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)

Injection of N-methyl-D-aspartate (NMDA, 7.5 micrograms) kainate (1 microgram) or quisqualate (2 micrograms) into the rat dorsal hippocampus induced wet-dog shakes and convulsions. As shown by an in situ immunohistochemical analysis, 3 h after the excitatory amino acids injections the rats displayed a bilateral profound elevation of the proenkephalin and prodynorphin mRNA levels in dentate gyrus granule cells (2-3 or 1.5-2 fold higher than control levels, respectively). Pretreatment of rats with D-amino-phosphonovalerate (D-APV, 10 micrograms), a selective antagonist of NMDA receptor, prevented the behavioral and biochemical changes evoked by NMDA. The changes in the behavior and gene expression evoked by kainate or quisqualate were diminished in rats which received 6-cyano-7-nitroquinoxaline-2,3-dion (CNQX, 2 micrograms), a putative antagonist of quisqualate and kainate receptors. The study demonstrated that activation of NMDA, quisqualate or kainate receptors in the hippocampus induced seizures associated with a marked increase in the proenkephalin (PENK) and the prodynorphin (PDYN) gene expression in the rat dentate gyrus.
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PMID:The effects of excitatory amino acids on proenkephalin and prodynorphin mRNA levels in the hippocampal dentate gyrus of the rat; an in situ hybridization study. 134 33

The seizure-modulating role of N-methyl-D-aspartate (NMDA) receptors located in several limbic areas was investigated. Amygdala-kindled rats were microinfused with the selective NMDA-receptor antagonist 2-amino-5-phosphonovalerate (APV, 1 microliter, 70 nmol) or artificial cerebrospinal fluid (ACSF) applied through a cannula located in either the amygdala or perirhinal, pyriform or deep prepyriform cortices. APV infused into the stimulation site raised the threshold for seizure generation. Surprisingly, APV infused into perirhinal cortex, but not into other regions, also dramatically suppressed behavioural seizures and afterdischarges (AD) elicited 5 min after the infusion. If stimulus intensities were markedly elevated however, the seizure suppression was overcome. This latter effect was reversible and repeatable, as seizures and AD were reliably reinstated when these animals were stimulated after infusion with ACSF. A similar effect, whereby perirhinal infusions blocked seizure activity, was also demonstrated in an animal kindled from the olfactory bulb and in one kindled from the perforant path. These results suggest that NMDA receptors located in the perirhinal cortex may play a major role in the modulation of AD activity elicited from more distal brain regions. Furthermore, activation of perirhinal cortex may be a critical requirement for the generation of amygdala-stimulated AD in the kindled animal.
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PMID:The infusion of an NMDA antagonist into perirhinal cortex suppresses amygdala-kindled seizures. 135 65

Extracellular field recordings were made in CA1 in the hippocampal explant cultures in oxygenated artificial cerebrospinal fluid. Schaffer collaterals were stimulated with 1-s trains of 60 Hz pulses every 10 min. Seizures were reliably elicited with progressive lengthening over 1-2 h. D-APV, an N-methyl-D-aspartate (NMDA) antagonist, stereoselectively blocked the development of seizures. Thus we have demonstrated that in vitro epileptogenesis occurs in hippocampal explant cultures through NMDA receptor mediated mechanisms.
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PMID:NMDA-receptor mediated electrical epileptogenesis in the organotypic culture of rat hippocampus. 135

To investigate the possible role of N-methyl-D-aspartate (NMDA) receptors in the development and expression of amygdaloid-kindled seizures, rats were either chronically infused with 2-amino-5-phosphonovalerate (APV, 20-40 mM) or pre-injected with carboxypiperazine-phosphonate (CPP, 1-10 mg/kg), both selective NMDA-receptor antagonists, and then kindled from the amygdala. At the higher dose (40 mM), APV blocked the induction of long-term potentiation in the dentate gyrus. APV also retarded clinical seizure development dose-dependently and increased seizure thresholds without affecting afterdischarge (AD) duration. These same doses of APV had only small anticonvulsant effects on established kindled seizures. Although CPP (1-10 mg/kg) had no effect when rats were kindled 45 min after injection it dose-dependently retarded focal and generalization stages at the 150 min injection-kindling interval. Once relieved of drug, animals proceeded to develop stage 5 seizures with shorter duration ADs than saline-control animals. When the previously-kindled, saline groups were crossed to CPP a small depressant effect on seizure expression was observed. These results suggest that NMDA receptors are primarily involved in kindling development rather than in maintaining the kindled state.
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PMID:The N-methyl-D-aspartate antagonists aminophosphonovalerate and carboxypiperazinephosphonate retard the development and expression of kindled seizures. 196 65

The adrenal stress hormones glucocorticoids (GCs) impair the ability of hippocampal neurons to survive neurological insults, including hypoxia-ischemia and seizure. These insults are thought to be toxic via a cascade of excessive synaptic concentrations of excitatory neurotransmitters (e.g. glutamate), activation of the NMDA receptor, and pathologic mobilization of cytosolic calcium post-synaptically. We tested whether GCs exacerbate these insults by exacerbating this 'NMDA cascade'. We sought a toxin which damaged independently of the NMDA cascade, and whose toxicity was enhanced by GCs. After testing a number of neurotoxins, we found that the antimetabolite 3-acetylpyridine (3AP) fit this requirement. We then tested if blockade of the NMDA receptor blocks the ability of GCs to enhance 3AP toxicity. Hippocampi were microinfused with 160 micrograms of 3AP. Elevating circulating GC concentrations to the range seen during major stressors for a week before and after microinfusion caused a significant increase in 3AP-induced damage (when compared to adrenalectomized rats kept GC-free for the same period). Infusing the NMDA receptor blocker APV with 3AP did not alter the toxicity in adrenalectomized rats. However, APV reduced 3AP-induced damage in GC-treated rats to levels seen in adrenalectomized rats. This suggests that GCs endanger hippocampal neurons by enhancing glutamatergic signals and/or enhancing vulnerability to such signals. As a possible explanation for this observation, GCs inhibit glucose uptake into hippocampal neurons, and numerous steps in the NMDA cascade are exacerbated when neuronal energy stores are diminished.
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PMID:Glucocorticoid endangerment of hippocampal neurons is NMDA-receptor dependent. 214 1

1. To study the effects of brief periods of hypoxia on cellular functions in the rat hippocampal slice, extracellular and intracellular recordings were made from pyramidal neurons, and interstitial potassium activity ([K+]o) was measured in the pyramidal cell layers. Slices were perfused in an interface chamber at 36-37 degrees C with medium containing 8.5 mM [K+]o. Hypoxia was induced by switching the overflow gas from O2-CO2 to N2-CO2. 2. Brief periods of hypoxia (5-60 s) produced electrographic seizures with typical tonic and clonic components in 53% of 293 slices that generated spontaneous interictal bursts. Hypoxia-induced seizures were usually initiated in and restricted to the Ca1 region; only 2.5% of these slices generated seizures in CA3. In contrast to the CA1 region, the CA3 region could undergo spreading depression during hypoxia. The probability of seizure generation in CA1 was increased with increasing duration of hypoxia and was greatly reduced by lowering the bath temperature a few degrees. 3. [K+]o gradually increased in the CA1 and CA3 cell layers during the 20 s leading up to an hypoxia-induced seizure. [K+]o rose to approximately 9.8 mM (from a base line of 8.5 mM) in CA1 just before a seizure and to 11.4 mM during the seizure. After hypoxia, [K+]o reached a higher level in CA1 than in CA3, regardless of whether 1 microM tetrodotoxin was present to eliminate differences in cell firing in the two regions. CA1 pyramidal cells and glia gradually depolarized by several millivolts during and after hypoxia; no initial hyperpolarizing phase was detected. 4. Burst input from CA3 was necessary for hypoxia-induced seizures. The frequency and intensity of spontaneous burst-firing in CA3 remained steady in the period leading up to a CA1 seizure episode. In contrast, the intensity of synaptically driven bursts in CA1 grew markedly just before seizure onset. N-methyl-D-aspartate (NMDA) receptors participated in the crescendo of increasingly synchronous activity in CA1, because the competitive NMDA receptor antagonist, D-2-amino-5-phosphonovaleric acid (D-APV, 30 microM), stereoselectively reduced seizure intensity. 5. Hypoxia-induced seizures were followed by a depressant phase, which was manifested most prominently by a prolonged (up to several minutes) reduction in the frequency and intensity of burst-firing in the CA3 region, hyperpolarization of CA1 neurons, and undershoot of [K+]o. In normal (3.5 mM) [K+]o, synaptically driven population spikes in CA1 were only reduced in amplitude by hypoxia; hypoxia did not induce seizures in 3.5 mM [K+]o.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Different responses of CA1 and CA3 regions to hypoxia in rat hippocampal slice. 215 21

1. The cellular and synaptic properties of rat dentate gyrus granule cells (GCs) were examined using intra-/extracellular and Ca2+-sensitive microelectrode recordings following epilepsy induced by kindling of the hippocampal commissures or amygdala. 2. The recordings were made in hippocampal slices prepared from sham-stimulated controls and animals that have received daily stimuli to reach stage IV-V of kindling. The average number of stimulation trials (60 Hz/1 s, 100-150 microA) required to reach full motor seizures (stage V) was 23 +/- 2 for commissural kindling and 14 +/- 1 for amygdala kindling. 3. The resting membrane potential of GCs following kindling (RMP; -72 +/- 3 mV) was not significantly different from the RMP of control GCs (-70 +/- 2 mV). Similarly, action potential height and threshold were unaffected by kindling. However, kindling altered other cellular properties of GCs regardless of the site of stimulation (hippocampal commissures or amygdala), the stage of kindling reached (IV or V), or the time elapsed between the last kindling stimulus and preparation of the hippocampal slices (24 h-6 wk). The input resistance of kindled GCs (55 +/- 4 M omega) was significantly higher than that of controls (40 +/- 3 M omega). In contrast to most control GCs, the slope conductance (GS) of kindled neurons, measured with constant-amplitude current injections at various membrane potentials, generally increased at membrane potentials more negative than rest. Furthermore, other voltage-dependent ionic conductances (see below), that were not normally encountered in control GCs, were present in kindled neurons. 4. The intracellularly recorded monosynaptic excitatory postsynaptic potentials (EPSPs) of kindled GCs, evoked through the stimulation of the lateral perforant pathway, differed significantly from the EPSPs of control GCs. The amplitudes of control EPSPs increased upon hyperpolarizations and decreased following depolarizations of the membrane, as expected for conventional EPSPs without contribution from voltage-dependent conductances. In contrast, the EPSPs of kindled GCs invariably increased in amplitude and duration at membrane potentials 5-20 mV depolarized from rest, indicating the presence of a characteristic voltage-dependent component. Frequently, following the synaptically triggered action potentials, kindled GCs displayed depolarizing afterpotentials. 5. Perfusion of the N-methyl-D-aspartate (NMDA) receptor antagonist DL-2-amino-5-phosphonovaleric acid (APV; 30 microM) had no effect on the EPSPs of control GCs, but consistently reduced the amplitude and duration of EPSPs in kindled GCs.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Activation of N-methyl-D-aspartate receptors parallels changes in cellular and synaptic properties of dentate gyrus granule cells after kindling. 283 45

The effects of atropine (5 mg/kg), baclofen (10 mg/kg), gamma-hydroxybutyrate (300 mg/kg), gamma-butyrolactone (100 mg/kg) and muscimol (1 mg/kg) upon the action of 2-amino-5-phosphonovalerate (APV; an antagonist at receptors for N-methyl-D-aspartate) on the threshold current for seizures induced by electroshock, were studied in mice. Neither APV, up to 100 mg/kg, nor the other agents produced any significant increase in the convulsive threshold when tested alone. Muscimol had no effect on the action of APV (50 and 100 mg/kg) and the combination of APV with the subthreshold doses of atropine, baclofen, gamma-hydroxybutyrate and gamma-butyrolactone resulted in a clearcut anticonvulsant action. The observed increases in the threshold may be due to the suppressant effects of the drugs upon excitatory transmission, which eventually leads to the potentiation of the action of APV, resulting from blockade of N-methyl-D-aspartate receptors.
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PMID:Modification of the anticonvulsant activity of 2-amino-5-phosphonovalerate by agents affecting different neurotransmitter systems. 286 64

In rats, the seizures induced by systemic kainic acid (KA) are followed by extensive neuronal damage, notably in the hippocampal region. We report that the specific N-methyl-D-aspartate (NMDA) receptor antagonist, D-(-)-aminophosphonovalerate (D(-)APV), given i.c.v. prior to or 2 h after i.p. KA injection markedly protected CA1 but not other hippocampal neurons against degeneration. In contrast, D(-)APV had no effect on KA-induced wet dog shakes or on behavioral seizures. We conclude that NMDA receptors participate in the neurotoxic but not in the behavioral effects of systemic KA.
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PMID:Effects of D-(-)-aminophosphonovalerate on behavioral and histological changes induced by systemic kainic acid. 289 13

1. The preceding report presented evidence that the kindling-like induction of electrographic seizures (EGSs) in the hippocampal slice is accompanied by a lasting increase in the excitability of CA3 axon terminals, which is manifested by an increase in action-potential initiation at this site. In this report we explore the role of the N-methyl-D-aspartate (NMDA) receptor in the induction and maintenance of this antidromic firing, as well as the role of the gamma-aminobutyric acid type A (GABAA) receptor in regulating this activity once it has been induced. 2. Kindling-like stimulus trains (60 Hz, 2 s) were delivered to s. radiatum of CA3 at 10-min intervals. As EGSs developed in control artificial cerebrospinal fluid (ACSF), the frequency of axon terminal firing increased markedly (by 10.33 +/- 3.29 spikes/min, mean +/- SE P << 0.01). The prior application of the competitive NMDA antagonist D-2-amino-5-phosphonovaleric acid (D-APV, 50 or 100 microM) prevented the induction of EGSs and suppressed the increase in terminal firing seen in control ACSF (mean increase 1.06 +/- 1.11 spikes/min, P < 0.02). However, when D-APV was applied only after EGSs and antidromic spikes were induced in control ACSF, it failed to alter the frequency of terminal firing (mean 6.44 +/- 2.03 in control ACSF, 8.89 +/- 2.31 in APV; P >> 0.1). Thus the NMDA receptor is required for the induction but not maintenance of increased axon terminal firing, as we previously have shown to be the case for EGSs.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Axon terminal hyperexcitability associated with epileptogenesis in vitro. II. Pharmacological regulation by NMDA and GABAA receptors. 790 47

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