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)

Amino acid concentrations were measured in the cortex, cerebellum and hippocampus of the mouse brain before and during seizures induced by isoniazid (250 mg/kg i.p.), an inhibitor of L-glutamate-1-decarboxylase (EC 4.1.1.15: GAD). Valproate sodium and diazepam dose-dependently delay the onset of convulsive fits caused by isoniazid. However, neither diazepam nor valproate prevented the decrease in GABA concentrations produced by isoniazid alone. Also, these antiepileptic drugs did not modify the rate of GABA depletion elicited by isoniazid. These results, observed in four different brain structures, strengthen those first obtained with beta-vinyllactic acid, another inhibitor of GAD.
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PMID:The specific protective effect of diazepam and valproate against isoniazid-induced seizures is not correlated with increased GABA levels. 393 Jun 61

1. DL-C-Allyglycine, 4-deoxypyridoxine hydrochloride and 3-mercaptopropionic acid have been studied with reference to their convulsant effects in mice and in baboons (Papio papio) with photosensitive epilepsy, and their action on the cerebral enzyme synthesizing gamma-aminobutyric acid (L-glutamate-1-carboxy-lyase).2. In mice, the ED(50) values for seizures following intraperitoneal injection were allylglycine 1.0 mmol/kg body weight, 4-deoxypyridoxine 1.1 mmol/kg and 3-mercaptopropionic acid 0.27 mmol/kg. Latency to seizure onset was longest after allylglycine (44-240 min), intermediate after 4-deoxypyridoxine (9-114 min) and shortest after 3-mercaptopropionic acid (2.5-8 min).3. In Papio papio intravenous administration of subconvulsant doses of allylglycine (0.87-3.1 mmol/kg), or of 4-deoxypyridoxine (0.21-0.53 mmol/kg) enhanced the occurrence and persistence of myoclonic responses to intermittent photic stimulation, and augmented the associated electroencephalographic abnormalities, without modifying their character or distribution. Higher doses produced brief seizures recurring at regular intervals, between 2-14 h after allylglycine (4.0-4.3 mmol/kg) or 1-4 h after 4-deoxypyridoxine (0.53-0.87 mmol/kg). Electroencephalographically these seizures originated unilaterally in the occipital or posterior parietal cortex.4. In Papio papio photically-induced epileptic responses were enhanced 5-10 min after the intravenous injection of 3-mercaptopropionic acid (0.09-0.28 mmol/kg). A sequence of brief generalized seizures followed by complete recovery occurred 4-17 min after the injection of 3-mercaptopropionic acid (0.28-0.38 mmol/kg). Fatal status epilepticus followed the injection of 3-mercaptopropionic acid (0.57-0.75 mmol/kg). E.E.G. records showed generalized cortical involvement at the onset of the seizures.5. L-Glutamate 1-carboxy-lyase (GAD) activity was determined in whole brain homogenates from mice killed at various intervals after receiving i.p. a convulsant dose of one of the compounds. Inhibition of GAD activity was evident 30-60 min before seizure onset following allylglycine or 4-deoxypyridoxine administration, and was maximal (40-60%) just before or during seizure activity. Addition of pyridoxal phosphate to the brain homogenate relieved inhibition produced by 4-deoxypyridoxine but not that produced by allylglycine. Inhibition of GAD activity in brain homogenates from animals killed 2 or 4 min after injection of a convulsant dose of 3-mercaptopropionic acid varied from 0-49% depending on the dose of 3-mercaptopropionic acid and the concentration of substrate in the assay system.6. Kinetic analysis of the inhibition of GAD activity following direct addition of the compounds to mouse brain homogenates indicated that 3-mercaptopropionic acid (0.01-0.5 mM) was competitive with respect to the substrate. A comparable percentage inhibition of GAD activity was obtained only with much higher concentrations of 4-deoxypyridoxne, i.e. 10-50 mM. Allylglycine in vitro was a very weak inhibitor of GAD activity.7. Three biochemically different mechanisms underlie the inhibition of cerebral GAD activity that precedes seizures induced by ailylglycine, 4-deoxypyridoxine and 3-mercaptopropionic acid. The data are consistent with a critical reduction in the rate of synthesis of gamma-aminobutyric acid being responsible for the onset of seizures.
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PMID:Seizures induced by allylglycine, 3-mercaptopropionic acid and 4-deoxypyridoxine in mice and photosensitive baboons, and different modes of inhibition of cerebral glutamic acid decarboxylase. 420 45

Epileptic and normal Macaca mulatta monkey cortex was investigated using ligand binding techniques. Subpial injections of aluminum hydroxide gel into the left sensorimotor cortex produced stable seizure frequencies over a two year period and resulted in specific biochemical and receptor abnormalities. Pair matched CSF samples comparing epileptic and non-epileptic hemispheres showed a significant decreased GABA concentration over the epileptic side. The epileptic cortex demonstrated markedly reduced GABA receptor binding and diminished tissue GABA concentration and GAD activity. Two patterns of receptor loss were observed: nonspecific local cellular drop out involving multiple neurotransmitter receptors; and distal receptor loss which was specific for the neurotransmitter intervention pattern of the cortex. GABAergic receptor loss was more marked than receptor losses for the other neurotransmitter and was more widespread. Scatchard plot analysis demonstrated that the diminished GABAergic receptors within the focus were due to receptor loss and not affinity changes. Spearman rank correlations showed a significant correlation only between the degree of GABAergic receptor loss or decrease in GAD activity and the seizure frequency. Epilepsy appears to be a multifactoral disorder with multiple neuroreceptor abnormalities, the most notable of which are the destruction of GABAergic neurons and GABA receptors.
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PMID:Neurotransmitter, receptor and biochemical changes in monkey cortical epileptic foci. 611 78

The substantia innominata complex (SI) is the major source of cholinergic innervation to the amygdala, entorhinal and pyriform cortices, and the neocortex. Immunohistochemical studies using both monoclonal and polyclonal antibodies to choline acetyltransferase (ChAT) have clearly identified that the large size neurons of this area are cholinergic. We have lesioned this area by three methods: electrocoagulation, kainic acid (KA) injection and folic acid (FA) injection. Biochemical (GAD, ChAT and QNB binding) and histological studies of the SI and its known target areas as well as the hippocampus, thalamus and striatum were undertaken. Histologically, electrolytic and KA (2 nmol) lesions produced extensive local damage, but local damage was minimal with FA (100-250 nmol). Electrolytic lesions produced no remote neuronal damage. KA injections produced mild to moderate damage in the amygdala and cortex, while FA produced severe damage in the amygdala and pyriform cortex, with less severe damage in the entorhinal cortex and neocortex. Biochemically, electrolytic lesions produced drops in ChAT only in remote areas. Kainic acid produced moderate drops in ChAT, GAD and QNB binding. FA, on the other hand, produced only a minimal change in ChAT, but very heavy reductions in GAD and QNB binding. Thus, GABA neurons of the cortex were damaged. They may also be the cholinoceptive neurons that were damaged. The remote damage following KA and, particularly, FA, is presumed to be due to the epileptiform activity induced by the local injection of these agents. Reduction in both seizures and remote damage was brought about by pre-treatment of the animals with valium (20 mg/kg) or scopolamine (50 mg/kg). Injection of FA into the amygdala or striatum produced some remote damage but it was much less in magnitude than after SI injection.
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PMID:A possible relationship between folic acid neurotoxicity and cholinergic receptors in the pyriform cortex and amygdala. 657 18

The intracerebroventricular injection of pyridoxal phosphate (PLP, 0.125-1.25 mumol/rat) causes epileptic seizures (4 min leads to 1 min) that are preventable or reversible by GABA (1 mumol/rat), by muscimol (0.025 mumol/rat), or by diazepam (1.75 mumol/rat). At the peak of PLP-induced convulsions, the activities of GAD and GABA-T in 14 regions of rat brain remained unaltered, whereas the concentrations of PLP remained elevated. The PLP-induced convulsion was blocked by DABA (10 mumol/rat) but was not altered by beta-alanine (50 mumol/rat). The previous in vitro studies have shown that PLP increases the uptake of [3H]GABA into synaptosomes and inhibits the binding of [3H]GABA to synaptic membranes. These data suggest that PLP-induced convulsion is due to reduced availability of GABA to its recognition sites, rather than to alteration in the activity of GABA metabolizing enzymes, or unavailability of PLP as a coenzyme for GAD and GABA-T. Since the duration of PLP-induced epileptic seizures is short and can be prevented by GABA agonists, PLP may be used as a tool to study the nature of GABA-mediated neuroinhibition and the properties of GABA receptor sites.
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PMID:Anticonvulsant activity of muscimol and gamma-aminobutyric acid against pyridoxal phosphate-induced epileptic seizures. 746 50

Glutamate decarboxylase (EC 4.1.1.15, GAD) activity was studied in the brain of 12-day-old and adult rats treated with 3-mercaptopropionic acid (3-MPA), an inhibitor of GAD competitive with glutamate. Control GAD activity in the brains of immature animals (91.8 +/- 18.2 nmol/h/mg of protein) was lower than that of the adult rats (228 +/- 37.5 nmol/h/mg of protein). Brain GAD inhibition in adult rats was 58% at the onset of seizures (9 min on the average after administration of 70 mg 3-MPA/kg). At the same time, 3-MPA-treated young rats exhibited 76% inhibition of GAD despite the fact that at 9 min these animals were not yet having seizures. At the onset of seizures (19 min after 3-MPA on the average) their GAD activity remained at the same level. The difference between the groups was not related to the presence of the coenzyme pyridoxal-5'-phosphate in the enzyme assay. The inhibition of GAD by 3-MPA in vitro in the immature and adult brains was similar (Ki at 5.1 microM and 4.8 microM concentrations of 3-MPA, respectively). Identical values were found for Km of GAD (at 4.5 mM concentration of L-glutamate). Calculations based on the results suggest that 3-MPA enters the immature brain more easily than the brain of the adult animals. While GAD inhibition by 3-MPA is the primary cause of seizures, their onset is influenced by other factors, in which the immature brain differs from the adult one and which may include less sensitivity to GABA decrease due to relative overactivity of the GABA system.
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PMID:Differences between immature and adult rats in brain glutamate decarboxylase inhibition by 3-mercaptopropionic acid. 779 89

In this study the effect of the anti-inflammatory drugs indomethacin, ibuprofen, ebselen (PZ 51, 2-phenyl-1,2-benzoisoselenazol-3(2H)-one), and BW755C (3-amino-1-(m-(trifluoromethyl-phenyl)-2-pyrazoline) on kainic acid (KA)-induced behavioral and neurochemical changes in rats was investigated. Rats injected with KA (10 mg/kg s.c.) developed seizure activity with a 20% mortality within the first 4 h and neuronal degeneration in the limbic system after 3 days. Pretreatment with the cyclooxygenase inhibitor indomethacin (10 mg/kg i.p.) augmented KA-induced epileptic activity and increased the mortality in status epilepticus to 80%. Another cyclooxygenase inhibitor, ibuprofen (20 mg/kg i.p.), and the lipoxygenase inhibitor ebselen (20 mg/kg i.p.) showed no effect on KA-induced symptoms and neurochemical changes. Application of the cyclooxygenase/lipoxygenase inhibitor BW755C (40 mg/kg i.p.) reduced the severity of seizures and protected significantly from irreversible brain lesions induced by KA. The marked reduction of glutamate decarboxylase (GAD; 53.3 +/- 12.2% of control) and choline acetyltransferase (ChAT; 60.9 +/- 9.1% of control) activities in amygdala/pyriform cortex and GAD activity in hippocampus (69.4 +/- 5.6% of control) observed 3 days after KA injection was abolished by BW755C treatment. Histopathological analyses of brain tissue showed that treatment with BW755C prevented the KA-induced nerve cell degeneration, edema, hemorrhages, and tissue necrosis in amygdala/pyriform cortex.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The cyclooxygenase and lipoxygenase inhibitor BW755C protects rats against kainic acid-induced seizures and neurotoxicity. 806 64

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

The excitatory, glutamatergic granule cells of the hippocampal dentate gyrus are presumed to play central roles in normal learning and memory, and in the genesis of spontaneous seizure discharges that originate within the temporal lobe. In localizing the two GABA-producing forms of glutamate decarboxylase (GAD65 and GAD67) in the normal hippocampus as a prelude to experimental epilepsy studies, we unexpectedly discovered that, in addition to its presence in hippocampal nonprincipal cells, GAD67-like immunoreactivity (LI) was present in the excitatory axons (the mossy fibers) of normal dentate granule cells of rats, mice, and the monkey Macaca nemestrina. Using improved immunocytochemical methods, we were also able to detect GABA-LI in normal granule cell somata and processes. Conversely, GAD65-LI was undetectable in normal granule cells. Perforant pathway stimulation for 24 hours, which evoked population spikes and epileptiform discharges in both dentate granule cells and hippocampal pyramidal neurons, induced GAD65-, GAD67-, and GABA-LI only in granule cells. Despite prolonged excitation, normally GAD- and GABA-negative dentate hilar neurons and hippocampal pyramidal cells remained immunonegative. Induced granule cell GAD65-, GAD67-, and GABA-LI remained elevated above control immunoreactivity for at least 4 days after the end of stimulation. Pre-embedding immunocytochemical electron microscopy confirmed that GAD67- and GABA-LI were induced selectively within granule cells; granule cell layer glia and endothelial cells were GAD- and GABA-immunonegative. In situ hybridization after stimulation revealed a similarly selective induction of GAD65 and GAD67 mRNA in dentate granule cells. Neurochemical analysis of the microdissected dentate gyrus and area CA1 determined whether changes in GAD- and GABA-LI reflect changes in the concentrations of chemically identified GAD and GABA. Stimulation for 24 hours increased GAD67 and GABA concentrations sixfold in the dentate gyrus, and decreased the concentrations of the GABA precursors glutamate and glutamine. No significant change in GAD65 concentration was detected in the microdissected dentate gyrus despite the induction of GAD65-LI. The concentrations of GAD65, GAD67, GABA, glutamate and glutamine in area CA1 were not significantly different from control concentrations. These results indicate that dentate granule cells normally contain two "fast-acting" amino acid neurotransmitters, one excitatory and one inhibitory, and may therefore produce both excitatory and inhibitory effects. Although the physiological role of granule cell GABA is unknown, the discovery of both basal and activity-dependent GAD and GABA expression in glutamatergic dentate granule cells may have fundamental implications for physiological plasticity presumed to underlie normal learning and memory. Furthermore, the induction of granule cell GAD and GABA by afferent excitation may constitute a mechanism by which epileptic seizures trigger compensatory interictal network inhibition or GABA-mediated neurotrophic effects.
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PMID:Basal expression and induction of glutamate decarboxylase and GABA in excitatory granule cells of the rat and monkey hippocampal dentate gyrus. 888 46

Recent studies have shown that alterations in gamma-aminobutyric acid (GABAA) and N-methyl-D-aspartate (NMDA) receptor subunit mRNA levels are associated with the effects of chronic ethanol exposure as well as genetic selection for ethanol withdrawal seizure sensitivity. We have previously shown that chronic ethanol exposure in rats results in a decrease in the levels of GABAA receptor alpha 1 and alpha 2 subunit mRNAs in cerebral cortex, an increase in the levels of alpha 6 subunit mRNAs in cerebellum and no alteration in alpha 3, GAD, ribosomal RNA or polyA + RNA levels in these regions. Since chronic ethanol administration increases the expression of [3H]Ro15-4513 binding sites in cortex and cerebellum with no effect on other GABAA receptor recognition sites, we hypothesized that the expression of other subunits would be altered in these regions. In addition, since ethanol appears to interact with zolpidem-sensitive GABAA receptors in rat brain, we investigated the effect of chronic ethanol administration on these recognition sites. Chronic ethanol administration increased [3H]zolpidem binding with no effect on levels of GABAA receptor beta 2 and gamma 2 subunit mRNAs. In addition, we examined the levels of NMDAR1 receptor subunit mRNAs since chronic ethanol administration results in increased levels of [3H]MK-801 recognition sites on NMDA receptors. NMDAR1 receptor subunit mRNAs were not altered following chronic ethanol exposure in rat cortex or hippocampus. These studies underscore the specificity of ethanol interactions with these receptors and the importance of understanding the mechanisms of both GABAA and NMDA receptor regulation in elucidating the etiology of ethanol dependence.
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PMID:GABAA and NMDA receptor subunit mRNA expression in ethanol dependent rats. 897 21

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