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

Kindling refers to a phenomenon in which repeated application of initially subconvulsive electrical stimulations produces limbic and clonic motor seizures of progressively increasing severity. Once established, the increased excitability is lifelong. Enhanced function of synapses using the NMDA subtype of glutamate receptor could contribute to the expression of the increased excitability. We previously found that CA3 pyramidal cells of hippocampus of kindled animals exhibit a selective and long-lasting (1 month) increased sensitivity to NMDA-evoked depolarization. The goal of this study was to develop a molecular explanation of the enhanced sensitivity to NMDA. We used radioligand binding studies of membranes isolated from microdissected regions of hippocampus including fascia dentata, CA3, and CA1. We also used quantitative in situ hybridization with subtype-specific riboprobes or oligonucleotides to determine whether increased expression of one or more of the genes encoding NMDA receptors was present in hippocampal granule and pyramidal cells of kindled animals. When studied 28 d after the last evoked seizure, we found that kindling induced a 2.8-fold increase in the number of binding sites for the competitive NMDA receptor antagonist 3-[(+/-)-2-(carboxypiperazine-4-yl)][1,2-3H-]propyl-1-phosphonic acid (3H-CPP). This increase was confined to region CA3 within the hippocampus. Similar, though much smaller, changes were detected 24 hr after the last evoked seizure. Surprisingly, no changes in the binding of another competitive NMDA receptor antagonist, cis-4-(phosphonomethyl)-2-3H-piperidinecarboxylate (3H-CGS-19755), were detected at either time point in any hippocampal region. Transcript levels of the NMDA receptor genes NMDAR1, NR2A, NR2B, NR2C, and NR2D and a glutamate-binding protein (GBP) were not altered by kindling. These findings demonstrate that kindling induces the expression of an NMDA receptor that is novel in that it is recognized by 3H-CPP but not by 3H-CGS-19755. The molecular basis of this novel NMDA receptor is not determined by differential expression of mRNA transcripts of known NMDA receptor genes. The direction, time course, and location of the kindling-induced increase in 3H-CPP binding suggest that this novel receptor may underlie the increased sensitivity of CA3 neurons to NMDA observed in kindled animals.
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PMID:Kindling induces the long-lasting expression of a novel population of NMDA receptors in hippocampal region CA3. 802 71

To investigate whether lasting changes in excitatory amino acid (EAA) receptor subtypes occurred at their mRNA levels as a result of kindling, we carried out in situ hybridization of rat brain sections using synthetic oligonucleotide probes, which were complementary to cloned EAA receptor subunits, namely NMDAR1 for N-methyl-D-aspartate (NMDA), GluR-2 for alpha-amino-3-hydroxy-5-methylisoxazole 4-propionic acid (AMPA), KA-1 for kainate (KA) and mGluR1 for metabotropic EAA receptors. Rats in which left-amygdala-kindling had been established were decapitated 28 days after the last kindled seizure along with the matched controls, which had been subjected to electrode implantation but not to kindling, and the brain sections were hybridized with the probes. The amount of KA receptor mRNA detected with the KA-1 probe increased (25%) on both the left and right sides of the hippocampal CA3 region in the kindled rats, but in no other brain areas (hippocampal CA1, dentate gyrus, amygdala nuclei and pyriform cortex). There was no significant modification of NMDAR1, GluR-2 or mGluR1 receptor mRNAs in any brain area examined. The increase of KA receptor mRNA in the CA3 of amygdala-kindled rats may indicate that the excitability of the neural circuits mediated by KA receptors increased in the hippocampus as a consequence of kindling.
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PMID:Increase of kainate receptor mRNA in the hippocampal CA3 of amygdala-kindled rats detected by in situ hybridization. 839 66

Kindling refers to a phenomenon in which repeated application of initially subconvulsive electrical stimulations produces limbic and clonic motor seizures of progressively increasing severity. Once established, the increased excitability is lifelong. Several lines of investigation suggest that the N-methyl-D-aspartate (NMDA) subtype of glutamate receptor participates in the expression of the increased neuronal excitability of the kindled brain. Many studies demonstrate that kindling results in altered NMDA receptor functional and pharmacological properties, indicating that kindling may cause changes intrinsic to the NMDA receptor itself. It is possible that altered expression of NMDA receptor subunit genes and splice isoforms of genes leads to subunit combinations resulting in the novel NMDA receptor properties identified in the hippocampus of kindled animals. To begin to address this possibility, we previously examined the hippocampal expression of known NMDA receptor genes and found no differences in expression between control and kindled animals either 24 h or 28 days after the last kindled seizure. Here, we extend that earlier study by examining the expression of NMDAR1 splice isoforms in the hippocampus of control and kindled animals. We report that kindling induces the transient reduction of specific splice isoforms of NMDAR1 containing the first of the carboxy-terminal splice cassettes (exon 21). We discuss the potential significance of this regulation in terms of its relevance to previous findings in the kindling model and possible effects on NMDA receptor function.
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PMID:Regulation of alternative splicing of NMDAR1 in the kindling model. 888 39

Cessation of chronic administration of orally administered large amounts of ethanol for 7 days resulted in a markedly increased frequency of audiogenic seizures in Sprague-Dawley rats. Oral administration of the novel glycine receptor antagonist, L-701,324, produced a dose-dependent (2.5 and 5.0 mg/kg; -30 min) inhibition of ethanol withdrawal signs when measured about 12 h after withdrawal of the ethanol treatment. Similarly, using the same experimental paradigm, oral administration of the specific polyamine receptor antagonist, eliprodil, caused a dose-related (2.0 and 5.0 mg/kg; -30 min) inhibition of ethanol withdrawal-induced audiogenic seizure activity. The inhibition of ethanol withdrawal seizures produced by L-701,324 and eliprodil, respectively, was obtained at doses which by themselves did not change the locomotor activity in naive Sprague-Dawley rats. The findings that L-701,324 and eliprodil are potent inhibitors of seizure activity induced by cessation of chronic ethanol administration and the fact that they, in contrast to currently available NMDA receptor antagonists, do not produce psychotomimetic and/or sedative effects, suggest that these drugs may represent a new class of therapeutically useful pharmacological agents for the treatment of ethanol withdrawal seizures. Furthermore, since there is evidence that eliprodil produces its pharmacological actions through a specific inhibition of NMDAR1 and/or NMDAR2B subunits, these data may indicate that certain NMDA receptor subunits may be of particular importance for the mediation of seizure activity following the discontinuation of chronic ethanol exposure.
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PMID:Oral administration of glycine and polyamine receptor antagonists blocks ethanol withdrawal seizures. 891 2

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

The study was designed to determine which type of cell death occurs following kindling induced seizures, and to determine which neurons die. For this purpose seizures were kindled from the entorhinal cortex. Following a range of 5-85 stage 5 seizures, rats were sacrificed, and the tissue was prepared for analysis. The TUNEL and silver impregnation methods were used to identify apoptotic or necrotic cell death, respectively. These methods were subsequently combined with immunocytochemistry, to determine if diseased neurons expressed somatostatin or the NMDA receptor (NMDAR1). The tissue analysis demonstrated that following kindling induced seizures, 1) hippocampal and extrahippocampal neurons die, 2) some neurons die through apoptosis, others through necrosis, and 3) some of the diseased neurons express somatostatin, others the NMDAR1 and that both subpopulations of neurons are present at hippocampal and extrahippocampal sites.
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PMID:Apoptotic and necrotic cell death following kindling induced seizures. 915 Jul 99

This study was designed to determine whether hippocampal neuronal AMPA (alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid) and NMDA (N-methyl-D-aspartate) mRNA levels were differentially increased in temporal lobe epilepsy patients compared with those measured in control tissue from non-seizure autopsies. Hippocampi from hippocampal sclerosis patients (n = 28) and temporal mass lesion cases (n = 12) were compared with those from the autopsies (n = 4), and studied for AMPA GluR1-3 and NMDAR1-2 mRNAs using semi-quantitative in situ hybridization, along with fascia dentata and Ammon's horn neuron densities. Compared with the autopsies, and without correction for neuron counts, the mass lesion cases with neuron densities similar to autopsies showed: (i) significantly increased NMDAR2 hybridization densities for fascia dentata granule cells; (ii) increased AMPA GluR3 mRNA densities for Ammon's horn pyramids; and (iii) similar or numerically increased mRNAs for all other subunits and hippocampal subfields. Compared with the autopsies, hippocampal sclerosis cases with decreased neuron densities showed: (i) significantly decreased AMPA GluR1-2 and NMDAR1-2 hybridization densities for Ammon's horn pyramids and (ii) similar or numerically decreased mRNAs for all other subunits and subfields. However, correcting for changes in neuron densities showed that hippocampal sclerosis patients had increased AMPA and NMDA mRNA levels per neuron compared with autopsies, and in the CA2 resistant sector GluR2 mRNA levels were numerically greater than autopsies and mass lesion cases. Furthermore, relative to autopsies both sclerosis and mass lesion hippocampi showed that, in the stratum granulosum, the greatest mRNA increases were in AMPA GluR1 and NMDAR2 compared with the other mRNAs. In chronic temporal lobe seizure patients these results indicate that mass lesion and sclerosis cases show differential increases in hippocampal AMPA and NMDA mRNA levels per neuron compared with autopsies, especially for AMPA GluR1 and NMDAR2 in fascia dentata granule cells. These findings support the hypothesis that temporal lobe seizures are associated with increased ionotropic glutamate receptor mRNA levels and alterations in receptor subunit composition that probably contribute to neuronal hyperexcitability, synchronization and seizure generation.
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PMID:Human hippocampal AMPA and NMDA mRNA levels in temporal lobe epilepsy patients. 939 13

It has been hypothesized that changes in the excitatory amino acid receptor biosynthesis may be involved in the mechanism of kindling-an animal model of epileptogenesis. In order to test this hypothesis, we investigated the effects of pentylenetetrazol kindling on the expression of genes coding for NMDAR1 and GluR2 in the rat hippocampal formation. Pentylenetetrazol kindling decreased the hippocampal NMDAR1 mRNA level after 3 and 24 h; lowered the GluR2 flip level and elevated the flop mRNA one in the CA1 field and dentate gyrus after 3 and 24 h, respectively. A receptor autoradiography showed an increase in the [3H]MK-801 binding density in the hippocampus following both acute and repeated pentylenetetrazol administration. We conclude that an early occurrence of downregulation of the glutamate receptor gene expression may be an adaptive response of glutamate receptors to an oversupply of excitatory amino acids during repeated seizures.
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PMID:Effects of pentylenetetrazol kindling on glutamate receptor genes expression in the rat hippocampus. 951 93

Immunocytochemistry was used to study the expressions of glutamate receptor subunit proteins for NMDAR2A/B, NMDAR1 splice variants, and AMPA Glu-R2/3 in human brain resected for intractable epilepsy associated with cortical dysplasia. NMDAR2A/B intensely labeled dysplastic neurons showing staining in both the cell bodies and dendritic profiles. However, nondysplastic neurons were not immunoreactive to NMDAR2A/B. The antibody selective to NMDAR1 splice variants of NR1-1a. -1b, -2a, and -2b labeled dysplastic neurons, but few nondysplastic neurons. In contrast, the antibody to splice variants of NR1-1a, -1b, 2a, -2b, -3a, -3b, -4a, and -4b labeled both dysplastic and nondysplastic neurons. The different labeling patterns by these two antibodies indicate that variants of NMDAR1-3a, -3b, -4a, and -4b are present in nondysplastic neurons. Both dysplastic neurons and nondysplastic neurons were immunoreactive to AMPA GluR2/3, but denser immunoreactivity was observed in dysplastic neurons. We also found that the locations of dysplastic neurons labeled by NMDAR2A/B were related to focal epileptic EEG seizure onsets or spiking and to focal behavioral seizure types. Our results suggest that there is hyperexcitability of dysplastic cortical regions, at least in part, from the presence of NMDAR2 subunits and selectively expressed NMDAR1 splice variants in dysplastic neurons.
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PMID:Induced expression of NMDAR2 proteins and differential expression of NMDAR1 splice variants in dysplastic neurons of human epileptic neocortex. 960 Jan 97

This study determined if hippocampal AMPA and NMDA subunit immunoreactivity (IR) in temporal lobe epilepsy patients was increased compared with nonseizure autopsies. Hippocampi from hippocampal sclerosis patients (HS; n = 26) and nonsclerosis cases (non-HS: n = 12) were compared with autopsies (n = 6) and studied for GluR1, GluR2/3, NMDAR1, and NMDAR2 IR gray values (GV) along with fascia dentata and Ammon's horn neuron densities. Compared with autopsies, non-HS cases with similar neuron densities and HS patients with decreased neuron densities showed: (a) Increased GluR1 GVs in the fascia dentata molecular layer: (b) increased NMDAR1 GVs in the CA3-1 stratum radiatum and greater IR within pyramids; and (c) increased GluR2/3 and NMDAR2 GVs throughout all hippocampal subfields. Furthermore, HS patients showed that relative to the outer molecular layer: (a) GluR1 GV differences were decreased in the CA4/hilar region and CA1 stratum radiatum compared with autopsies; and (b) NMDAR2 GV differences were increased in the inner molecular layer compared with non-HS cases. In temporal lobe seizure patients, these results indicate that AMPA and NMDA receptor subunit IR was increased in HS and non-HS hippocampi compared with nonseizure autopsies. In humans, these findings support the hypothesis that glutamate receptor subunits are increased in association with chronic temporal lobe seizures, which may enhance excitatory neurotransmission and seizure susceptibility.
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PMID:Increased hippocampal AMPA and NMDA receptor subunit immunoreactivity in temporal lobe epilepsy patients. 963 Feb 40


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