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

The intracellular accumulation of PAF following cell stimulation suggests an intracellular signal transduction pathway. High affinity binding sites for PAF in microsomal membranes and displacement of PAF from these sites by structurally distinct PAF antagonists suggests the existence of an intracellular receptor. Suppression of primary genomic responses by a PAF antagonist selective for the intracellular Ca2+ and arachidonic acid metabolites, is linking the intracellular generation of PAF to immediate-early transcription. Several of the metabolites that transiently accumulate after injury may elicit beneficial effects on regenerative processes. The membrane metabolite PAF, which accumulates after seizure and ischemia, may initiate reparative processes by promoting transcriptional activation of immediate-early transcription factors. The long-term effects of these immediate-early gene transcription factors may provide a synthetic mechanism to replenish and rebuild cells following traumatic events.
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PMID:Second messengers derived from excitable membranes are involved in ischemic and seizure-related brain damage. 130 97

Understanding the molecular basis of altered neuronal excitability in epilepsy is a major challenge in neuroscience research. The present study suggests an inverse correlation between changes in neuronal excitability in status epilepticus and the activity of type II multifunctional calcium/calmodulin-dependent kinase II (CaM kinase II), a major Ca(2+)-signal transducing system in brain. 'Continuous' hippocampal stimulation (CHS), a new model of non-convulsive limbic status epilepticus (SE), mimics the progression of electrographic changes characteristic in human SE and allows for quantitation of post-stimulus seizure severity. In the present study, hippocampus and anterior neocortex from CHS-stimulated rats and paired surgical controls were assayed for CaM kinase II activity by incorporation of radiolabeled phosphate from [gamma-32P]ATP into the 50-kDa subunit of the kinase itself (autophosphorylation). In all instances, CHS induced sustained interictal bursting and/or electrographic seizures. Decreased CaM kinase II activity was seen in all preparations from electrically stimulated hippocampus. CaM kinase II activity in CHS animals was diminished by 37% relative to controls (P less than 0.01; Student's paired t-test). The progressive intensity of the EEG discharges correlated directly with the decrement of CaM kinase II activity (P less than 0.05; Spearman's rank correlation test, n = 5). This is the first report of a dynamic modulation of a biochemical system that has been implicated in neuronal excitability in coordination with the characterized developmental stages of SE.
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PMID:Loss of type II calcium/calmodulin-dependent kinase activity correlates with stages of development of electrographic seizures in status epilepticus in rat. 131 99

A hypothesis is presented to explain the influence of alcohol on glutamate generated excitotoxicity. Chronic alcohol exposure is reported to increase glutamate-N-methyl-D-aspartate (NMDA) receptors and calcium ion channel activity, resulting in the neurotoxicity and seizure activity associated with alcohol withdrawal in certain persons. Recent information indicates that nitric oxide is responsible for the neurotoxicity associated with excessive glutamate stimulation of NMDA receptors. Thus, it is hypothesized that nitric oxide is involved in producing the neurotoxicity and cell disturbances associated with chronic alcohol exposure.
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PMID:Alcohol, nitric oxide, and neurotoxicity: is there a connection?--a review. 132 Aug 8

Injection of endothelin-1 (9 pmol) into the lateral cerebral ventricle of rats produced barrel-rotations, convulsions, tonic hindlimb extensions, facial clonus, and kinetic ataxia for up to 45 min. Quantitative metabolic autoradiographs produced from the [14C]deoxyglucose method and analyzed over 60 individual brain structures or subregions revealed intense hypermetabolism in periventricular tissues close to the injection site and in many of their efferent projection sites. Histological examination of these areas proved that this dose of endothelin was without toxic or ischemic effects on neurons or glial cells. Structures metabolically affected ipsilateral to injection were caudate nucleus (+164%), lateral septal nucleus (+270%), and two white matter tracts--corpus callosum (+236%) and hippocampal fimbria (+318%). Distant stimulated structures included cerebellar cortical layers, but not cerebellar nuclei or white matter. Increased rates of glucose metabolism among many other nuclei, particularly distinct subunits of the hippocampal formation and structures in contact with the ventricular system, signify that endothelin induced widespread metabolic stimulation over much of the neuraxis. Furthermore, although the 9 pmol concentration of endothelin produced convulsive movements and diverse metabolic stimulation, it did not evoke detectable electroencephalographic seizure activity assessed by intra- or extracerebral electroencephalography. Both the convulsions and hypermetabolic activation were inhibited by intraventricular pretreatment with the dihydropyridine calcium-channel antagonist, nimodipine. The results identify endothelin-1 as a calcium-mediated 'convulsive' peptide with selective stimulatory effects on cerebral glucose metabolism.
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PMID:Cerebral hypermetabolism produced by intraventricular endothelin-1 in rats: inhibition by nimodipine. 132 10

We investigated the effect of zonisamide, a new antiepileptic drug, on voltage-dependent Ca2+ currents in cultured neurons of rat cerebral cortex. Whole-cell voltage-clamp recordings demonstrated at least two distinct voltage-dependent Ca2+ currents: (1) a low-threshold, rapidly inactivating component, T-type Ca2+ current, which is sensitive to 100 microM Ni2+, and (2) a high-threshold, slowly inactivating (long-lasting) component, L-type Ca2+ current. Zonisamide, a new anticonvulsant effective against maximal electroshock (MES) seizures in mice reduced T-type Ca2+ current in a dose-dependent manner. The mean percentage of reduction was 59.5 +/- 7.2% at 500 microM, but zonisamide had no effect on L-type Ca2+ current. A methylated analog of zonisamide, which is ineffective against MES seizures in mice, was tested at a concentration of 500 microM, and reduced neither T-type nor L-type Ca2+ current. These findings suggest that the effects of zonisamide against MES seizures might occur through the reduction of T-type Ca2+ current. Because drugs that are effective against MES seizures are thought to prevent seizure discharge spread, T-type Ca2+ channels could underlie a cellular mechanism of spreading activity in epileptic seizures.
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PMID:Zonisamide blocks T-type calcium channel in cultured neurons of rat cerebral cortex. 132 33

Quantitative receptor autoradiography was used to examine the density and distribution of [3H]kainic acid and [3H]alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) binding sites in the hippocampal formation and parahippocampal gyrus obtained at autopsy from 10 Alzheimer's disease and eight normal control individuals. In control and Alzheimer's disease individuals, [3H]kainic acid saturation binding analysis in the outer molecular layer of the dentate gyrus fitted a single-site model. Added calcium ions did not alter the density of [3H]kainic acid binding in the human tissues. These results suggest that calcium-sensitive high-affinity kainic acid binding sites are not present in the human brain in contrast to kainic acid receptors in the rat brain. [3H]AMPA binding was also slightly different in the human brain as compared to the rat, being greatest in the inner third as compared to the outer two-thirds of the dentate gyrus molecular layer. In both control and Alzheimer's disease individuals, [3H]kainic acid and [3H]AMPA binding densities were similar at anterior and posterior levels of the hippocampal formation. In Alzheimer's disease patients, there was a significant increase in [3H]AMPA binding in the infragranular layer. In some, but not all Alzheimer's disease patients, there was an increase in [3H]kainic acid binding densities in the outer half of the dentate gyrus molecular layer. The same individuals which exhibited an increase in [3H]kainic acid binding in the outer molecular layer also displayed increased [3H]AMPA binding in the hilar region. Similar alterations in [3H]kainic acid binding have been observed in rats which had received fimbria-fornix lesions, a model of chronic epilepsy and in individuals with temporal lobe epilepsy. Advanced Alzheimer's disease patients are at risk of developing seizures. The results suggest that several factors including cortical and subcortical pathology and seizure activity may contribute to the alterations in [3H]kainic acid and [3H]AMPA binding observed in the hippocampal formation in Alzheimer's disease.
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PMID:Hippocampal excitatory amino acid receptors in elderly, normal individuals and those with Alzheimer's disease: non-N-methyl-D-aspartate receptors. 132 33

In mice, tonic convulsive seizure induced by intravenous administration of caffeine (adenosine A1, A2 receptors antagonist) was significantly potentiated by any one of L-PIA (adenosine A1 receptor agonist), NECA (adenosine A2 receptor agonist) and 2-ClAd (adenosine A1, A2 receptors agonist). The caffeine-induced seizure was unaffected by diazepam (benzodiazepine receptor agonist), but was inhibited by Ro 15-1788 (antagonist or partial agonist). beta-DMCM (antagonist or inverse agonist) increased the seizure. Muscimol (GABA-a receptor agonist), baclofen (GABA-b receptor agonist) and AOAA (GABA transaminase inhibitor) did not show significant effect on caffeine-induced convulsion. Bicuculline (GABA-a receptor antagonist) and picrotoxin (chloride channel blocker) significantly potentiated the convulsion at the doses which did not induce it. Caffeine-induced convulsion was potentiated by NMDA with its non-convulsive dose. CPP (competitive NMDA receptor antagonist) and MK-801 (non-competitive NMDA receptor antagonist) significantly inhibited the seizures. These results suggest that caffeine-induced seizure is not caused by blockade of adenosine receptors. Caffeine may act to beta-carboline sensitive benzodiazepine receptor (Type 1) which has no linkage with GABA-a receptor. Furthermore, it is implied that caffeine plays some role at NMDA receptor calcium ion channel complex.
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PMID:[Effects of agonists and antagonists of benzodiazepine, GABA and NMDA receptors, on caffeine-induced seizures in mice]. 132 1

Systemic injection of kainic acid (KA) does not cause neuronal pathology in limbic structures in rat brain prior to postnatal day (PND) 21. The present study tested if the development of the pathogenic response is associated with the maturation of a link between seizure activity and polyamine metabolism. Pathology was assessed with histological techniques and with the binding of [3H]Ro5-4864, a ligand for the peripheral type benzodiazepine binding sites (PTBBS), a marker of glial cell proliferation. In agreement with previous results, peripherally administered kainate at doses sufficient to induce intense behavioral seizures produced a loss of Nissl staining in hippocampus after PND 21 but not at earlier ages. The pattern of neuronal damage observed after PND 21 resembled that found in adult animals: extensive losses of Nissl staining in area CA3 of hippocampus and in piriform cortex, more modest effects in CA1 and sparing of the granule cells of the dentate gyrus. Similarly, no increase in [3H]Ro5-4864 binding as a result of KA administration was observed in hippocampus and piriform cortex until PND 21. Ornithine decarboxylase (ODC) activity and putrescine levels were high in the neonatal brain and decreased to reach adult values by PND 21. KA-induced seizure activity did not significantly alter both variables until PND 21. After PND 21, ODC activity and putrescine levels markedly increased 16 h after KA-induced seizure activity in hippocampus and piriform cortex. The magnitude of the effects increased between PND 21 and PND 30, at which point the changes in both parameters were comparable to those found in adults. Polyamines stimulate the activity of the calcium-dependent proteases calpain in brain fractions and may increase calpain-mediated proteolysis in situ. In accord with this, kainate-induced breakdown of spectrin, a preferred substrate of calpain, measured 16 h after KA injection followed a developmental curve parallel to that for kainate-induced increases in putrescine levels. These results indicate that the onset of vulnerability to seizure activity triggered by kainic acid is correlated with the development of an ODC/polyamine response to the seizures and further support a critical role for the ODC/polyamine pathway in neuronal pathology following a variety of insults.
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PMID:Seizure activity-induced changes in polyamine metabolism and neuronal pathology during the postnatal period in rat brain. 133 Mar 69

The neurotransmitter norepinephrine (NE) has been implicated in both the normal expression of long-term neuronal plasticity and in development of epileptiform bursting. Our studies have focused on the modulatory role of NE in a number of epilepsy models, both acute and chronic. Acutely, reduction of extracellular Mg2+ concentration in in vitro brain slices induced spontaneous and evoked epileptiform activity in both the entorhinal cortex (EC) and dentate gyrus (DG), due largely to removal of the voltage-dependent Mg2+ blockade of N-methyl-D-aspartate receptors. Spontaneous ictal events are most prominent in the EC, suggesting an importance of this area in seizure generation. NE was found to exhibit differential modulation of epileptiform activity in the EC and DG. In the EC, NE, acting via alpha 1-receptors, completely blocked low Mg(2+)-induced epileptiform activity. In contrast, in the DG, NE exhibited a beta-receptor mediated prolongation of the low Mg(2+)-induced ictal events, and enhanced the stimulus-induced ionic and field potential changes. These complementary modulatory actions in the EC and DG, may serve to enhance signal transmission through the DG, while simultaneously reducing EC input noise and exerting a potent antiepileptic action in the EC. Chronically, actions of NE in the DG were examined before and after kindling-induced epilepsy, neuronal plasticity produced by daily high-frequency stimulation. NE, acting on beta 1-receptors, depolarized granule cells, increased input resistance, firing and influx of Ca2+ in response to repetitive stimulation, and elicited long-lasting potentiation of synaptic potentials. In addition, NE acting via alpha 1-receptors, attenuated Ca(2+)-dependent regenerative potentials. After kindling-induced plasticity, there were marked reductions in all these effects of NE on granule cells, changes likely to influence kindling-induced seizures, protecting against further enhancement of excitability once plasticity is in place.
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PMID:Noradrenergic modulation of epileptiform bursting and synaptic plasticity in the dentate gyrus. 133 59

1. The dentate gyrus has been proposed to be a gate for entry of neuronal activity into the hippocampus. This function would give it a critical role in the propagation of seizure activity in that region. The hallmark of epileptiform activity in the dentate itself, often referred to as "maximal dentate activation" (MDA), has not been reproduced previously in vitro. 2. With the use of rat hippocampal slices, bath [Ca2+] was decreased, and [K+] was increased concurrently to simulate conditions found during intense neuronal activity in vivo. Both evoked and spontaneous field bursts were observed in the dentate granule cell layer under these conditions. These bursts were similar to MDA, consisting of a prolonged negative shift in extracellular potential with large-amplitude population spikes. 3. In 0.5 mM bath [Ca2+], single stimuli applied to the perforant path could evoke prolonged field bursts in the dentate only when bath [K+] was > or = 9 mM. However, repetitive stimulation (10 Hz) of the perforant path could elicit similar dentate responses when bath [K+] was as low as 5 mM. 4. In 0.5 mM bath [Ca2+], interictal-type bursts appeared spontaneously in CA1 and CA3 when bath [K+] was > or = 5 mM but were lost when [K+] was > 9 mM. Spontaneous seizurelike activity in the dentate required a higher minimum bath [K+] (9 mM) and persisted at [K+] of 11 mM. 5. Stimulation-evoked field bursts in the dentate altered epileptiform activity in CA3. At bath [K+] insufficient to cause spontaneous CA3 bursts, CA3 was activated transiently when prolonged field bursts occurred in the dentate. At higher bath [K+] in which spontaneous CA3 bursts did occur, they were depressed during the dentate bursts. 6. Deletion of Ca2+ from the bath; the addition of 30 microM each of bicuculline methiodide, D,L-2-amino-5-phosphonopentanoate (AP-5), and 6,7-dinitroquinoxaline-2,3-dione (DNQX); or the combination of both manipulations did not block antidromically evoked or spontaneous prolonged field bursts in the dentate. Thus the mechanisms maintaining and propagating these events did not require fast amino acid-mediated synaptic transmission. 7. The concurrent alteration of [K+] and [Ca2+] required to produce prolonged field bursts in the dentate underscores the positive feedback relationship between neuronal excitation and extracellular ionic concentrations, whereas the ability of synaptic stimulation to trigger nonsynaptic seizurelike events such as these prolonged field bursts may be relevant to the transition from interictal to ictal activity in vivo.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Prolonged field bursts in the dentate gyrus: dependence on low calcium, high potassium, and nonsynaptic mechanisms. 133 1


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