Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The alpha 2-antagonist, yohimbine has been shown to dose-dependently induce clonic seizures in mice. The convulsant effects of yohimbine are not due to alpha 2-antagonism, as other alpha 2-antagonists, such as rauwolscine and idazoxan, did not produce seizures at doses up to 100 mg/kg. Since GABAmimetic and excitatory amino acid antagonist agents attenuate yohimbine-induced seizures, the respective contribution of these systems to the production of yohimbine seizures was investigated. The CD50 dose of yohimbine (dose required to produce clonic seizures in 50% of the mice) was determined to be 25.5 mg/kg (s.c.). The CD15 dose of N-methyl-DL-aspartic acid (NMDLA), bicuculline and methyl-6,7-dimethoxy-4 ethyl-beta carboline-3-carboxylate (DMCM) significantly potentiated the convulsant effects of yohimbine, such that the CD50 dose was decreased from 25.5 mg/kg to 1.6, 10.9 and 9.9 mg/kg, respectively. Furthermore, the potentiation in the presence of NMDLA was significantly greater than either bicuculline or DMCM. These results suggest that yohimbine-induced seizures are not only mediated through the impairment of GABAergic transmission but moreover, by a possible endogenous enhancement of excitatory amino acid transmission. In addition, the effects of GABAmimetic agents, competitive and non-competitive NMDA receptor antagonists and strychnine-insensitive glycine receptor antagonists were compared in the yohimbine-, bicuculline- and NMDLA-induced seizure assays.
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PMID:Yohimbine-induced seizures involve NMDA and GABAergic transmission. 132 92

A significant increase in the plasma levels of glutamic acid and a significant decrease in aspartic acid and taurine in epileptic patients and their first degree relatives was reported more than a decade ago and an underlying genetic basis for these amino acid changes was suggested. The main objective of the present study was to determine the plasma levels of glutamic acid, aspartic acid and taurine in El mice which are an inbred epileptic mutant mouse strain. The results show a significant increase in plasma glutamic acid but no changes in aspartic acid or taurine in the epileptic mice as compared to controls. The data provide the first evidence of a significant increase in plasma glutamic acid in an animal model of hereditary epilepsy and substantiate the hypothesis that a genetic defect underlies the elevated plasma glutamic acid levels in association with epilepsy. The findings are also compatible with neurochemical and neurophysiological evidence implicating glutamic acid in the mechanism of seizures.
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PMID:Increased plasma glutamic acid in a genetic model of epilepsy. 135 88

The partial agonist at benzodiazepine receptors, Ro 19-8022, has been characterized as a putative anxiolytic drug with an improved side effect profile. This orally active compound is a representative of a quinolizinone structure class and shows potent anticonflict activity in mice and rats. It protects rodents from convulsions induced by pentylenetetrazol, N-methyl-D-aspartic acid and maximal electroshock, as well as against audiogenic seizures, with an efficacy comparable to that of the full agonist alprazolam. No appreciable sedative or motor-impairing effects could be detected up to a very high dose (100 mg/kg) in the horizontal wire test or the rotarod performance test in mice and rats and in spontaneous behavior in monkeys. Consistent with its characterization as a partial agonist, Ro 19-8022 antagonized the motor impairment induced by the full agonists diazepam or meclonazepam measured in horizontal wire and rotarod tests in rodents, and reduced flunitrazepam-induced effects in squirrel monkeys, with an efficacy comparable to that of the benzodiazepine receptor antagonist flumazenil. After subchronic administration of Ro 19-8022 to mice, antagonist-precipitated withdrawal syndrome was dramatically weaker than after alprazolam treatment, which is indicative of a lower physical dependence liability of Ro 19-8022. Pharmacodynamic effects recorded in convulsion and reversal of motor impairment tests after i.v. administration suggest a long duration of action of this compound. Taken together, such preclinical data suggest that benzodiazepine receptor partial agonists with a neurological and behavioral profile such as that of Ro 19-8022 may offer an innovative therapeutic approach to the treatment of anxiety disorders.
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PMID:Ro 19-8022, a nonbenzodiazepine partial agonist at benzodiazepine receptors: neuropharmacological profile of a potential anxiolytic. 135 50

Remacemide hydrochloride ((+/-)-2-amino-N-(1-methyl-1,2-diphenylethyl)- acetamide hydrochloride or FPL 1292AA) is a novel compound undergoing clinical trials for patients with generalized tonic/clonic and complex partial epilepsy. Remacemide exhibits efficacy against maximal electroconvulsive shock (MES) in rodents and seizures elicited by N-methyl-D,L-aspartate (NMDLA) in mice. Using rat synaptic membrane fractions, remacemide was shown to possess relatively weak noncompetitive binding to the ionic channel site of the NMDA (N-methyl-D-aspartic acid) receptor complex. With the hypothesis that activity against NMDLA-elicited seizures might be reflected by transformation to a more active metabolic species, the aim of the present study was to evaluate potential pharmacological effects of the 9 identified metabolites of remacemide which were all found in human and dog urine. Moreover, specific entities were recognized in plasma (including the rat's), as well as dog and rat cerebrospinal fluid. Five putative metabolites were also examined. A major route of metabolic transformation of remacemide in rats yields the formation of a pharmacologically active more potent desglycine derivative, namely FPL 12495 (+/-). Potency over the parent compound is revealed in the MES test in mice and rats, the NMDA-induced convulsions/mortality test in mice, and especially involving in vitro displacement of MK801 binding to the channel subsite of the NMDA receptor. The S isomer (FPL 12859) of this desglycinate is even more potent, while the R isomer is less potent than the corresponding racemate. Unlike the non-competitive NMDA antagonist, MK801, these desglycinates did not prevent kindled seizures. Three other identified metabolites show efficacy in the mouse and rat in vivo tests, namely the N-hydroxy-desglycinate (FPL 15053) and the p-hydroxy-desglycinates (FPL 14331 and FPL 14465). FPL 15053 exhibited modest activity in all tests. The only in vivo activity exhibited by the 2 p-hydroxy-desglycinates was evidenced in the MES test following i.p. and i.v. dosing. However, FPL 14331 was active in the MK801 binding assay. An oxoacetate metabolite, PFL 15455, failed to demonstrate any biological activity. Of potential metabolites tested 2 beta-hydroxy-desglycinates (FPL 14991 and FPL 14981) displayed modest activity in the MES test, however, only FPL 14981 prevented NMDLA-induced convulsions/mortality in mice and was 2-fold more active regarding MK801 binding. The hydroxy-methyl derivative of remacemide (FPL 13592) and its desglycinate (FPL 15112) prevented MES-induced convulsions only after i.v. administration; only the desglycine derivative displaced MK801 binding.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biological profile of the metabolites and potential metabolites of the anticonvulsant remacemide. 138 19

Intravenous injection of N-methyl-D,L-aspartic acid (NMDLA) into mice produces characteristic convulsions followed by death. The present study was designed to determine the degree of blockade of these seizures/mortality by compounds acting at various subsites on the N-methyl-D-aspartic acid (NMDA) receptor complex (competitive and noncompetitive antagonists, as well as inhibitors of the strychnine-insensitive glycine subsite, and Zn++ subsite agonists), and also calcium channel blockers, clinically used anticonvulsants, plus selected compounds with activities or structures similar to specific agents chosen. Activity among compounds was correlated to in vitro potency regarding inhibition of binding of MK801 to the ionic channel subsite associated with the NMDA receptor. Furthermore, all compounds were examined for antiseizure properties with respect to tonic hindlimb extension elicited by maximal electroshock (MES) and clonus induced by pentylenetetrazol (PTZ). Drugs were subsequently classified according to their spectra of efficacy in these tests. The following characteristics emerged: 1) agents active at all 3 NMDA mechanisms (convulsions/mortality/MK801 binding) plus MES and PTZ, were MK801 and CPP [3-(2-carboxypiperazin-4-yl) propyl-1-phosphonic acid]; 2) active at all the NMDA mechanisms and MES were ketamine and dextromethorphan; 3) active against NMDLA-induced convulsions/mortality, MES and PTZ, but not MK801 binding, were doxepin, desipramine and diazepam; 4) active against NMDLA-induced convulsions/mortality and MES were des-Me-doxepin, flunarizine and remacemide; 5) active against NMDLA-induced convulsions/mortality and PTZ was nisoldipine; 6) active against only NMDLA-induced convulsions/mortality were chlorpheniramine and iproniazid; 7) active in the MES and PTZ tests were phenobarbital, pentobarbital and valproate; 8) active in the MES test alone were phenytoin and carbamazepine; 9) active against PTZ only was ethosuximide; 10) active only in the in vitro MK801 binding assay were HA966, 7-Cl-kynurenate and AP7 (2-amino-7-phosphonoheptanoic acid); and 11) no demonstrable actions had AP4 (2-amino-4-phosphonobutyric acid) and mianserin. In conclusion, inhibition of NMDLA-induced convulsions/mortality in vivo is not necessarily correlated to a noncompetitive displacement of MK801 binding to NMDA receptor sites in vitro, nor is inhibition of NMDA-elicited convulsions/mortality correlated with a specific ability of a compound to inhibit either MES or PTZ seizures.
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PMID:Classification of compounds for prevention of NMDLA-induced seizures/mortality, or maximal electroshock and pentylenetetrazol seizures in mice and antagonism of MK801 binding in vitro. 145 42

The autosomal dominant trembler mutation (Tr), maps to mouse chromosome 11 (ref. 2) and manifests as a Schwann-cell defect characterized by severe hypomyelination and continuing Schwann-cell proliferation throughout life. Affected animals move clumsily and develop tremor and transient seizures at a young age. We have recently described a potentially growth-regulating myelin protein, peripheral myelin protein-22 (PMP-22; refs 7, 8), which is expressed by Schwann cells and found in peripheral myelin. We now report the assignment of the gene for PMP-22 to mouse chromosome 11. Cloning and sequencing of PMP-22 complementary DNAs from inbred Tr mice reveals a point mutation that substitutes an aspartic acid residue for a glycine in a putative membrane-associated domain of the PMP-22 protein. Our results identify the PMP-22 gene as a likely candidate for the mouse trembler locus and will encourage the search for mutations in the corresponding human gene in pedigrees with hypertrophic neuropathies such as Charcot-Marie-Tooth and Dejerine-Sottas diseases (hereditary motor and sensory neuropathies I and III).
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PMID:Trembler mouse carries a point mutation in a myelin gene. 155 43

Tolerance to the anticonvulsant effects of clobazam has been studied in three murine models of epilepsy: pentylenetetrazole- and N-methyl-D,L-aspartic acid-induced seizures and audiogenic-induced seizures in the DBA/2 strain. Tolerance occurred most rapidly in the pentylenetetrazole model but the development of tolerance could be reduced by increasing the dose interval. Tolerance to the protective effects of clobazam occurred more readily to the first tonic seizure than to the full tonic clonic seizure. The development of tolerance could not be attributed to smaller concentrations of clobazam in brain or to increasing concentrations of the metabolite. Although slower to develop, tolerance to clobazam did occur in the N-methyl-D,L-aspartate model. However, tolerance to the protection from the full tonic clonic seizure in DBA/2 mice could not be detected, even when the dose of clobazam was reduced to the smallest dose that acutely protected most of the mice. In contrast, the protection given by clobazam to the induction of the wild-run in DBA/2 mice, did exhibit tolerance. Studies on the mechanism of tolerance to the anticonvulsant activity of benzodiazepines must take account of the seizure model used and the dose and interval between doses.
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PMID:Tolerance to the anticonvulsant effects of clobazam in mice. 155 26

Aspartame, the methyl ester of the dipeptide formed from combining phenylalanine and aspartic acid, was approved by the US Food and Drug Administration (FDA) in July 1981. FDA monitors complaints from consumers and health professionals through the Adverse Reaction Monitoring System, a passive surveillance program FDA has received 251 reports of seizures that have been linked to ingestion of aspartame by consumers. In most cases, information obtained from the complainants' medical records as well as data on consumption patterns, temporal relationships, and challenge tests did not support the claim that the occurrences of the seizures were linked to consumption of aspartame.
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PMID:An analysis of FDA passive surveillance reports of seizures associated with consumption of aspartame. 157 43

The involvement of excitatory amino acid (EAA) receptors in mediation of the toxic effects of cocaine was studied in male ICR mice. Cocaine HCl (90 mg/kg, IP) induced seizures in 95% and death within 24 h in 68% (n = 135) of the animals. There was a significant correlation (r = .54) between the time to onset of convulsions and the time to death in mice which died within 30 min of injection (n = 84). Pretreatment with selected EAA receptor antagonists 15 min prior to cocaine differentially blocked cocaine toxicity. Selective N-methyl-D-aspartic acid (NMDA) receptor antagonists (MK-801, dextrorphan, CPP) decreased both the incidence of seizures and mortality. A nonselective EAA antagonist, kynurenic acid, decreased lethality in doses which did not reduce convulsions. A similar action was observed following pretreatment with the selective kainic acid/AMPA receptor antagonist, GDEE. Antagonists at EAA receptors can provide significant protection against cocaine-induced toxicity. Moreover, the data provide evidence for the involvement of both NMDA and non-NMDA receptor subtypes in aspects of cocaine toxicity.
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PMID:Glutamate receptor antagonists block cocaine-induced convulsions and death. 168 27

This study extends our previous work in which we described the presence of an interictal behavioral disturbance in a chronic animal model of temporal lobe epilepsy (TLE). In this study, we investigated the cerebrospinal fluid (CSF) neurotransmitter changes underlying the development of chronic recurrent seizures of temporal lobe origin and interictal behavioral disturbance in cats made epileptic after intrahippocampal injection of kainic acid (KA). Using high-performance liquid chromatography, we measured 22 putative neurotransmitter amino acids. After intrahippocampal KA injection, cats developed an initial acute period of intense seizure activity. Cisternal CSF amino acids, which were repeatedly sampled during the acute period through a permanent indwelling cannula, were unchanged apart from a mild elevation in CSF alanine. The high-level seizure activity gradually decreased, and cats entered a chronic epileptic period characterized by recurrent yet intermittent temporal lobe seizures. CSF GABA levels during the chronic epileptic period were significantly decreased. In contrast, CSF levels of other amino acids--alanine, tyrosine, taurine, aspartic acid, and glutamic acid--did not change significantly. Behavioral testing also showed a heightened interictal defensive reactivity during the chronic epileptic period. To the extent that CSF GABA concentration reflects brain GABA concentration, this study suggests that a decrease in brain GABA may contribute both to the epilepsy and interictal emotional lability of animals with a chronic seizure disorder of temporal lobe origin.
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PMID:Interictal behavioral alterations and cerebrospinal fluid amino acid changes in a chronic seizure model of temporal lobe epilepsy. 174 47


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