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 intramuscular administration of L-cycloserine, gabaculine, and aminooxyacetic acid caused significant, time-dependent increases in the gamma-aminobutyric acid (GABA) content of both whole brain and synaptosomal-enriched preparations obtained from the tissue, a linear relationship being observed between the two parameters. In contrast, the administration of hydrazine resulted in a large increase in whole brain GABA level, with little change in the synaptosomal GABA content. The key factor in these different responses appeared to be the degree of inhibition of glutamic acid decarboxylase by the drugs. Pretreatment of mice with the GABA-elevating agents resulted in a delay in the onset of seizures, which was related directly to the increase in synaptosomal GABA content. Although the seizures were delayed, they occurred while the GABA content of nerve endings (synaptosomes) was above that in preparations from untreated animals. The decrease in GABA content at the onset of seizures, expressed as a percentage of the level at the time of injection of the convulsant agent, was, however, reasonably constant. A hypothesis to explain these results is proposed.
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PMID:The gamma-aminobutyrate content of nerve endings (synaptosomes) in mice after the intramuscular injection of gamma-aminobutyrate-elevating agents: a possible role in anticonvulsant activity. 745 48

Zinc modulates the activity of glutamic acid decarboxylase, the rate limiting enzyme in the synthesis of gamma-aminobutyric acid (GABA), which is a major inhibitory neurotransmitter. Low cerebrospinal fluid GABA values have been reported in association with several seizure disorders, including febrile convulsions. It is also known that fever and/or infections may cause a reduction in serum zinc concentrations. In this study the hypothesis that febrile convulsions are related to low cerebrospinal fluid zinc was tested. Cerebrospinal fluid zinc concentrations were measured in 66 febrile children: 32 with febrile convulsions, 18 with fever but without convulsions, and 16 with aseptic (viral) meningitis. There was no statistically significant difference in the cerebrospinal fluid zinc between the three groups of children, and the mean concentration was 26.2 micrograms/l. No significant relationship was found between either age, gender, maximal temperature, type of infection, or time of performance of the lumbar puncture and cerebrospinal fluid zinc concentration. These results do not support the hypothesis that febrile convulsions are related to reduced cerebrospinal fluid zinc concentrations.
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PMID:Cerebrospinal fluid zinc concentrations in febrile convulsions. 749 99

Congenital ornithine transcarbamylase (OTC) deficiency in humans is associated with seizures and mental retardation. As part of a series of studies to delineate the neurochemical features of OTC deficiency, activities of choline acetyltransferase (ChAT) and acetylcholinesterase (AChE), respectively, were measured in brain regions of the congenitally hyperammonemic sparse-fur (spf) mouse, a mutant with an X-linked inherited defect of OTC. ChAT activities were reduced by 63% (P < 0.01) in cerebral cortex of spf mice compared with CD-1/Y controls. Activities of the GABA nerve terminal marker enzyme, glutamic acid decarboxylase, on the other hand, were within normal limits. Using an immunohistochemical technique with a monoclonal antibody to ChAT, a significant loss of ChAT-positive neurons was observed throughout the cerebral cortex, septal area and diagonal band of spf mice. These results suggest that a loss of forebrain cholinergic neurons is a feature of congenital OTC deficiency in these mutants. Possible pathogenetic mechanisms responsible for the cholinergic neuronal loss in congenital OTC deficiency include neurotoxic effects of ammonia and accumulation of quinolinic acid.
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PMID:Evidence for cholinergic neuronal loss in brain in congenital ornithine transcarbamylase deficiency. 781 42

An abnormality in the pyridoxal-5'-phosphate (PLP) dependent enzyme, glutamic acid decarboxylase (GAD), which synthesizes gamma-aminobutyric acid (GABA), may underlie the epileptic syndrome of pyridoxine-dependent seizures. GABA synthesis by skin fibroblasts from an infant with pyridoxine-dependent seizures, and from five controls, was measured. PLP independent GAD activity was similar in control and patient fibroblasts, whereas the patient's PLP dependent GAD activity was reduced compared with controls. These findings support the hypothesis for the expression of this familial disease.
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PMID:Reduced GABA synthesis in pyridoxine-dependent seizures. 791 Feb 33

In situ hybridization methods were used to determine if glutamic acid decarboxylase (GAD) mRNA-containing neurons within the hilus of the dentate gyrus are vulnerable to seizure-induced damage in a model of chronic seizures. Sprague-Dawley rats were injected intraperitoneally with pilocarpine, and the hippocampal formation was studied histologically at 1, 2, 4, and 8 week intervals after pilocarpine-induced seizures. In situ hybridization histochemistry, using a digoxigenin-labeled GAD cRNA probe, demonstrated a substantial decrease in the number of GAD mRNA-containing neurons in the hilus of the dentate gyrus in the pilocarpine-treated rats as compared to controls at all time intervals. Additional neuronanatomical studies, including cresyl violet staining, neuronal degeneration methods, and histochemical localization of glial fibrillary acidic protein, suggested that the decrease in the number of GAD mRNA-containing neurons was related to neuronal loss rather than to a decrease in GAD mRNA levels. The loss of GAD mRNA-containing neurons in the hilus contrasted with the relative preservation of labeled putative basket cells along the inner margin of the granule cell layer. Quantitative analyses of labeled neurons in three regions of the dentate gyrus in the 1 and 2 week groups showed statistically significant decreases in the mean number of GAD mRNA-containing neurons in the hilus of both groups of experimental animals. No significant differences were found in the molecular layer or the granule cell layer, which included labeled neurons along the lower margin of the granule cell layer. The results indicate that, in this model, a subpopulation of GAD mRNA-containing neurons within the dentate gyrus is selectively vulnerable to seizure-induced damage. Such differential vulnerability appears to be another indication of the heterogeneity of GABA neurons.
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PMID:Loss of glutamate decarboxylase mRNA-containing neurons in the rat dentate gyrus following pilocarpine-induced seizures. 841 Jan 99

Gamma-aminobutyric acid (GABA), a major inhibitory neurotransmitter in the mammalian central nervous system, is produced from glutamic acid in a reaction catalysed by glutamic acid decarboxylase. The sequential actions of GABA-transaminase (converting GABA to succinic semialdehyde) and succinic semialdehyde dehydrogenase (oxidizing succinic semialdehyde to succinic acid) allow oxidative metabolism of GABA through the tricarboxylic acid cycle. The inherited disorders of GABA metabolism include: (1) pyridoxine-dependent seizures (?glutamic acid decarboxylase deficiency) (> 50 patients); (2) GABA-transaminase deficiency (2 patients/1 family); (3) succinic semialdehyde dehydrogenase deficiency (32 patients/21 families); and (4) homocarnosinosis associated with serum carnosinase deficiency (3 patients/1 family). Homocarnosine is a brain-specific dipeptide of GABA and L-histidine. Of these four defects, definitive enzymatic diagnoses have been made only for GABA-transaminase and succinic semialdehyde dehydrogenase deficiencies. The presumptive mode of inheritance for all disorders is autosomal recessive, and all are associated with central nervous system dysfunction. Only succinic semialdehyde dehydrogenase deficiency manifests organic aciduria, which may account for the higher number of patients identified with this disorder; identification of additional patients with some of the other disorders will require increased request for analysis of cerebrospinal fluid metabolites by paediatricians and neurometabolic specialists.
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PMID:Inherited disorders of GABA metabolism. 841 16

Temporal lobe epilepsy is the most common form of epilepsy. Decreased GABA-ergic inhibition has been suggested as one cause of hyperexcitability. On the other hand, increased expression of glutamic acid decarboxylase, the rate-limiting enzyme of GABA synthesis, has been found in interneurons of the hippocampus in patients with temporal lobe epilepsy and in rats after kainic acid-induced limbic seizures, indicating increased GABA-ergic transmission. Here we report differential expression of two genes encoding different molecular forms of glutamic acid decarboxylase (GAD), GAD65 and GAD67, after kainic acid-induced seizures in the rat. There is a rapid but transient elevation of GAD67 mRNA levels in granule cells 6-24 h after kainic acid injection, followed by enhanced GAD immunoreactivity in the terminal field of mossy fibers. In interneurons in the hilus of the dentate gyrus, a sustained and progressing increase in the expression of both GAD65 and GAD67 messenger RNA occurs. These observations indicate that consitutively glutamatergic mossy fibers may be capable of synthetizing and utilizing the inhibitory transmitter GABA in sustained limbic seizures. Enhanced expression of glutamic acid decarboxylases within interneurons and in granule cells/mossy fibers suggest augmented GABA-ergic neurotransmission supporting selfprotective, anticonvulsive mechanisms in limbic epilepsy.
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PMID:Hippocampal granule cells express glutamic acid decarboxylase-67 after limbic seizures in the rat. 859 41

Immunocytochemical methods were used to study alterations in inhibitory neuronal circuits in human neocortex resected during surgical treatment of intractable temporal epilepsy associated or not with brain tumours. The epileptogenic cortex was characterized and divided into spiking or non-spiking zones by intraoperative electrocorticography (ECOG). The resected cortex was cut into blocks, sectioned and stained immunocytochemically for visualization of glutamic acid decarboxylase (GAD), the calcium-binding protein, parvalbumin (PV) and glial fibrillary acidic protein (GFAP). A variety of alterations in cortical neuronal circuits as revealed by immunocytochemical and histological methods were found. Similar alterations in inhibitory neuronal circuits appear to occur independently of the primary epileptogenic site and pathology associated with epilepsy, which suggests that there is possibly a common basic underlying mechanism that leads to seizure activity. These changes were apparently unrelated to ECOG findings at surgery, which bring into question the value of the use of interictal epileptic discharges recorded by ECOG to guide cortical resections. The most conspicuous and common change was the loss of chandelier cells. The finding that these cells are among the most vulnerable types of GABAergic interneurons in the epileptogenic temporal cortex indicates that they might be of great functional importance, since the axon terminals of chandelier cells are likely to exert powerful regulation of impulse generation in cortical pyramidal cells. Therefore, these cells might represent a key component in the aetiology of human epilepsy.
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PMID:Inhibitory neurons in the human epileptogenic temporal neocortex. An immunocytochemical study. 881 95

Glial uptake of beta-[14C]alanine (beta-Ala) was studied in male Sprague-Dawley rats after sub-pial iontophoresis of FeCl3 into the right motor strip. Models bearing a 15-day-old scar were selected because of the presence of strongly reactive glia induced by FeCl3. Behavioral seizures were observed by daily visual inspection in one third of the animals. The effects of intraperitoneal (i.p.) injections of DL-alpha-aminoadipic acid (DLaAA), which exerts specific gliotoxicity through glutamine synthetase (GS) inhibition, and of 3-mercaptoproprionic acid (3MP), a potent inhibitor of glutamic acid decarboxylase (GAD: the rate-limiting enzyme in the biosynthesis of gamma-aminobutyric acid [GABA]), were also examined. There was significant enhancement of beta-Ala uptake in the margins of the scars. Further increases of uptake were triggered by 3MP, and there was extensive recruitment of astrocytes within isocortex even at a distance from the edges of the scar. DL-alpha-Aminoadipic acid caused a slight decrease of beta-Ala uptake, which was selectively localized to the scar margins. Seizure activity was unchanged by high i.p. doses of DL alpha AA. Our results strongly suggest that beta-Ala has high affinity for normal and reactive astrocytes, and that the uptake can be significantly enhanced by lowering endogenous GABA levels in abnormal cortical tissues in and around FeCl3-lesions by inhibition of GAD. Enhancement of glial beta-Ala uptake appeared to depend heavily on increased endothelial transport of small neutral amino acids, in a process modulated by perivascular glia. This model of free radical neurotoxicity may help gain more insight into abnormal neuronal-glial interactions caused by lipid peroxidation.
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PMID:beta-alanine uptake is upregulated in FeCl3-induced cortical scars. 884 51

Levetiracetam ((S)-alpha-2-oxo-pyrrolidine acetamide, ucb L059) is a novel anticonvulsant drug presently in clinical development. Its mechanism of action is unknown although a recently novel specific binding site for [3H]levetiracetam, unique to brain, may be involved. This binding site has yet been characterized, but some evidence suggested a possibly indirect interaction with the GABA system. We therefore examined levetiracetam's effects on GABA metabolism and turnover in several rat brain regions after systemic administration of anticonvulsant doses. Furthermore, in order to study functional effects of levetiracetam on a well defined system of GABAergic neurons in a brain region that has been critically involved in anticonvulsant drug action, we examined levetiracetam's action on spontaneous firing of substantia nigra pars reticulata (SNR) neurons in anesthetized rats. Although levetiracetam did not alter the activity of the GABA synthesizing and degrading enzymes glutamic acid decarboxylase (GAD) and GABA aminotransferase (GABA-T) in vitro, systemic administration induced significant alterations in these enzymes in several brain regions, indicating that these enzyme alterations were no direct drug effects but a consequence of postsynaptic changes in either GABAergic or other neurotransmitter-related systems. In the striatum, levetriacetam, 170 mg/kg i.p., induced a significant increase in GABA-T activity while GAD activity markedly decreased. When GABA turnover was estimated after inhibition of GABA-T by aminooxyacetic acid (AOAA), treatment with levetiracetam (given 15 min prior to injection of AOAA) significantly reduced GABA turnover in the striatum. Since the substantia nigra pars reticulata (SNR) receives a strong GABAergic input from the striatum, we examined if the alterations in GABA metabolism and turnover in the striatum led to functional alterations in neuronal activity in the SNR by recording single unit activity of SNR neurons after i.p. injection of levetiracetam. While injection of vehicle did not affect SNR neuronal activity, a significant decrease in spontaneous neuronal firing was recorded after levetiracetam. Since a substantial body of evidence suggests that the SNR is a critical site at which decrease of neuronal firing results in protection against various seizure types, the suppressive effect of levetiracetam on SNR activity may contribute to the anticonvulsant action of this drug.
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PMID:The novel antiepileptic drug levetiracetam (ucb L059) induces alterations in GABA metabolism and turnover in discrete areas of rat brain and reduces neuronal activity in substantia nigra pars reticulata. 891 59


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