UMLS:C0036572 - FACTA Search

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of three gonadal steroid antihormones, tamoxifen (TXF, an estrogen antagonist), cyproterone acetate (CYP, an antiandrogen) and mifepristone (MIF, a progesterone antagonist) alone or combined with conventional antiepileptics were evaluated in amygdala-kindled seizures in male and female rats. None of the three antihormones used in this study affected any seizure parameter. TXF (50 mg/kg) and CYP (50 mg/kg), when combined with carbamazepine, or phenobarbital applied at their subprotective doses of 15 mg/kg, resulted in significant reductions of the seizure and afterdischarge durations, both in male and female rats. Additionally, the combination of carbamazepine and CYP markedly increased the afterdischarge threshold in fully-kindled rats of both genders. The interaction between antihormones and carbamazepine, or phenobarbital, was not reversed by respective sex steroid hormones (estradiol, testosterone). However, the TXF- and CYP-induced anticonvulsant effects in combinations with carbamazepine were attenuated by bicuculline, N-methyl-D-aspartate (NMDA) and aminophylline. Kainic acid and strychnine remained ineffective in this respect. The effect of a combination of TXF with phenobarbital was reversed by bicuculline and NMDA and that of CYP with phenobarbital-by bicuculline and aminophylline. Neither TXF nor CYP altered the free plasma concentrations of carbamazepine or phenobarbital, so a pharmacokinetic interaction is not probable. The combined treatment of the two antihormones with antiepileptic drugs did not affect motor performance, and did not result in significant long-term memory deficits. Our data confirm the hypothesis that sex hormone antagonist-mediated events may play some role in seizure processes in the central nervous system and can modulate the protective activity of some conventional antiepileptic drugs against kindled seizures.
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PMID:Influence of sex hormone antagonists on the anticonvulsant action of conventional antiepileptic drugs against amygdala-kindled seizures in male and female rats. 1288 85

Recently, a new experimental model of epilepsy was introduced by the authors [Neurochem. Int. 40 (2002) 413]. This model combines pentylenetetrazole (PTZ)-kindling in senescence-accelerated mice P8 (SAMP8), a genetic model of aging. Since imbalance of glutamate and GABA is a major cause of seizures, the study of glial-neuronal interactions is of primary importance. Nuclear magnetic resonance spectroscopy (NMRS) is an excellent tool for metabolic studies. Thus, we examined whether NMRS when combined with administration of [1-13C]glucose and [1,2-13C]acetate might give valuable insights into neurotransmitter metabolism in this new model of epilepsy and aging. The 2- and 8-month-old SAMP8 were kindled with PTZ alone, received PTZ and phenobarbital (PB), or served as controls. In older animals, PTZ-kindling decreased labeling in glutamate C-4 from [1-13C]glucose, whereas, in the younger mice, labeling in glutamine C-4 was decreased both from [1-13C]glucose and [1,2-13C]acetate. It could be concluded that PTZ-kindling affected astrocytes in younger and glutamatergic neurons in older animals. In the presence of PTZ, phenobarbital decreased labeling of most metabolites in all cell types, except GABAergic neurons, from both labeled precursors in the younger animals. However, in older animals only GABAergic neurons were affected by phenobarbital as indicated by an increase in GABA labeling.
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PMID:The pentylenetetrazole-kindling model of epilepsy in SAMP8 mice: glial-neuronal metabolic interactions. 1289 50

The amygdaloid complex has long been implicated in seizure disorders. Yet, projection cells of the lateral amygdaloid nucleus (LA) display little spontaneous activity suggesting that this seizure prone structure is normally controlled by strong inhibitory mechanisms. This control is achieved in part by local interneurons; however, a synaptically activated, Ca(2+)-dependent K(+) (K(Ca)) conductance has recently been identified as a second major inhibitory mechanism. In the present study, we investigated which K(Ca) channels underlie this conductance, and their roles in the generation of the synaptic responses and spike adaptation of LA projection cells. Intracellular recordings were obtained from LA projection cells in barbiturate-anesthetized rats. In recordings with K-acetate pipettes, perirhinal stimulation evoked an initial excitatory postsynaptic potential (EPSP) followed by a prolonged monophasic hyperpolarization, similar to what was observed in cats under in vivo conditions, and distinct from the multiphasic hyperpolarization observed previously in rodents with in vitro recordings. This indicates that differences in the cellular environment, not interspecies differences, are responsible for the differing response profiles previously reported. In recordings with pipettes containing 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid or Cs-acetate the reversal potentials were significantly more positive than those recorded with K-acetate, consistent with a K(Ca) conductance contribution to the response. To investigate the K(Ca) channels underlying this conductance, intracellular recordings were obtained while perfusing the LA with Ringer's solution and then switching to a solution containing charybdotoxin, isoproterenol, or apamin. Charybdotoxin and isoproterenol produced positive shifts in the reversal potential, whereas apamin did not. By contrast, all three substances decreased adaptation during spike trains elicited by depolarizing current injections. These results suggest that intermediate (IK) and small (SK) conductance K(Ca) channels limit LA projection cell excitability, with IK channels involved in controlling both the synaptic response and intrinsic excitability of these neurons, and SK channels being involved only in the latter.
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PMID:Inhibitory control of rat lateral amygdaloid projection cells. 1294 8

A six-week-old male infant was admitted for investigation of cholestasis and pale stools. He became lethargic and apnoeic with prolonged seizures after a percutaneous liver biopsy. Subsequent investigations showed conjugated hyperbilirubinaemia, elevated liver enzymes, and hypoglycaemia. The radinuclide hepatobiliary scintigraphy was non-excretory. After an operative cholangiogram, the infant developed Addisonian-like crisis with bradycardia, hypotension, respiratory distress, metabolic acidosis, hypoglycaemia, hyponatraemia, and hyperkalaemia. Blood investigations confirmed congenital hypopituitarism. Hormone replacement therapy with L-thyroxine and cortisone acetate resulted in dissolution of jaundice and the reduction of the liver size.
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PMID:Addisonian-like crisis in congenital hypopituitarism and cholestatic jaundice. 1456 50

The pre-natal administration of methylazoxymethanol acetate (MAM) in rats is able to induce cerebral heterotopia that share striking similarities with those observed in human periventricular nodular heterotopia, a cerebral dysgenesis frequently associated with drug-resistant focal seizures. In the present study, we investigated the mode of neurogenesis in cerebral heterotopia of MAM-treated rats, by analyzing post-natal cytoarchitectural features and time of neurogenesis using bromodeoxyuridine immunocytochemistry. The cytoarchitectural analysis demonstrated the existence, in the early post-natal period, of white matter cellular bands in close anatomical relationship with the heterotopia, which most likely serve as a reservoir of young, migrating neurons for the newly forming heterotopia. The birth dating analysis demonstrated that the period of generation of neurons within the heterotopia and adjacent white matter bands, was extended in comparison to corticogenesis in normal rat brains. In addition, it demonstrated that the heterotopia were formed through a rather precise outside-in (for cortical and periventricular heterotopia) and dorso-ventral (for intra-hippocampal heterotopia) neurogenetic pattern. We hypothesize that the MAM-induced ablation of an early wave of cortical neurons is sufficient to alter per se the migration and differentiation of subsequently generated neurons, which in turn set the base for the formation of the different types of heterotopia. On this basis, we suggest a neurogenetic scheme for MAM-induced heterotopia that can also explain the origin and intrinsic epileptogenicity of periventricular nodular heterotopia in humans.
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PMID:The genesis of epileptogenic cerebral heterotopia: clues from experimental models. 1461 21

The present results refer to the action of three gonadal steroid antihormones, tamoxifen (TXF, an estrogen antagonist), cyproterone acetate (CYP, an antiandrogen) and mifepristone (MIF, a progesterone antagonist) on seizure phenomena in mice. TXF and CYP at their lowest protective dose in the electroconvulsive threshold test, enhanced the antiseizure efficacy of some antiepileptic drugs. TXF (20 mg/kg) potentiated the protective activity of valproate, diphenylhydantoin and clonazepam, but not that of carbamazepine or phenobarbital, against maximal electroshock-induced convulsions in female mice. CYP (40 mg/kg) enhanced the anticonvulsant action of valproate, carbamazepine, diphenylhydantoin and clonazepam, but not that of phenobarbital, against maximal electroshock in male animals. MIF failed to affect the electroconvulsive threshold or the efficacy of antiepileptic drugs in maximal electroshock. The effect of TXF or CYP upon the electroconvulsive threshold and on the action of antiepileptics was not reversed by sex steroid hormones (estradiol, testosterone, progesterone). However, the TXF-induced elevation of the electroconvulsive threshold was abolished by bicuculline, N-methyl-D-aspartic acid and kainic acid, and partially reversed by aminophylline, strychnine being ineffective in this respect. The action of CYP on the threshold for electroconvulsions was partially reversed by bicuculline and aminophylline. Both glutamatergic agonists and strychnine remained ineffective in this respect. Moreover, the action of TXF or CYP on the activity of antiepileptics was not influenced by strychnine, and reversed to various extents by the remaining convulsants. In contrast to maximal electroshock, none of the three antihormones affected the protective action of antiepileptic drugs against pentylenetetrazol-induced seizures in mice. Neither TXF nor CYP altered the free plasma levels of antiepileptic drugs, so a pharmacokinetic interaction is not probable. The combined treatment of the two antihormones with antiepileptic drugs, providing 50% protection against maximal electroshock, did not affect motor performance in mice, and did not result in significant long-term memory deficits. Our data indicate that steroid receptor-mediated events may be indirectly associated with seizure phenomena in the central nervous system and can modulate the protective activity of some conventional antiepileptic drugs.
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PMID:Influence of sexual hormone antagonists on the anticonvulsant action of conventional antiepileptic drugs against electrically- and pentylenetetrazol-induced seizures in mice. 1465 91

The transcription factor Elk-1 belongs to the ternary complex factor (TCF) subfamily of Ets proteins. TCFs interact with serum response factor to bind jointly to serum response elements in the promoters of immediate-early genes (IEGs). TCFs mediate the rapid transcriptional response of IEGs to various extracellular stimuli which activate mitogen-activated protein kinase signaling. To investigate physiological functions of Elk-1 in vivo, we generated Elk-1-deficient mice by homologous recombination in embryonic stem cells. These animals were found to be phenotypically indistinguishable from their wild-type littermates. Histological analysis of various tissues failed to reveal any differences between Elk-1 mutant and wild-type mice. Elk-1 deficiency caused no changes in the proteomic displays of brain or spleen extracts. Also, no immunological defects could be detected in mice lacking Elk-1, even upon infection with coxsackievirus B3. In mouse embryonic fibroblasts, Elk-1 was dispensable for c-fos and Egr-1 transcriptional activation upon stimulation with serum, lysophosphatidic acid, or tetradecanoyl phorbol acetate. However, in brains of Elk-1-deficient mice, cortical and hippocampal CA1 expression of c-fos, but not Egr-1 or c-Jun, was markedly reduced 4 h following kainate-induced seizures. This was not accompanied by altered patterns of neuronal apoptosis. Collectively, our data indicate that Elk-1 is essential neither for mouse development nor for adult life, suggesting compensatory activities by other TCFs.
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PMID:Mice deficient for the ets transcription factor elk-1 show normal immune responses and mildly impaired neuronal gene activation. 1467 63

gamma-Hydroxybutyrate (GHB) is used for the treatment of alcoholism and to induce absence seizures in animals, but it has also recently emerged as a drug of abuse. In hippocampal neurons, GHB may activate its own putative receptor as well as GABA(B) receptors to affect synaptic transmission. We used voltage-clamp recordings of rat CA1 pyramidal neurons to characterize the postsynaptic conductances affected by GHB and to further clarify the site of GHB action. Low concentrations of GHB (0.1-1 mM) did not affect postsynaptic properties, but 10 mM GHB elicited an outward current at resting potential by augmenting an inwardly rectifying potassium current and concomitantly decreased the hyperpolarization-activated H-current (I(h)). Like GHB, the selective GABA(B)-receptor agonist baclofen (20 microM) increased a potassium current and decreased I(h). In the presence of 10 mM GHB, the baclofen effects were largely occluded. The selective GABA(B) receptor antagonist CGP 55845 [3-N[1-(S)-(3,4-dichlorophenyl)ethyl]amino-2-(S)-hydroxypropyl-p-benzyl-phosphinic acid] blocked the effects of both GHB and baclofen, whereas the putative GHB receptor antagonist NCS-382 [(2E)-(5-hydroxy-5,7,8,9-tetrahydro-6H-benzo[a][7]annulen-6-ylidene ethanoic acid] was ineffective. The GHB and baclofen effects were prevented in the presence of 200 microM barium, indicating that GHB augments a K(+) conductance, probably a G protein-coupled inwardly rectifying K(+) (GIRK) current. The decrease of I(h) by GHB and baclofen was also prevented by barium, suggesting that the diminution of I(h) is secondary to GIRK augmentation. Our results indicate that high GHB levels, which can be reached during abuse or intoxication, activate only GABA(B) receptors and not GHB receptors at the postsynaptic level to augment an inwardly rectifying K(+) current and decrease I(h).
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PMID:gamma-hydroxybutyrate increases a potassium current and decreases the H-current in hippocampal neurons via GABAB receptors. 1515 29

Pentylenetetrazole (PTZ) injection causes seizures in rodents and this is used in several models of epilepsy. In the present study a low dose (20 mg/kg) was injected into rats in order to analyze metabolic disturbances caused by subconvulsive amounts of PTZ. Intraperitoneal injection of PTZ was followed, 30 min later, by injection of [1-(13C)]glucose plus [1,2-(13C)]acetate and 15 min thereafter decapitation. Analyses of extracts from cerebrum, subcortex and cerebellum were performed using 13C NMRS and HPLC. Whereas convulsive doses of PTZ lead to most pronounced changes in cerebellum [J. Neurochem. 85 (2003) 1200], it could be shown that subconvulsive doses affected mainly amino acid metabolism in cerebrum. In glutamatergic neurons in the cerebrum PTZ affected both the metabolic and releasable pools of glutamate, whereas, in the subcortex and cerebellum only the metabolic pool was affected. This could be deducted from the findings that less [4-(13C)]glutamine, [3,4-(13C)]glutamate and [2-(13C)]aspartate, which are labeled from [1-(13C)]glucose, were detected in this area. Glial metabolism was also changed as evidenced by the decreased pyruvate carboxylation versus pyruvate dehydrogenation ratio both in cerebrum and subcortex. Comparison between convulsive and nonconvulsive doses of PTZ lead to the hypothesis that changes observed in the cerebellum are mainly due to seizures, whereas those in cerebrum and subcortex are coupled to the action of the chemical stimulant.
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PMID:Changes of glial-neuronal interaction and metabolism after a subconvulsive dose of pentylenetetrazole. 1523 17

Artemisia dracunculus L. (Asteraceae) has been used orally as an antiepileptic remedy in Iranian folkloric medicine. The anticonvulsant potential and composition of the essential oil obtained from the aerial parts of the plant were assessed in this study. The essential oil exerted dose- and time-dependent antiseizure activity in both maximal electroshock (MES) and pentylenetetrazole models of experimental seizures with ED50 values of 0.84 and 0.26 ml/kg, respectively. At some anticonvulsant doses, the essential oil produced sedation and motor impairment assessed by rotarod test. Gas chromatography (GC)/mass spectrometry (MS) analysis of the essential oil revealed the presence of trans-anethole (21.1%), alpha-trans-ocimene (20.6%), limonene (12.4%), alpha-pinene (5.1%), allo ocimene (4.8%), methyl eugenol (2.2%), beta-pinene (0.8%), alpha-terpinolene (0.5%), bornyl acetate (0.5%) and bicyclogermacrene (0.5%) as the main components. The observed anticonvulsant and sedative effects could be related to the presence of monoterpenoids in the essential oil.
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PMID:Anticonvulsant activity and chemical composition of Artemisia dracunculus L. essential oil. 1532 32

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