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)

In the present study glutamate decarboxylase immunoreactivity (GAD-IR) was used to quantify GABAergic neurons in the hippocampus of rats exhibiting spontaneous recurrent seizures following pilocarpine-induced status epilepticus. Histological examination demonstrated marked neuronal damage to hippocampal neurons. However, in the same region, GAD-IR neurons were preserved. The present data demonstrate a selective resistance of GABAergic neurons to status epilepticus-induced neuronal damage, suggesting that loss of hippocampal GABAergic neurons does not underlie the recurrence of seizures in these animals.
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PMID:GAD-immunoreactive neurons are preserved in the hippocampus of rats with spontaneous recurrent seizures. 212 65

The hippocampus, a component of the limbic system, is a prominent subcortical structure, which not only contains high concentrations of zinc, but also exhibits regional variations in this essential element, with concentrations being highest in the hilar region and lowest in the fimbria. For example, the concentration of zinc in the mossy fiber axons has been estimated to approach 300-350 microM. Both zinc and pyridoxal phosphate (PLP) deficiency and excess have been reported to produce epileptiform seizures, which are blocked by gamma-aminobutyric acid (GABA). The proposed mechanism is that at physiological concentrations zinc stimulates the activity of the hippocampal pyridoxal kinase (50% stimulation at 1.7 x 10(-7) M), enhancing the formation of PLP, whereas in pharmacological doses zinc inhibits the activity of glutamate decarboxylase (GAD) directly (50% inhibition at 6.5 X 10(-4) M) by preventing the binding of PLP to HoloGAD. Furthermore, recent studies have shown that two forms of GAD are found in the rat brain. One form (GAD A) does not require PLP for maximal activity, while another form (GAD B) does. Furthermore, the ratio between GAD A and GAD B is nonuniform throughout brain areas, and the hippocampus contains twice as much GAD B (the PLP-requiring GAD) as GAD A. Although the hippocampus is a common target of exogenous neurotoxic agents, "free" zinc in greater than physiological concentrations should be considered an endogenous central neurotoxin. For example, iontophoretically applied zinc in the frontoparietal cortex enhances and prolongs the firing rate of neurons in urethane-anesthetized rat. In addition, zinc (50-500 microM) significantly depresses the paired-pulse potentation in the hippocampal CA3 subfield. Moreover, zinc selectively blocks the action of N-methyl-D-aspartate on cortical neurons and enhances the quisqualate receptor-mediated injury. Finally zinc competitively inhibits the calcium-dependent release of transmitter by inhibiting the entry of Ca2+ into the nerve terminals. Since zinc in a concentration of 300-350 microM could not possibly remain "unbound" in the hippocampus, we searched for and identified a metallothionein-like protein (MT) in the bovine hippocampus, which produces two isoforms on reverse-phase HPLC and lacks aromatic amino acids, but possesses metallomercaptide bonds. We believe that the hippocampal metallothionein, by donating zinc to an extensive number of zinc-activated, PLP-mediated biochemical reactions, modulates synaptic functions. Furthermore, by virtue of its inducibility, metallothionein binds additional amounts of zinc, maintains its steady-state concentration, prevents inhibition of an extensive number of sulfhydryl-containing enzymes and receptor sites, and hence averts metal-related neurotoxicity.
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PMID:Hippocampal zinc thionein and pyridoxal phosphate modulate synaptic functions. 219 11

The calcium-binding protein parvalbumin (PARV) is supposed to have a protective function under conditions of experimental seizure and hypoxia in a subgroup of GABAergic inhibitory neurons in the adult rat hippocampus. Here we studied the appearance of PARV immunoreactivity in rat hippocampal non-pyramidal cells during postnatal development in comparison to glutamate decarboxylase (GAD) immunoreactivity. PARV-immunoreactive neurons were not observed before postnatal day 7 whereas GAD-positive neurons and terminal-like puncta were present at postnatal day 2 (P2) and were frequent around P5. From other studies it is known that all GABAergic neurons are formed prenatally. Our data thus indicate that in the early postnatal period GABAergic non-pyramidal cells are poorly protected by calcium-binding proteins against a pathological calcium influx.
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PMID:Late appearance of parvalbumin-immunoreactivity in the development of GABAergic neurons in the rat hippocampus. 227 61

The present study used Nissl stains and glutamate decarboxylase immunoreactivity (GAD-IR) to quantify the acute and chronic toxicity of kainic acid (KA) on focal and remote hippocampal principal neurons (i.e., pyramidal and granule cells) and on putative inhibitory neurons (GAD-IR or GABAergic) following intrahippocampal KA administration. Concentrations of 0.5, 1.0, 1.25 or 1.5 micrograms KA/0.2 microliters were injected unilaterally into the posterior hippocampus of rats (n = 32), with survival periods of 1, 3, 5, 14, 21, 30 and 60 days. The age-matched control animals (n = 10) received an intrahippocampal injection of 0.2 microliter saline (sham control, n = 4) or no injection (normal, n = 6). The ipsilateral (KA+) cell counts demonstrated a selective vulnerability of CA3 and CA4 pyramidal neurons which was maximal at 14 days and unchanged to 60 days. However, in the same region, putative inhibitory (GAD-IR) neurons were resistant to the neurotoxic effects of KA. Contralateral (KA-) pyramidal cell and GAD-IR neuron densities were equivalent to controls. The present data demonstrate a selective resistance to KA by GABA neurons compared to the vulnerability of pyramidal neurons. Because GABA neurons are relatively spared in the KA focus, loss of GABAergic inhibitory neurons is probably not a mechanism for the seizure sensitivity in the KA model.
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PMID:GABAergic neurons are spared after intrahippocampal kainate in the rat. 230 20

C57BL/10Bg sps/sps mice display behavioral arrest, similar to generalized absence seizures. Compared with the parent strain C57BL/10Bg SPS/SPS, the activities of glutamate decarboxylase (GAD, E. C. 2.6.1.15), GABA aminotransferase (GABA-T, E. C. 2.6.1.19), aspartate aminotransferase (ASP-T, E. C. 2.6.1.1), and glutamate dehydrogenase (GDH, E. C. 1.4.1.3) in whole brain crude supernatant were significantly reduced in the sps/sps mice. Alanine aminotransferase activity (ALA-T, E. C. 2.6.1.2), was not altered in any of the strains, and normalization of GAD, GABA-T and GDH activities by that of ALA-T, further revealed significant differences between the normal strain (SPS/SPS), the heterozygotes (SPS/sps), and behavioral arrest (sps/sps) mice. These results suggest the possible involvement of GABAergic and glutamatergic neurotransmission in the absence-like behavior displayed by sps/sps mice. Open field behavior of C57BL/10Bg sps/sps mice is characterized by periods of marked inactivity which easily distinguish affected homozygotes, from their heterozygotes littermates.
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PMID:The C57BL/10Bg sps/sps mouse: a mutant with absence-like seizures; neurochemical and behavioral correlates. 239 34

The present study was designed to determine whether inhibitory neurons in human epileptic hippocampus are reduced in number, which could reduce inhibition on principal cells and thereby be a basis for seizure susceptibility. We studied the distribution of GABA neurons and puncta by using glutamate decarboxylase (GAD) immunocytochemistry (ICC) together with Nissl stains. Using quantitative comparisons of GAD-immunoreactive (GAD-IR) neurons and puncta in human epileptic hippocampus and in the normal monkey hippocampus, we found that GAD-IR neurons and puncta are relatively unaffected by the hippocampal sclerosis typical of hippocampal epilepsy where 50-90% of principal (non-GAD-IR) cells are lost. GAD-IR neurons and puncta were not significantly decreased compared with normal monkey. In 6 patients, prior in vivo electrophysiology demonstrated that the anterior hippocampus generated all seizures. The anterior and posterior hippocampus were processed simultaneously, and the counts of hippocampal GAD-IR neurons were numerically greater in anterior than in the posterior hippocampus, where no seizures were initiated. These results indicate that GABA neurons are intact in sclerotic and epileptogenic hippocampus. Computerized image analysis of puncta densities in fascia dentata, Ammon's horn, and subicular complex in epileptic hippocampi (n = 7) were not different from puncta densities in the same regions in normal monkey (n = 2). Hence, despite the significant loss of principal cells (50-90% loss) GABA terminals (GAD-IR puncta) were normal, which suggests GABA hyperinnervation of the remnant pyramidal cells and/or dendrites in human epileptic hippocampus. The apparent increase in puncta ranged from 2 (fascia dentata) to 3.3 (CA1) times normal puncta densities. These findings would suggest increased inhibition and less excitability; however, those regions were epileptogenic. We suggest that GABA terminal sprouting or hyperinnervation of the few remnant projection cells may serve to synchronize their membrane potentials so that subsequent excitatory inputs will trigger a larger population of neurons for seizure onset in the hippocampus and propagation out to undamaged regions of subiculum and neocortex.
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PMID:Glutamate decarboxylase-immunoreactive neurons are preserved in human epileptic hippocampus. 250 60

Glutamate decarboxylase (GAD) activity was determined in caudoputamen (CP), substantia nigra (SN), and cerebral cortex (CCX) after 19-22 h of recirculation following 10 min of transient ischemia in hyperglycemic rats, i.e., under the conditions when previously a pronounced nerve cell damage was demonstrated in both CP and SN. The present results demonstrate a decrease of GAD activity in SN by 30% and in CP by 22% and no change in CCX. No statistically significant change in GAD activity could be detected in SN, CP, or CCX 1,4, and 7 days following 10 min of ischemia in normoglycemic animals. The decrease of GAD activity in SN at the time preceding the onset of postischemic seizures suggests that there may be an imbalance between augmented excitatory and decreased inhibitory transmission in SN. We tentatively conclude that this may increase the probability of generalized seizures in the postischemic period following ischemia in hyperglycemic animals.
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PMID:Decrease of glutamate decarboxylase activity in substantia nigra and caudoputamen following transient hyperglycemic ischemia in the rat. 258 79

Developmental alterations in GABAergic synaptic transmission were examined physiologically and biochemically in hippocampus of rats from 3 days of age to adulthood. Neither antidromic nor orthodromic stimulation could elicit identifiable inhibitory postsynaptic potentials in CA1 neurons in slices from rats 5 or 6 days of age. In contrast, at this age these stimuli result in large inhibitory postsynaptic potentials in CA3 pyramidal cells. In the latter cells orthodromic stimulation produced a brief monosynaptic excitatory postsynaptic potential which was followed by a large prolonged biphasic hyperpolarization. These signals were strikingly similar to those recorded in 1-month-old rats. In addition, large recurrent inhibitory postsynaptic potentials were produced by antidromic stimulation. By postnatal day 9 similar inhibitory postsynaptic potentials could be elicited in a majority of neurons of the CA1 subfield. As in mature pyramidal cells, application of GABA antagonists, such as bicuculline, selectively eliminated the antidromic inhibitory postsynaptic potential and the first component of the biphasic inhibitory postsynaptic potential generated by stimulation of stratum radiatum. In the CA3 subfield, this blockade of GABA receptors resulted in prolonged afterdischarges in slices from immature but not month-old rats. Measurements of the equilibrium potential and the conductance of antidromic inhibitory postsynaptic potentials in CA3 neurons were very similar when made during the first postnatal week and at 1 month of age. While on days 10-11 the equilibrium potential was very similar to measurements made at these other ages, the conductance was 3-4 times greater. The activity of glutamate decarboxylase, the synthetic enzyme for GABA, was very low at 3 days in hippocampus, and increased until 30 days of age at which time adult values were obtained. By comparison, hippocampal GABA levels were high early in postnatal life. Glutamate decarboxylase activities in microdissected CA3 and CA1 subfields were similar in immature hippocampus. These results demonstrate dramatic differences in the ontogenesis of functional GABAergic inhibitory synaptic transmission in the CA1 and CA3 subfields of rat hippocampus. The late development of GABA-mediated synaptic inhibition in the CA1 subfield could play a role in the susceptibility of immature hippocampus to seizures. However, the large GABA-mediated inhibitory postsynaptic potentials present in the CA3 subfield at the same age have a critical role in dampening neuronal excitability.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Postnatal development of GABA-mediated synaptic inhibition in rat hippocampus. 271 Mar 30

Previous studies have shown that a loss of GABAergic neuronal somata is associated with a loss of GABAergic terminals at chronic cortical epileptic foci in monkeys. The present study was undertaken to determine whether GABAergic neuronal loss occurs prior to the onset of clinical seizures in monkeys that were treated with alumina gel but did not display seizures. Seven adolescent (Macaca mulatta) monkeys received alumina gel implants into the left pre- and post-central gyri, specifically centered in hand-face regions of sensorimotor cortex. Three other monkeys were used as controls. Two of these were surgical controls and the third was a normal animal. Three monkeys (pre-seizing) were sacrificed 2-4 weeks after the alumina gel implant but prior to clinically active seizures. Three other monkeys with chronic seizure activity (chronically seizing) were sacrificed 3-6 months after the implant. Tissue sections were taken from an area adjacent to the alumina gel granuloma (focus), from a site distal to it (parafocus) and from the non-epileptic contralateral side. Sections from all monkeys were processed for glutamate decarboxylase (GAD) immunocytochemistry and then examined with a light microscope. In addition, adjacent sections were stained with a Nissl stain and the total number of neurons was counted in these sections. Statistical analysis showed a significant decrease in the number of GAD-positive cells in the pre-seizing and chronic animals. The pre-seizing monkeys showed a significant loss of 23-44% at the focus in contrast to the total number of neurons which did not change significantly. The loss of GAD-positive cells was greater in the chronic animals that showed significant losses at both the focus and parafocus, 42-61% and 15-26%, respectively. It is important to note that the chronic monkeys displayed an 11-61% significant loss of total neurons at the epileptic focus. The surgical control animals showed no seizure activity and no significant loss of total neurons or GAD-positive cells. The main finding of this study indicates that a selective loss of GAD-positive neuronal somata occurs in pre-seizing monkeys with alumina gel implants. This finding is consistent with the previously reported loss of GABAergic terminals in pre-seizing monkeys. Since virtually all monkeys treated with alumina gel develop seizures, the results of this study add further support to the hypothesis that GABA neuronal loss plays a causal role in focal epilepsy.
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PMID:A selective decrease in the number of GABAergic somata occurs in pre-seizing monkeys with alumina gel granuloma. 279 67

In amygdala-kindled rats, synaptosomal levels of gamma-aminobutyric acid (GABA) and its synthesizing enzyme glutamate decarboxylase as well as [3H]GABA binding to synaptic membranes were determined in several brain regions which, except for the amygdala, were pooled from both hemispheres to obtain enough tissue for the subcellular fractionations. Compared to controls, GABA synthesis was reduced in the ipsilateral (stimulated) amygdala and in corpus striatum and substantia nigra. GABA receptor binding was decreased in amygdala and substantia nigra but significantly increased in the striatum. The data suggest that abnormal GABAergic transmission in discrete brain areas may be involved in the generation and propagation of amygdala-kindled seizures.
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PMID:Further evidence for abnormal GABAergic circuits in amygdala-kindled rats. 282 78

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