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 effects of arachidonic acid and its metabolites on gamma-aminobutyric acid (GABAA) receptor function were determined in rat cerebral cortical synaptoneurosomes. Incubation of synaptoneurosomes with phospholipase A2 decreased muscimol-induced 36Cl- uptake. Arachidonic acid, the major unsaturated fatty acid released by phospholipase A2, also inhibited muscimol-induced 36Cl uptake. Similar inhibition was obtained with other unsaturated fatty acids (docosahexaenoic, oleic) but not with saturated fatty acids (stearic, palmitic). The effect of arachidonic acid on muscimol responses was inhibited by bovine serum albumin (BSA), and BSA enhanced muscimol responses directly, indicating the generation of endogenous arachidonic acid in the synaptoneurosome preparation. The generation of endogenous arachidonic acid was also indicated by the ability of 2 inhibitors of arachidonic acid metabolism, indomethacin and nordihydroguaiaretic acid (NDGA), to inhibit muscimol-induced 36Cl uptake. We conclude that arachidonic acid probably has both direct and indirect actions on muscimol responses since both enzyme inhibitors inhibited muscimol responses but did not prevent the effect of exogenously added arachidonic acid. In additional experiments, arachidonic acid metabolites generated by cyclooxygenase, prostaglandins D2, E2 and F2 alpha, each decreased muscimol responses; prostaglandins F2 alpha was the most potent inhibitor. Since the unsaturated fatty acids and their metabolites are most susceptible to peroxidation, a generating system of superoxide radicals was tested on muscimol responses. A combination of xanthine and xanthine oxidase inhibited muscimol-induced 36Cl uptake in a concentration-dependent manner. We propose that the inhibition of GABAA neurotransmission by arachidonic acid and its metabolites can lead to increased neuronal excitability. This mechanism may play an important role in the development of neuronal damage following seizures or cerebral ischemia.
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PMID:Inhibition of GABA-gated chloride channel function by arachidonic acid. 132 73

The pharmacokinetics of antiepileptic drugs may be altered during pregnancy, resulting in decline of serum concentrations and subsequent suboptimal control of seizures. We investigated changes which may occur during pregnancy in hepatic drug handling by comparing metabolic ratios of 15 pregnant epileptic women to 15 nonpregnant epileptic women, as well as 10 pregnant nonepileptic and 10 nonpregnant nonepileptic controls. We used the caffeine test to describe several enzyme activities: P450 1A2, xanthine oxidase, n-acetyltransferase and hydroxylation. For this end, ratios were calculated among a number of metabolites of the main demethylation pathway of caffeine. In addition, we measured D-glucaric acid excretion for specific characterization of antiepileptic drug metabolism. Paired comparison of epileptic women in late pregnancy and six to eight weeks post partum revealed statistically significant decreases in P450 1A2, xanthine oxidase and n-acetyltransferase activities, and a significantly increased hydroxylation activity during pregnancy. Twenty-one of the 30 epileptic women (70%) were found to be fast acetylators, whereas the normal distribution in the nonepileptic control groups was 50%. Excretion of D-glucaric acid was significantly increased in all epileptic patient groups as compared to the matched nonepileptic control groups. Importantly, it was also significantly increased in the pregnant nonepileptic control group as compared to the nonpregnant nonepileptic women. Overall, our results suggest that enzymatic pathways involved in antiepileptic drug metabolism tend to be increased during pregnancy as a potential cause for observed lower serum concentrations of these drugs.
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PMID:Pregnancy-induced changes in drug metabolism in epileptic women. 203 16

Increased urinary excretion of xanthine, hypoxanthine, sulphite, thiosulphate and decreased serum uric acid were observed in an infant with profound failure to thrive. Other clinical findings included refractory seizures, spastic quadriplegia and profound psychomotor retardation. The patient died at 20 months of age. There were no detectable activities for xanthine oxidase and sulphite oxidase in the postmortem liver. Urothione, which is the metabolic excretory product of the molybdenum cofactor for molybdoenzymes was not present in the urine. A deficiency of the molybdenum cofactor which is common to both xanthine and sulphite oxidase is presumed to be the metabolic defect responsible for the absent activities of both enzymes.
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PMID:Combined xanthine and sulphite oxidase defect due to a deficiency of molybdenum cofactor. 310 71

The administration of tungsten to rats maintained on a low molybdenum diet resulted in a dose- and time-dependent loss of sulfite oxidase (EC 1.8.3.1) and xanthine oxidase (EC 1.2.3.2) activities and hepatic molybdenum. These tungsten-treated animals appeared healthy, but were more susceptible to bisulfite toxicity. The median lethal dose for intraperitoneal bisulfite was found to be 181 mg of NaHSO(3) per kg for the animals deficient in sulfite oxidase, compared to 473 mg/kg for normal rats. The survival time of rats exposed to SO(2) at concentrations of 590 ppm and higher was seen to be inversely related to the level of SO(2). At 590 ppm and 925 ppm, control animals displayed symptoms of severe respiratory toxicity before death. At 2350 ppm of SO(2), death was preceded by seizures and prostration, symptoms observed with the systemic toxicity of injected bisulfite. At 590 ppm, animals deficient in sulfite oxidase were indistinguishable from control animals. However, at 925 ppm and 2350 ppm, the deficient animals displayed symptoms of systemic toxicity and had much shorter survival times. It is concluded that sulfite oxidase is instrumental in counteracting the toxic systemic effects of bisulfite, either injected or derived from respired SO(2). Respiratory death probably results from the toxicity of gaseous SO(2) before absorption as bisulfite and cannot be alleviated by sulfite oxidase. Sulfite oxidase does not appear to be inducible by either bisulfite or SO(2).
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PMID:Molecular basis of the biological function of molybdenum: the relationship between sulfite oxidase and the acute toxicity of bisulfite and SO2. 451 54

Prolonged exposure to hyperbaric oxygen causes central nervous system (CNS) oxygen toxicity manifested by grand mal seizures. The superoxide anion is believed to be a cause of tissue damage in CNS oxygen toxicity and it is proposed that xanthine oxidase activity is one of the prime sources of superoxide. Groups of mice were given equivalent doses of allopurinol, hypoxanthine, or saline, and exposed to five atmospheres absolute of oxygen. It was proposed that allopurinol, a xanthine oxidase inhibitor, would decrease the rate of superoxide formation thus delaying the onset of oxygen-induced seizures. It was further proposed that hypoxanthine would increase the rate of superoxide formation decreasing the preconvulsive latency. The data indicated that neither allopurinol nor hypoxanthine altered susceptibility to the CNS manifestations of oxygen toxicity. The results do not support the theory that xanthine oxidase is a prime source of superoxide anions in mouse brain.
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PMID:The effect of allopurinol on oxygen-induced seizures in mice. 609 64

The effect of piperonyl butoxide or allopurinol on cyanide-induced lipid peroxidation was investigated using homogenates from whole brain of mice. The brain homogenate exposed to a low concentration of potassium cyanide (10, 50, or 100 microM) was significantly increased in their concentration of malondialdehyde (MDA) + 4-hydroxyalkenals (4-MDA) as compared to control samples, in a concentration-dependent manner. The increased lipid peroxidation induced by cyanide was inhibited by piperonyl butoxide (1 mM), an inhibitor of mixed function oxidase, but not by allopurinol (0.1 mM), an inhibitor of xanthine oxidase. Furthermore, when a brain homogenate heated at 86 degrees C for 1 min was incubated with or without cyanide at 37 degrees C for 20 min, MDA + 4-MDA levels in the homogenate were not changed between cyanide treatment and untreated. An intraperitoneal injection of piperonyl butoxide (1 g/kg) significantly inhibited cyanide-induced seizures in mice. These results suggest that cyanide-induced seizures may be partly involved in the lipid peroxidation produced by the heat unstable and piperonyl butoxide dependent factors in brain.
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PMID:Effect of piperonyl butoxide or allopurinol on cyanide-induced lipid peroxidation in mouse brain. 960 19

Cerebral hypoxia in the fetus and newborn results in neonatal morbidity and mortality as well as long-term sequelae such as mental retardation, seizure disorders, and cerebral palsy. In the developing brain, determinants of susceptibility to hypoxia should include the lipid composition of the brain cell membrane, the rate of lipid peroxidation, the presence of antioxidant defenses, and the development and modulation of excitatory amino acid neurotransmitter receptors such as the N-methyl-D-aspartate (NMDA) receptor, the intracellular Ca2+, and the intranuclear Ca(2+)-dependent mechanisms. In addition to the developmental status of these cellular components, the response of these potential mechanisms to hypoxia determines the fate of the hypoxic brain cell in the developing brain. Using electron spin resonance spectroscopy of alpha-phenyl-N-tert-butyl-nitrone spin adducts, studies from our laboratory demonstrated that tissue hypoxia results in increased free radical generation in the cortex of fetal guinea pigs and newborn piglets. Pretreatment with MgSO4 significantly decreased the hypoxia-induced increase in free radical generation in the term fetal brain. We also showed that brain tissue hypoxia modifies the NMDA receptor ion-channel recognition and modulatory sites. Furthermore, a higher increase in NMDA receptor agonist-dependent Ca2+ in synaptosomes was demonstrated. The increase in intracellular Ca2+ may activate several enzymatic pathways such as phospholipase A2 and metabolism of archidonic acid by cyclooxygenase and lipoxygenase, conversion of xanthine dehydrogenase to xanthine oxidase by proteases, and activation of nitric oxide synthase. Using inhibitors of each of these enzymes such as cyclooxygenase (indomethacin), lipoxygenase (nordihydroguaiaretic acid), xanthine oxidase (allopurinol), and nitric oxide synthase (N-nitro-L-arginine), studies have shown that these enzyme reactions result in oxygen free radical generation, membrane peroxidation, and cell membrane dysfunction in the hypoxic brain. Specifically, generation of nitric oxide free radicals during hypoxia may lead to nitration and nitrosylation of specific membrane proteins and receptors, resulting in dysfunction of receptors and enzymes. We conclude that hypoxia-induced modification of the NMDA receptor leading to increased intracellular Ca2+ results in free radical generation and cell injury. We suggest that during hypoxia the increased intracellular Ca2+ may lead to increased intranuclear Ca2+ concentration and alter nuclear events including transcription of specific apoptotic genes and activation of endonucleases, resulting in programmed cell death.
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PMID:Mechanisms of perinatal cerebral injury in fetus and newborn. 1081 2

We have recently reported that the nitric oxide (NO) donor, sodium nitroprusside (SNP), induces seizures which are associated with an increase in the basal release of aspartate and glutamate from rat hippocampus (Kaku et al., 1998). In order to determine whether taurine release occurs with SNP-induced seizures, we examined the effects of NO-related compounds, i.e., the NO trapper, diethyldithiocarbamate (DETC), the superoxide radical scavenger, dithiothreitol (DTT), the xanthine oxidase inhibitor, oxypurinol and the guanylyl cyclase inhibitor, 1H-(1,2,4)oxadiazole(4,3-a)quinoxalin-1-one (ODQ), on SNP-induced seizures and in vivo taurine release from rat hippocampus using microdialysis. Perfusion with 0.5mM SNP provoked seizures and significantly increased taurine release, with the increase in release occurring primarily during reperfusion with artificial cerebrospinal fluid lacking SNP. Perfusion with 5mM DETC significantly abolished the SNP-induced seizures and reduced taurine release during and after perfusion with the drugs. Perfusion with 1mM DTT significantly reduced both the frequency of the SNP-induced seizures and taurine release during and after perfusion with the drugs. Perfusion with 1 mM oxypurinol or 0.5 mM ODQ did not reduce the frequency of the SNP-induced seizures, but tended to decrease taurine release during and after perfusion with the drugs. These results demonstrate that SNP-induced seizures are triggered by an increase in both NO and peroxynitrite and are related to an increase in taurine release from rat hippocampus.
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PMID:Sodium nitroprusside-induced seizure and taurine release from rat hippocampus. 1114 Mar 58

Allopurinol, an inhibitor of xanthine oxidase, is indicated in the management of patients with elevated serum and urinary uric acid levels. It was also reported to be beneficial in patients with epilepsy when added to traditional antiepileptic drug. Here, we investigated the effect of allopurinol upon the electrical seizure threshold and its effect on the protective efficacy of common antiepileptic drugs, carbamazepine (CBZ) and valproate (VPA) against maximal electroshock (MES)-induced convulsions in mice. We found that allopurinol administered at doses of 5, 15 or 45 mg/kg, did not affect electrical seizure threshold. When administered acutely or for a prolonged period of time (5 times every 24 h), it did not affect anticonvulsant activity of CBZ and VPAin MES. Free plasma concentration of both anticonvulsants was not affected by allopurinol given at a dose of 45 mg/kg for 5 days. Thus, our results did not support suggestions that allopurinol can be beneficial as add-on drug in the management of epilepsy at least in patients treated with CBZ or VPA.
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PMID:Allopurinol does not affect the anticonvulsant activity of carbamazepine and valproate in maximal electroshock-induced convulsions in mice. 1504 79

The role of oxygen-derived free radicals has been suggested in genesis of epilepsy and in the post seizure neuronal death. The aim of this study was to investigate whether erdosteine has a preventive effect against epilepsy and postepileptic oxidative stress. The mice (n=27) were divided into three groups: (i) PTZ-induced-epilepsy group (n=9); (ii) PTZ-induced-epilepsy+erdosteine group (n=9); (iii) control group (n=9). The animals were observed for a period of 30 min for latency to first seizure onset, total seizure duration, the number of seizure episodes. Then they were sacrificed and the brains were quickly removed, and frozen for biochemical analysis. Malondialdehyde (MDA), nitric oxide (NO), superoxide dismutase (SOD) and xanthine oxidase (XO) activities were carried out in the brain tissue. The latent period between PTZ induction and seizure are longer in the PTZ+erdosteine group than in PTZ-induced-epilepsy group (P<0.05). Biochemical analyses of brain tissue, revealed a significant increase in the MDA, XO and NO levels in the PTZ group according to erdosteine group. SOD level did not change in this group. While MDA and XO levels are significantly lower, SOD level is significantly higher in the PTZ+erdosteine group compared to PTZ and control groups (P<0.01). The present study demonstrated that erdosteine treatment both may increase latent interval between seizures and may decrease oxidative stress, thus may ameliorate neuronal death in brain during seizures. It may be used as an adjunct therapy in epilepsy.
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PMID:Erdosteine ameliorates PTZ-induced oxidative stress in mice seizure model. 1586 21


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