Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the effects of electroconvulsive shock (ECS) on interstitial concentrations of serotonin (5-HT), its metabolite 5-hydroxyindoleacetic acid (5-HIAA), acetylcholine and choline, and the dopamine metabolite homovanillic acid (HVA) in the hippocampus of freely moving rats using online brain microdialysis. The effects of ECS on 5-HT, 5-HIAA, and HVA were compared to the effects of seizures induced by the convulsant agent flurothyl. Interstitial concentrations of 5-HT increased several fold in response to ECS and this increase was accompanied by a significant increase in the concentration of HVA. Acetylcholine and choline concentrations were also increased significantly by ECS. The ECS-induced increase in interstitial 5-HT was markedly reduced when the voltage-dependent sodium channel blocker tetrodotoxin (1 mumol/L) was added in the perfusion solution, indicating that the observed increase was of neuronal origin. Interstitial concentrations of 5-HT also increased in response to flurothyl-induced seizures and this increase was accompanied by a significant increase in the concentration of HVA. These results provide direct in vivo evidence that interstitial concentrations of 5-HT increase several fold in response to both ECS- and flurothyl-induced seizures. These observations are discussed in relation to the hypothesized role of 5-HT in ECS-induced memory deficits.
 ...
PMID:Neurochemical effects of electrically and chemically induced seizures: an in vivo microdialysis study in the rat hippocampus. 138 32

Felbamate (2-phenyl-1,3-propanediol dicarbamate, FBM) was subjected to a series of carefully selected in vivo and in vitro tests to provide additional insight into mechanism of action, margin of safety, and clinical potential. FBM was effective against intracerebroventricular (i.c.v.) N-methyl-D-aspartate (NMDA)-induced clonus and i.c.v. NMDA- and quisqualic acid (quis)-induced forelimb tonic extension in mice and ineffective against i.c.v. quis-induced clonus in mice. FBM was also effective in preventing the expression of Stage 5 kindled seizures in corneal-kindled rats. The calculated protective indices (rotorod median toxic dose divided by anticonvulsant median effective dose) ranged from 28 to 146 for those tests in which FBM displayed activity. With the in vitro tests, FBM did not significantly displace [3H]MK-801 from its binding site. In contrast, FBM was effective in blocking sustained repetitive firing in mouse spinal cord neurons grown in tissue culture (median inhibitory concentration 67 micrograms/ml). This effect on repetitive firing suggests indirectly that FBM modulates sodium channel conductance. The results, when compared to similar data for phenytoin, carbamazepine, valproate, and ethosuximide, support the concept that FBM is a relatively nontoxic agent with a unique profile of anticonvulsant action, a broad margin of safety, and a clinical potential that includes at least generalized tonic-clonic and complex partial seizures.
 ...
PMID:A neuropharmacological evaluation of felbamate as a novel anticonvulsant. 159 38

Looking for the 'epilepsy gene', we used ddY derived, genetically seizure-susceptible El mice. To find biochemical abnormalities, we examined the amino acid metabolism and gene activity, including poly(A)+ RNA and sodium channel mRNA expressions, in the developmental growth of El mice. At the early postnatal stage, abnormalities in amino acid metabolism were aberrant free amino acid fluctuations. Almost all free amino acids in the liver of newborn El mice showed considerably lower levels than did ddY mice. Among those amino acids, Asp, Glu and Tyr were extremely low, but rapidly recovered to the ddY level within a week. During the successive growth period, we observed no significant difference in hepatic amino acid levels between El and ddY mice. No such drastic changes were noted in the amino acid levels in the brains of ddY and El mice; only the Gly level was greater in El mice than in ddY mice on the day of birth. Rotatory stimulation which evokes convulsions in El mice but not in ddY mice was applied to adult mice and changes in the amino acid level were assessed. The level of Glu and Tyr in seizure-induced El mice was approximately twice that noted in the liver and brain of El mice, which did not experience seizures. It was also somewhat increased in ddY mice subjected to rotational stress which did not induce seizures in that strain. Gene activity that expresses poly(A)+ RNAs, including sodium channel mRNA, was determined by Northern blot analysis, which reveals unscheduled mRNA synthesis by the appearance of an extra band approximately 3 kb in size.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Unusual biochemical development of genetically seizure-susceptible El mice. 166 88

We have previously shown that procaine and lidocaine stimulate corticotropin-releasing hormone (CRH) secretion by explanted rat hypothalami. This effect was of interest in light of the fact that both lidocaine and CRH administration to experimental animals can produce kindled seizures which cross-sensitize with electrically kindled seizures, and of recent data suggesting that limbic hyperexcitability, perhaps mediated through CRH, may be involved in the pathophysiology of affective illness. Because a prominent effect of the local anesthetics is to decrease neuronal firing by blocking sodium conductance, we were surprised by the capacity of these agents to cause CRH secretion and pituitary-adrenal activation and wished to further elucidate the possible mechanism(s) of these effects. To accomplish this, we first explored the effect of the sodium channel blocker tetrodotoxin (TTX) on basal and stimulated immunoreactive CRH (iCRH) secretion by explanted rat hypothalami. In contrast to procaine and lidocaine, TTX inhibited rather than stimulated iCRH secretion. Moreover, TTX inhibited lidocaine-induced iCRH secretion but had no influence on the response of the CRH neuron to procaine. To explore other potential mechanisms of action, we examined the effect of the calcium channels blocker verapamil and of pharmacologic antagonists to serotonergic, alpha-adrenergic and cholinergic receptors. The latter was particularly of interest because of structural similarities between procaine or lidocaine and acetylcholine (ACh) and because it has been shown that these anesthetic agents interact with the ACh receptor. Verapamil and blockade of serotonergic, alpha-adrenergic and cholinergic receptors did not inhibit the effects of procaine or lidocaine on iCRH secretion, whereas both GABA and dexamethasone exerted inhibitory effects.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Procaine and lidocaine stimulate corticotropin-releasing hormone secretion by explanted rat hypothalami through a sodium conductance-independent mechanism. 196 16

Animal seizure models, in vitro preparations of cell cultures and tissue slices, and an unravelling of some of the basic mechanisms underlying epileptogenesis and epilepsy have furthered the understanding of mechanisms of action of antiepileptic drugs at the cellular and subcellular levels. Nevertheless, the mechanism of action of most antiepileptic drugs in clinical use is incompletely understood. Multiple physiologic mechanisms are altered by antiepileptic drugs. Some of these drugs, such as phenytoin and carbamazepine, decrease sustained repetitive firing and post-tetanic potentiation through their blocking effects on the sodium channel. Benzodiazepines and barbiturates enhance GABA-mediated inhibition. Many antiepileptic drugs inhibit calcium influx and calcium-mediated secondary effects at supratherapeutic concentrations. Newer drugs that inhibit excitatory receptors or enhance various forms of inhibition are presently under investigation.
 ...
PMID:Mechanisms of antiepileptic drug action. 202 99

Recent studies have demonstrated that several transcription factor genes are rapidly activated by neuronal stimulation. For example, we have found that prolonged and repeated seizure activity produced by administration of chemical convulsants induces a rapid and transient increase in mRNA levels of four immediate early genes in rat brain. These genes, zif/268, c-fos, c-jun, and jun-B, encode sequence specific DNA binding proteins thought to act as transcription regulatory factors. To ascertain whether a brief electrically induced seizure discharge of the type utilized in clinical electroconvulsive treatment is sufficient to induce a similar genomic response, we have examined the response of these mRNAs in rat brain following single and repeated electroshock-induced seizures. After electroshock, mRNA levels of each of these genes increase within 15 min, and all except c-jun return to near baseline levels within 4 h. Although this response is most prominent in granule cell neurons of the hippocampus, increases are also apparent in neocortex and pyriform cortex. The rapid mRNA response persists in animals receiving a chronic electroshock protocol similar to that used in clinical electroconvulsive therapy. Intrahippocampal infusion of the sodium channel antagonist tetrodotoxin blocks hippocampal mRNA responses without blocking seizures, indicating a role for electrical excitation in the electroshock-induced mRNA response. By contrast, pretreatment with anticonvulsants or selective NMDA antagonists, which reduce seizure intensity and block hindlimb extension, fails to alter mRNA responses, suggesting that seizure induction, rather than spread, is linked to these mRNA responses. Because electroshock induces robust, highly reproducible mRNA responses, it may be useful to study the neuronal genomic response to stimulation.
 ...
PMID:Rapid rise in transcription factor mRNAs in rat brain after electroshock-induced seizures. 223 Aug 1

The anticonvulsants phenytoin and carbamazepine interact allosterically with the batrachotoxin binding site of sodium channels. In the present study, we demonstrate an autoradiographic technique to localize the batrachotoxin binding site on sodium channels in rat brain using [3H]batrachotoxinin-A 20-alpha-benzoate (BTX-B). Binding of [3H]BTX-B to brain sections is dependent on potentiating allosteric interactions with scorpion venom and is displaced by BTX-B (Kd approximately 200 nM), aconitine, veratridine, and phenytoin with the same rank order of potencies as described in brain synaptosomes. The maximum number of [3H]BTX-B binding sites in forebrain sections (approximately 1 pmol/mg of protein) also agrees with biochemical determinations. Autoradiographic localizations indicate that [3H]BTX-B binding sites are not restricted to cell bodies and axons but are present in synaptic zones throughout the brain. For example, a particularly dense concentration of these sites in the substantia nigra is associated with afferent terminals of the striatonigral projection. By contrast, myelinated structures possess much lower densities of binding sites. In addition, we present electrophysiological evidence that synaptic transmission, as opposed to axonal conduction, is preferentially sensitive to the action of aconitine and veratridine. Finally, the synaptic block produced by these sodium channel activators is inhibited by phenytoin and carbamazepine at therapeutic anticonvulsant concentrations. Thus, these anticonvulsants may limit seizure spread not only by affecting all-or-none conduction by axonal sodium channels but also by modulating graded aspects of synaptic transmission.
 ...
PMID:Site of anticonvulsant action on sodium channels: autoradiographic and electrophysiological studies in rat brain. 243 90

Mutations in the enhancer of seizure (e(sei] locus have been isolated on the basis of their ability to cause temperature-induced paralysis of alleles at the seizure (sei) locus at temperatures at which these mutations ordinarily do not paralyze. This enhancer is specific to the seizure locus and is without effect on other temperature-sensitive paralytic mutants including para, nap, tip-E and shi. This suggests that the enhancer responds specifically to the mechanism of paralysis mediated by the seizure mutations. The e(sei) is a recessive mutation which maps to 39.0 on the left arm of chromosome 3. Deficiency mapping has placed it at 69A4-B5 on the salivary gland polytene chromosome map. When a new enhancer allele was isolated following P-M hybrid dysgenesis, there was a concomitant P-element insertion at 69B. In the absence of seizure mutations, the enhancer mutation causes non-temperature dependent hyperactivity when agitated and interferes with the climbing response. Electrophysiological studies examined the effects of increasing temperature on electrical activity in the adult giant fiber/flight muscle system. Neuronal hyperactivity was seen in both e(sei) and sei single mutant homozygotes, but not in wild type. The hyperactivity was more severe in the sei;e(sei) double mutants. The correlation between the physiological effects and the mutant behavior suggests that both sei and e(sei) cause membrane excitability defects. Since previous work has shown that seizure mutants affect [3H]saxitoxin binding to the voltage-sensitive sodium channel, e(sei) may code for a gene product which interacts with this channel.
 ...
PMID:Enhancer of seizure: a new genetic locus in Drosophila melanogaster defined by interactions with temperature-sensitive paralytic mutations. 244 Jul 63

The deduced amino acid sequence of a Drosophila gene isolated with a vertebrate sodium channel complementary DNA probe revealed an organization virtually identical to the vertebrate sodium channel protein; four homologous domains containing all putative membrane-spanning regions are repeated in tandem with connecting linkers of various sizes. All areas of the protein presumed to be critical for channel function show high evolutionary conservation. These include those proposed to function in voltage-sensitive gating, inactivation, and ion selectivity. All 24 putative gating charges of the vertebrate protein are in identical positions in the Drosophila gene. Ten introns interrupt the coding regions of the four homology units; introns with positions conserved among homology units bracket a region hypothesized to be the selectivity filter for the channel. The Drosophila gene maps to the right arm of the second chromosome in region 60D-E. This position does not coincide with any known mutations that confer behavioral phenotypes, but is close to the seizure locus (60A-B), which has been hypothesized to code for a voltage-sensitive sodium channel.
 ...
PMID:Genomic organization and deduced amino acid sequence of a putative sodium channel gene in Drosophila. 244 69

We describe the expression and characterization of sodium channels from human brain RNA in the Xenopus oocyte. The expressed channel, studied by whole-cell voltage clamp, reveals characteristic selectivity for sodium as the permeant ion, voltage-dependent gating, and block by nanomolar concentrations of tetrodotoxin. Such channels are not seen in control oocytes injected with solvent only. The anticonvulsant diphenylhydantoin (DPH) inhibits the expressed channel in a voltage- and use-dependent manner, much like the effect seen in primary mammalian neuronal preparations. The inhibition of the expressed human sodium channel by DPH can be described by models previously developed to explain block of Na channels by local anesthetics. The preferential block of Na channels during depolarization helps explain the selectivity of DPH for neurons involved in seizure activity.
 ...
PMID:Sodium channels from human brain RNA expressed in Xenopus oocytes. Basic electrophysiologic characteristics and their modification by diphenylhydantoin. 246 90


1 2 3 4 5 6 7 8 9 10 Next >>