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 contribution of toxic O2 metabolites to cerebral ischemia reperfusion injury has not been determined. We found that gerbils subjected to temporary unilateral carotid artery occlusion (ischemia) consistently developed neurologic deficits during ischemia with severities that correlated with increasing degrees of brain edema and brain H2O2 levels after reperfusion. In contrast, gerbils treated just before reperfusion (after ischemia) with dimethylthiourea (DMTU), but not urea, had decreased brain edema and brain H2O2 levels. In addition, gerbils fed a tungsten-rich diet for 4, 5, or 6 wk developed progressive decreases in brain xanthine oxidase (XO) and brain XO + xanthine dehydrogenase (XD) activities, brain edema, and brain H2O2 levels after temporary unilateral carotid artery occlusion and reperfusion. In contrast to tungsten-treated gerbils, allopurinol-treated gerbils did not have statistically significant decreases in brain XO or XO + XD levels, and reduced brain edema and brain H2O2 levels occurred only in gerbils developing mild but not severe neurologic deficits during ischemia. Finally, gerbils treated with DMTU or tungsten all survived, while greater than 60% of gerbils treated with urea, allopurinol, or saline died by 48 h after temporary unilateral carotid artery occlusion and reperfusion. Our findings indicate that H2O2 from XO contributes to reperfusion-induced edema in brains subjected to temporary ischemia.
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PMID:Xanthine oxidase-derived hydrogen peroxide contributes to ischemia reperfusion-induced edema in gerbil brains. 313 Mar 95

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

Respiratory activity of isolated rat brain mitochondria was measured following in vitro exposure to oxygen radicals. The radicals were generated by hypoxanthine and xanthine oxidase in the presence of a suitable iron chelate and caused a severe inhibition of respiration stimulated by phosphate plus ADP (with malate + glutamate as substrate). The damage could be prevented by catalase or high concentrations of mannitol, but not by superoxide dismutase. A similar effect was observed when hypoxanthine and xanthine oxidase were replaced by glucose and glucose oxidase or by hydrogen peroxide. Most of the findings indicate that the hydroxyl radical is the damaging agent. It is concluded that brain mitochondria exposed to oxygen radicals in vitro show an inhibition of respiratory activity similar to that reported by other investigators as occurring in mitochondria in vivo following transient cerebral ischemia. Therefore, oxygen radicals may contribute to this type of cell damage.
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PMID:Respiratory activity of isolated rat brain mitochondria following in vitro exposure to oxygen radicals. 684 68

Oxygen-based free radicals have been shown to play a major role in the acute destruction of neurons following cerebral ischemia and may be involved in the chronic neurodegeneration seen in Parkinson's disease, Alzheimer's disease, and other conditions characterized by the progressive death of neurons in the central nervous system. Drugs belonging to a group of antioxidant compounds, collectively known as the lazaroids, have strong neuroprotective effects in experimental models of acute ischemia. However, the specific mechanisms by which these drugs reduce the harmful actions of free radicals have not been established. Using electron paramagnetic resonance (EPR) spectroscopy with spin trapping, we investigated the interaction of U-74500A, a first-generation lazaroid, and U-78517F, a second-generation lazaroid, with two species of oxygen-based free radicals in aqueous solution and with the stable nitrogen-based free radical diphenylpicrylhydrazyl in dimethyl sulfoxide. Superoxide radicals were generated by the action of xanthine oxidase on hypoxanthine. Hydroxyl radicals were generated by the Fenton reaction involving aqueous ferrous iron and hydrogen peroxide. Both lazaroids reduce the EPR signal of all three radicals, but the drugs differ in potency and relative radical selectivity. These observations are consistent with the lazaroids being scavengers of oxygen-based and nitrogen-based free radicals and suggest that the neuroprotective actions of the lazaroids in cerebral ischemia may involve direct interactions of the lazaroids with several different species of free radicals.
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PMID:An in vitro EPR study of the free-radical scavenging actions of the lazaroid antioxidants U-74500A and U-78517F. 763 55

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

Free radical generation and release from the cerebral hemispheres of rats subjected to four-vessel occlusion elicited cerebral ischemia/reperfusion was monitored using a cortical cup technique with the spin-trapping agent alpha-(4-pyridyl-1-oxide)-N-tert-butylnitrone (POBN). Electron spin resonance (ESR) was used to detect the presence of free radical adducts of POBN in the cortical superfusates. Thirty min of ischemia plus reperfusion resulted in the release of .OH radical adducts during ischemia and especially in the initial stages of reperfusion. Pretreatment with the xanthine oxidase inhibitor, amflutizole (30 mg/kg) virtually abolished free radical formation and release. These results are consistent with earlier evidence that xanthine oxidase activity contributes to free radical formation in the ischemic/reperfused rat brain.
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PMID:Amflutizole, a xanthine oxidase inhibitor, inhibits free radical generation in the ischemic/reperfused rat cerebral cortex. 804 80

The coagulation abnormality in patients with Lesch-Nyhan syndrome (LNS) prompted us to examine 6-keto prostaglandin F1 alpha (6-keto PGF1 alpha), a stable metabolite of prostacyclin (PGI2). Plasma levels of 6-keto PGF1 alpha were significantly low in 4 patients with LNS, but they were elevated after discontinuation of allopurinol. Other indicators of coagulation and fibrinolysis systems did not change after the discontinuation of allopurinol. PGI2 prevents the production of superoxide which is formed after cerebral ischemia. The potential source of superoxide is xanthine oxidase which is inhibited by allopurinol. It is assumed that plasma PGI2 increased in response to formed superoxide because xanthine oxidase inhibition was abolished after discontinuation of allopurinol.
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PMID:Decreased 6-keto prostaglandin F1 alpha (6-keto PGF1 alpha) in patients with Lesch-Nyhan syndrome. 827 55

The effects of NBP on concentrations of some purine metabolites in extracellular fluid of rat striatum during global ischemia and reperfusion were studied. Global ischemia was produced by the four-vessel occlusion method. Push-pull cannula was implanted stereotaxically into the striatum of rat and was perfused with Ringer's solution at a flow rate of 2.5 microliters.min-1. The level of adenosine(Ade), inosine(Ino), hypoxanthine(Hyp) and xanthine(Xan) in perfusates were measured with HPLC connected with a UV detector. The results indicate that the levels of ade, ino, hyp and xan were significantly increased (about 3-5 times of initial value) during cerebral ischemia and reperfusion. NBP at the dose of 20 or 40 mg.kg-1 given intra-peritoneally 20 min before ischemia was shown to depress the increase of ade, ino, hyp and xan during ischemia and reperfusion dose dependently. But no change in the level of purine metabolites was found in sham operated rats. It has been known that harmful free radicals were produced when xan and uric acid were formed by xanthine oxidase during reperfusion. This might be important for the development of ischemic injuries. Our findings suggest that the effect of NBP might be beneficial for protection against post-ischemic neuronal damage.
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PMID:[Effect of dl-3-n-butylphthalide (NBP) on purine metabolites in striatum extracellular fluid in four-vessel occlusion rats]. 876 58

Oxygen free radicals, generated by cerebral ischemia, have been widely implicated in the damage of vascular endothelium. Endothelial cells have been proposed as a significant source of oxygen free radicals. In the present study, we developed an anoxia-reoxygenation (AX/RO) model using pure cultures of cerebral endothelial cells (CECs) isolated from piglet cortex to measure CEC oxygen free radical production and determine its role in AX/RO-induced CEC injury. CEC injury, as measured by lactate dehydrogenase efflux into the culture medium, increased progressively with the duration of anoxic exposure, becoming significant after 10 h. Reoxygenation significantly increased CEC anoxic injury in a time-dependent manner. A 55% increase in oxygen free radical production, determined by fluorescence detection of dihydroethidium oxidation, was measured at the end of 4-h reoxygenation in CECs subjected to AX/RO conditions that killed 40% of the cells. Blockade of oxygen free radical production with superoxide dismutase (SOD; 250 and 1000 U/ml) or oxypurinol (50 and 200 microM), a potent xanthine oxidase inhibitor, reduced this injury by 32-36% and 30-39%, respectively. Results from our in vitro model indicate that CECs produce significant amounts of oxygen free radicals following ischemia, primarily from the xanthine oxidase pathway. These radicals ultimately have a cytotoxic effect on the very cells that produced them. Thus, reductions in oxygen free radical-mediated vascular injury may contribute to improvements in neurophysiologic outcome following treatment with oxygen free radical inhibitors and scavengers.
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PMID:Xanthine oxidase-derived superoxide causes reoxygenation injury of ischemic cerebral endothelial cells. 955 65

Cerebral ischemia followed by oxygen reperfusion induces apoptosis in hippocampal neurons in stroke-prone spontaneously hypertensive rats (SHRSP) but not in Wistar Kyoto rats (WKY). The overproduction of oxygen-free radicals that occurs in the tissues of SHRSP is implicated in reoxygenation injury after hypoxia. Antioxidants inhibit reoxygenation injury in hippocampal slices, and temporal cortices in Alzheimer's disease increase sensitivity to oxygen-free radicals. Because this sensitivity may contribute to the development of the disease, we have studied hypoxia and oxygen reperfusion using cortical neurons isolated from WKY and SHRSP (at 15 days of gestation). We have tried to determine whether cortical neurons are damaged under these conditions, and whether neurons from SHRSP are more vulnerable than those from WKY. We have tried also to verify whether neuronal damage is minimized by vitamin E using the following techniques: (a) Trypan blue staining, (b) in situ staining of apoptosis, (c) ultrastructural examination, and (d) measurement of lactic dehydrogenase (LDH) activity in the bathing medium. Furthermore, we have examined the mechanisms involved in the development of neuronal damage and have studied ways of minimizing it. We demonstrated that 36 hours of hypoxia significantly increased the rate of cell death in SHRSP (p < 0.01), although 12 to 24 hours of hypoxia did not increase cell death in either WKY or SHRSP. In addition, 6 to 36 hours of hypoxia and 1.5 to 5 hours of oxygen reperfusion heavily damaged cells of both WKY and SHRSP, and most became apoptotic or necrotic. In contrast, cells incubated with 50 to 300 microg/ml of vitamin E remained intact, although 10 to 20 microg/ml of vitamin E did not totally preserve the cells. Moreover, vitamin E protected the neurons from high concentrations of sodium nitroprusside (nitric oxide donor) in a dose-dependent manner. Vitamin E, when added to the cells, increased in concentration in a time-dependent manner over a 24-hour period and in a dose-dependent manner below 200 microg/ml, and it was detected mostly in the mitochondria. We also demonstrated that serial treatments with allopurinol (a xanthine oxidase inhibitor) or superoxide dismutase preserved neurons during hypoxia and oxygen reperfusion. These data indicate that SHRSP neurons are weaker than WKY neurons in long-term hypoxia; oxygen radical generation occurs in the early minutes after reperfusion, and then the oxygen-free radicals cause heavy damage to the cells; and antioxidants including vitamin E react with the radicals, thereby preventing apoptosis and necrosis. Therefore, antioxidants appear to be the most important agents in lowering oxygen-free radical damage in cortical neurons.
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PMID:Vitamin E prevents apoptosis in cortical neurons during hypoxia and oxygen reperfusion. 984 Jun 16


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