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)

A single intraperitoneal injection of pyridoxal-5'-phosphate (PLP) in a species of mouse, DBA/2J, that is normally susceptible to sound-induced convulsion exacerbated its epileptic condition. The effect of injection was most pronounced about 30 min after the administration and subsided gradually within the following 4 h. Correlated with this increased seizure susceptibility were enhanced levels of synaptosomal aspartate and glutamate, and a diminished gamma-aminobutyric acid (GABA) level. The concentrations of nonneuroactive amino acids remained unchanged. When stimulated with veratrine, synaptosomes prepared from PLP-injected mice showed an increased release of aspartate and glutamate and a decreased release of GABA compared to those prepared from control mice. The activity of glutamate decarboxylase in the brains of PLP-treated mice was lowered, whereas the activity of GABA-transaminase was enhanced. Finally, the epileptic condition of DBA mice could be ameliorated by maintenance on a diet composed of vitamin B6-deficient feed and cellulose.
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PMID:Alteration of amino acid metabolism in epileptogenic mice by elevation of brain pyridoxal phosphate. 398 38

The ability of three derivatives of folic acid, N-5-methyltetrahydrofolic acid (MTHF), tetrahydrofolic acid (THF) and dihydrofolic acid (DHF) to mimic the actions of kainic acid (KA) in a number of in vitro and in vivo systems known to be sensitive to KA was examined. None of the three folate derivatives at 100 microM concentration significantly inhibited the specific binding of [3H]-KA to striatal membranes although 2 microM L-glutamate produced a 40% inhibition. None of the three folate derivatives stimulated the formation of cyclic GMP in cerebellar slices incubated in vitro although KA (0.5 mM) increased cyclic GMP levels by 2.5-fold. Whereas intrahippocampal injection of 2.3 nmoles of KA produces prolonged abnormalities of the EEG, limbic-type seizures and a characteristic pattern of neuronal degeneration in the hippocampal formation and related structures, intrahippocampal injection of a 100-fold greater dose of THF caused only minor and transient EEG abnormalities, no overt seizures and a highly restricted lesion. Whereas intrastriatal injection of 5.6 nmoles of KA caused a profound reduction in the specific activities of choline acetyltransferase and glutamate decarboxylase, markers for striatal intrinsic cholinergic and GABAergic neurons, 50-fold greater doses of MTHF did not affect either enzyme although this high dose of THF did cause a significant 33% reduction in choline acetyltransferase activity. These findings support the suggestion that THF may have weak neurotoxic effects in brain but indicate that the actions of this compound and the related MTHF and DHF are not mediated through KA-specific receptors.
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PMID:Failure of folic acid derivatives to mimic the actions of kainic acid in brain in vitro or in vivo. 612 82

Behavioural, histopathological and neurochemical changes induced by systemic injection of kainic acid (10 mg/kg, s.c.) were investigated in rats. The most pronounced behavioural changes were strong immobility ("catatonia"), increased incidence of "wet dog shakes", and long-lasting generalized tonic-clonic convulsions. The behavioural symptoms were fast in their onset and lasted for several hours. Two distinct phases of histopathological and neurochemical changes were observed. (1) Early partially reversible changes were seen up to 3 h after kainic acid injection. They consisted of shrinkage and pyknosis of neuronal perikarya together with swelling of dendrites and axon terminals. These changes were accompanied by generalized signs of edema throughout the whole brain. Neurochemically, there was a marked decrease in noradrenaline levels (up to 70%) and an increase in levels of 5-hydroxyindoleacetic acid, 3,4-dihydroxyphenylacetic acid and homovanillic acid (up to 200%) in all analysed brain regions, suggesting a strongly increased firing rate of aminergic neurones during the period of generalized seizures. These histological and neurochemical changes were found in all the brain regions examined; they were greatly reduced or only sporadically seen after 1-3 days, when the animals had recovered from the seizures. (2) Late irreversible changes developed 24 h and later following kainic acid injection. They consisted of incomplete tissue necrosis with loss of nerve cells and oligodendrocytes, demyelination, astroglial scar formation, small perivenous hemorrhages and extensive vascular sprouting. The changes were restricted to the pyriform cortex, amygdala, hippocampus (most pronounced in the CA1 sector), gyrus olfactorius lateralis, bulbus olfactorius and tuberculum olfactorium. Neurochemically, a selective decrease was seen in choline acetyltransferase activity (40%) of the amygdala/pyriform cortex area, and of glutamate decarboxylase activity in the dorsal hippocampus (45%) and amygdala/pyriform cortex (55%). No such changes were found in the frontal cortex and the striatum/pallidum. Since at these later time periods the widespread early changes in monoamine metabolism were mostly normalized, loss of acetylcholine and gamma-aminobutyric acid neurons in the affected brain regions represented a selective neurochemical change typical for this stage of kainic acid action. The observed neurochemical and histopathological changes may be directly related to the excitotoxic and convulsive properties of kainic acid. However, brain edema resulting in herniation damage of the basal portions of the brain in addition to disturbances of microcirculation and +
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PMID:Kainic acid induced seizures: neurochemical and histopathological changes. 614 39

Four catalytic inhibitors of GABA-aminotransferase (GABA-T), viz. gabaculine, gamma-acetylenic GABA, gamma-vinyl GABA, and ethanolamine O-sulphate (EOS), as well as the unspecific enzyme inhibitor aminooxyacetic acid (AOAA), sodium valproate (VPA), and GABA itself were studied for anticonvulsant, biochemical, and toxic effects in mice. Elevations of the electroconvulsive threshold by 30 V were produced at the time of their maximal effect by the i.p. injection (AOAA s.c.) of 13 mg/kg AOAA, 37 mg/kg gabaculine, 65 mg/kg gamma-acetylenic GABA, 125 mg/kg VPA, 1,440 mg/kg EOS, 1,900 mg/kg gamma-vinyl GABA and 2,800 mg/kg GABA. At these doses, all drugs except GABA and VPA increased the clonic pentetrazole threshold to a similar extent, but differed in their increases in the brain content of GABA, which varied from 70% (EOS) to 300% (gamma vinyl GABA) as a consequence of decreases in the activity of GABA-T. The activity of the GABA-synthesizing enzyme glutamate decarboxylase was decreased only by gamma-acetylenic GABA. When determining the anticonvulsant effect of the different drugs against the convulsant ED 97 of pentetrazole, 3-mercaptopropionic acid, strychnine and maximal electroshock seizures, gabaculine, AOAA, VPA and in part gamma-vinyl GABA and GABA were efficacious enough to allow the determination of ED50 values, whereas gamma-acetylenic GABA and EOS showed no clear activity in any of these seizure models. Gabaculine and AOAA at their anticonvulsant ED50 were toxic or lethal. All inhibitors of GABA-T except EOS caused numerous side effects which cast doubt on the specificity of these drugs. The present results indicate that inhibitors of GABA-T hardly seem to be suited for treatment of convulsive disorders in human but are useful tools in studies of experimental epilepsy.
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PMID:A comparative study of the pharmacology of inhibitors of GABA-metabolism. 678 93

The concentration of gamma-aminobutyrate (GABA) and the activity of glutamate decarboxylase and GABA-transaminase were measured in extracts of mouse brain before the onset and during the course of generalized seizures induced by systemic administration of homocysteine thiolactone. The results indicate that whole brain GABA metabolism is unaffected by subconvulsive and convulsive doses of homocysteine at all stages of the generalized seizure. Electroencephalographic monitoring of rat brain electrical activity via hippocampal electrode implantation allowed the course homocysteine-induced seizures to be followed and afforded a means of quantifying such seizures.
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PMID:Hippocampal electrical activity and gamma-aminobutyrate metabolism in brain tissue following administration of homocysteine. 682 71

The neurotoxic and convulsant properties of conformationally restricted and synthetic analogues of excitatory acidic amino acids were examined after stereotaxic injection into the striatum and the dentate gyrus of the hippocampal formation. In the striatum, neurotoxicity was quantified by the reduction in the activity of choline acetyltransferase and glutamate decarboxylase, markers for striatal intrinsic neurons. The following sequence of neurotoxic potencies was defined; kainic acid approximately equal to domoic acid much greater than alpha-keto kainic acid approximately equal to alpha-allo kainic acid greater than ibotenic acid approximately equal to cis-cyclopentyl glutamic acid greater than quisqualic acid approximately equal to N-methyl-D-aspartic acid. When normalized for neurotoxic potencies, a wide variation in the convulsant effects of the agents was observed after hippocampal injection. N-Methyl-D-aspartate produced nearly continuous electroencephalographic seizures for 2 hr after injection, where alpha-keto-kainate and kainate and quisqualate caused seizure activity for 64 and 45% respectively of this period; kainate, alpha-allo kainate and domoate caused intermittent seizure activity during approximately 30% of the recording period; ibotenate and cyclopentylglutamate had minimal convulsant effects. Seizures were associated with a significant reduction in the levels of norepinephrine and with increases in the levels of 5-hydroxyindoleacetic acid in the cortex and hippocampal formation and increases in the levels of gamma-aminobutyric acid in the hippocampal formation. Kainate, domoate, keto-kainate and alpha-allo-kainate caused extensive lesions of the hippocampal formation that also involved the pyriform cortex; ibotenate and cyclopentylglutamate caused uniform but substantial lesions limited to the dentate gyrus, whereas quisqualate and N-methyl-D-aspartate produced small and restricted lesions. The results demonstrate a poor correlation between the neurotoxic and convulsant potencies of these excitatory amino acid analogues and suggest that receptor-specific interactions may account for these disparities.
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PMID:Excitatory amino acid analogues: neurotoxicity and seizures. 706 5

The neurotransmitter gamma-aminobutyric acid is known to decrease preictally after administration of the potent convulsant methyoxypyridoxine, a competitive inhibitor of glutamate decarboxylase. An attempt was made to determine the effect of this gamma-aminobutyric acid decrease on the cholinergic system. Rabbits were immobilized and artificially ventilated in order to avoid hypoxidosis. Seizures were induced by intravenous injection of 100 mg kg-1 methoxypyridoxine; 40 minutes later the animals were decapitated and discrete brain areas removed. Tissue contents of acetylcholine and choline were estimated by gas chromatographic mass spectrometric analysis of the beta-dimethylaminoethyl acetate and propionate derivatives using deuterated internal standards. Gas chromatographic column optimization resulted in a considerable sensitivity gain. Computerized selected ion monitoring was carried out on the dimethylmethyleneimmonium ions using voltage switching. The use of a computer controlled solvent dump valve was implemented to increase precision. No significant difference was observed in the concentration of acetylcholine in the frontal cortex, cerebellar cortex, septum, hippocampus, or caudate of seizure versus control animals; septal choline increased, however. This suggests that the acetylcholine turnover could be increased during seizure.
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PMID:Selected ion monitoring determination of acetylcholine during methoxypyridoxine seizures. 722 35

Gangliogliomas, dysembryoplastic neuroepithelial tumors (DNT) and glioneuronal malformations are frequently encountered in patients with pharmacoresistant focal epilepsies. In order to characterize the neurochemical profile of these neoplastic and malformative glioneuronal lesions, we have examined the presence of the alpha 1 subunit of the GABAA receptor, the N-methyl-D-aspartate receptor subunit 1 (NR1), glutamate decarboxylase, tyrosine hydroxylase, somatostatin, parvalbumin, and calretinin in 60 gangliogliomas, 11 DNT, 10 tuberous sclerosis-like lesions and 17 non-tuberous sclerosis-like glioneuronal malformations. All DNT and tuberous sclerosis-like lesions, 59 gangliogliomas (98%), and 13 non-tuberous sclerosis-like hamartias (76%) were positive for at least one of the markers. Despite a great variation between and within the different entities, the neurochemical profile was generally reminiscent of normal neocortex: glutamate decarboxylase, GABAA receptor and NR1 which are common in neocortical neurons were present in the great majority of the lesions and often showed high labeling indices. There were three tuberous sclerosis-like lesions (30%) that contained both NR1 and glutamate decarboxylase immunoreactive giant cells in addition to well-differentiated ganglion cells. This supports the idea that at least some of these giant cells are of neuronal origin. The oligodendroglia-like cells of DNT and glioneuronal hamartias did not show immunoreactivity for any of the markers. The very high incidence of ganglioglial lesions in patients with chronic focal epilepsies and the presence of neurotransmitter-producing enzymes, neurotransmitter receptors, neuropeptides, and calcium-binding proteins in many of these lesions suggests that they may play an active role in the pathogenesis of epileptic seizures.
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PMID:Neurochemical profile of glioneuronal lesions from patients with pharmacoresistant focal epilepsies. 766 58

The distribution and extent of glutamate decarboxylase 65 (GAD65) mRNA-labeled neurons that coexpress pre-prosomatostatin mRNA were studied in the rat dentate gyrus of the dorsal and ventral hippocampal formation. The distribution of each group of neurons was determined initially by nonradioactive in situ hybridization experiments with digoxigenin-labeled riboprobes for GAD65 mRNA and pre-prosomatostatin mRNA. Double labeling experiments were then conducted with digoxigenin-labeled riboprobes for GAD65 mRNA and 35S-labeled riboprobes for pre-prosomatostatin mRNA. In the dorsal and ventral dentate gyrus, GAD65 mRNA-containing neurons were highly concentrated in the hilus and in the innermost part of the granule cell layer whereas only a few labeled neurons were scattered in the molecular layer. Pre-prosomatostatin mRNA-containing neurons were primarily located in the hilus and were virtually absent from the molecular and granule cell layers. The simultaneous detection of GAD65 and pre-prosomatostatin mRNAs in the same sections showed that the vast majority of pre-prosomatostatin mRNA-containing neurons in the hilus of the dentate gyrus were also labeled for GAD65 mRNA. In contrast many GAD65 mRNA-labeled neurons did not contain pre-prosomatostatin mRNA. These included all neurons in the molecular layer, neurons within the inner granule cell layer and neurons interspersed amongst double labeled neurons in the hilus. Quantitative analyses indicated that a very high percentage of hilar pre-prosomatostatin mRNA-containing neurons coexpressed GAD65 mRNA in the dorsal (96%) and ventral (92%) dentate gyrus. In contrast only a part of the total population of hilar GAD65 mRNA-containing neurons were also labeled for pre-prosomatostatin mRNA in the dorsal (43%) and ventral (53%) dentate gyrus. In the CA3c region, the percentages of neurons containing both mRNAs were similar to those observed in the hilus. The findings demonstrate that the vast majority of hilar somatostatin neurons, which have previously been shown to be extremely vulnerable to ischemia and seizure-induced damage, are GABA neurons. However, the total population of GAD65 mRNA-containing neurons in the hilus is substantially larger than the somatostatin-containing subgroup, and these findings reinforce the suggestion that GABA neurons are a major component of the diverse group of neurons in the hilus of the dentate gyrus.
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PMID:Somatostatin neurons are a subpopulation of GABA neurons in the rat dentate gyrus: evidence from colocalization of pre-prosomatostatin and glutamate decarboxylase messenger RNAs. 770 May 25

This study determined differences of fascia dentata (FD) peptide and inhibitory neuroanatomy between patients with epileptogenic hippocampal sclerosis (HS), those with extrahippocampal seizure pathologies, and autopsy comparisons. Surgically treated temporal lobe epilepsy patients were clinically classified into two pathogenic categories: (1) HS with focal mesial temporal neuroimaging and histories of initial precipitating injuries to the brain (n = 18) and (2) non-HS patients with extrahippocampal mass lesions or idiopathic seizures (i.e., without lesions or HS; mass lesion/idiopathic; n = 9). The hippocampal sections were studied for (1) granule cell, hilar, CA4, and CA3 neuron densities; (2) hilar densities and the percentage of neurons immunoreactive (IR) for neuropeptide Y (NPY), somatostatin (SS), and glutamate decarboxylase (GAD); (3) densities of GAD neurons in the lower granule cell and infragranular zone (basket-like cells); (4) the semiquantitative pattern of IR peptides/GAD FD molecular layer axon sprouting; (5) IR gray values (GV) of the FD molecular layers; and (6) the thickness of the supragranular molecular layer. Results showed the following. (1) Compared to autopsies, both HS and mass lesion/idiopathic patients showed less granule cell and CA3 neuron densities, but there were no statistical differences between the latter two pathogenic categories. (2) By contrast, compared to autopsies and mass lesion/idiopathic cases, HS patients showed less hilar and CA4 neuron densities, and there were no differences between autopsies and mass lesion/idiopathic. (3) Compared to autopsies, the NPY and SS hilar neuron densities in HS patients, but not mass lesion/idiopathic cases, were less. (4) Compared to autopsies, the hilar GAD neuron densities for HS and mass lesion/idiopathic patients were not less. (5) In HS patients the averaged percentages of hilar SS neurons were less than autopsies, and no other differences of IR hilar percentages were found. (6) The densities of GAD basket-like neurons and the thickness of the supragranular molecular layer were not different between any combination of pathogenic categories and autopsies. (7) By semiquantitative visual assessments, peptides/GAD axon sprouting into the FD was greater in HS compared to mass lesion/idiopathic or autopsies. (8) Compared to mass lesion/idiopathic cases, in HS NPY outer molecular layer GVs were lower, SS GVs were not different, and GAD inner molecular layer GVs were higher. (9) Analyses comparing the two pathogenic categories and neuron densities with peptides/GAD axon sprouting found six comparisons that correlated sprouting with hilar and CA4 neuron losses, and four comparisons showing greater sprouting in HS compared to mass lesion/idiopathic.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Reactive synaptogenesis and neuron densities for neuropeptide Y, somatostatin, and glutamate decarboxylase immunoreactivity in the epileptogenic human fascia dentata. 775 60


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