medium. Free oxygen radicals are powerful agents that rapidly induce dynamic changes in the electrical resistance of brain vessels, supporting the notion that they may be important mediators of vascular endothelial damage in the brain.
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PMID:Free oxygen radicals decrease electrical resistance of microvascular endothelium in brain. 310 45

It has been hypothesized that hypoxanthine concentrations in the blood of newborn infants are a marker of asphyxia. To test this hypothesis, we measured serum hypoxanthine levels in relationship to perinatal and neonatal asphyxia, and compared arterial hypoxanthine levels with arterial pH and base deficit. We also compared hypoxanthine levels of survivors with those of asphyxiated non-survivors. Forty-two newborns were classified as asphyxiated by either of two methods: 1) Infants from whom umbilical cord hypoxanthine levels were taken were classified as asphyxiated if they had an Apgar score of 6 or less at 1 or 5 minutes, fetal heart rate below 100 beats per minute, or meconium-stained amniotic fluid; and 2) infants from whom peripheral arterial hypoxanthine samples were taken were classified by clinical assessment, whereby one author, blinded to the infants' hypoxanthine levels, prospectively assessed each patient's condition for evidence of asphyxia. Hypoxanthine levels correlated with increased base deficit (P less than .001; r = 0.8) and with decreased pH (P less than .001; r = -0.5). By both of our asphyxia classification methods, hypoxanthine levels were significantly higher (P less than .002) in the asphyxiated groups. We also noted a higher hypoxanthine level in asphyxiated non-survivors as compared with all survivors (P less than .02). We propose that serum hypoxanthine levels may help define asphyxia. Because hypoxanthine, when metabolized by xanthine oxidase, generates oxygen radicals that are highly destructive to tissue, hypoxanthine levels may have important therapeutic implications for asphyxiated patients.
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PMID:Hypoxanthine: a marker for asphyxia. 314 Jan 52

Cerebral hypoxanthine, xanthine, and uric acid levels were measured by high-performance liquid chromatography (HPLC) for up to 4 hours following focal cerebral ischemia in the rat. Fifty male Sprague-Dawley rats were subjected to occlusion of the left middle cerebral artery under halothane inhalation anesthesia. The animals were sacrificed with microwave at 30, 60, 120, and 240 minutes after surgery. The brains were removed and divided into right and left hemisphere. Each hemisphere was homogenized with perchloric acid and centrifuged. The supernates were filtrated with membrane filter. An aliquot of the filtrate was used for measurement of uric acid, xanthine, and hypoxanthine in both of the ischemic and contralateral hemisphere by a HPLC system. A HPLC with multiple ultraviolet spectroscopy was used for measuring hypoxanthine and xanthine. Identification of hypoxanthine and xanthine was made by parallel chromatography of standards, disappearance with xanthine oxidase, and the spectrum of UV absorption. Uric acid was measured by reversed-phase HPLC with electrochemical detection as reported previously. Hypoxanthine increased rapidly and arrived at a peak value at 60 minutes. Xanthine increased not so rapidly as hypoxanthine and showed the highest value at 120 minutes. Uric acid also increased significantly but very slowly and did not seem to reach the peak value during the observation period. Hypoxanthine is oxidized to xanthine and then xanthine is oxidized to uric acid at the terminal stage of purine degradation. The order of peak times of cerebral hypoxanthine, xanthine, and uric acid levels following cerebral ischemia corresponds to the order in purine metabolism. This result strongly suggests that hypoxanthine is degraded into uric acid in ischemic rat brain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Early changes of oxypurines in rat brain following focal cerebral ischemia]. 317 84

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