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)

Ethanol dependence, arising from chronic ethanol exposure, is associated with neuroadaptations of GABAA receptors, evidenced by alterations in various behaviors, receptor responsiveness and subunit gene expression. The present studies explored the effects of ethanol dependence in female rats for comparison with previous studies in our laboratory using male rats. We found that ethanol dependence resulted in differential effects on GABAA receptor gene expression in female rat cerebral cortex compared to ethanol dependent male rats. Notably, chronic ethanol consumption did not change GABAA receptor alpha 1 subunit peptide levels in ethanol dependent female rat cortex, in contrast to previously observed decreases in alpha 1 subunit expression in ethanol dependent male rat cortex. The effects of ethanol dependence on additional GABAA receptor subunit peptide levels (alpha 4, beta 2/3 and gamma 2) were similar, but not identical, between female and male rat cortex. When directly compared within the experiment, male and female rats had similar baseline bicuculline seizure thresholds and displayed a similar increase in seizure susceptibility during ethanol withdrawal. Ethanol withdrawn female rats were cross tolerant to the anticonvulsant effects of diazepam, similar to the findings in ethanol withdrawn male rats. Ethanol withdrawn female rats showed a dose-dependent enhancement of the anticonvulsant effect of the neuroactive steroid, THDOC (3 alpha,21-dihydroxy-5 alpha-pregnan-20-one) compared to control animals. This finding is similar to previous observations of increased sensitivity to the anticonvulsant effect of 3 alpha,5 alpha-THP (3 alpha-hydroxy-5 alpha-pregnan-20-one) in ethanol withdrawn male and female rats. In addition, low dose administration of THDOC elevated seizure thresholds in ethanol withdrawn female but not male rats, suggesting that ethanol withdrawn female rats were more responsive to the anticonvulsant effects of this neurosteroid than were ethanol withdrawn male rats. These findings show that gender impacts on adaptations in GABAA receptors elicited by ethanol dependence. However, the physiological outcomes of the differential alterations are not clear. Taken together, these studies suggest that additional mechanisms, beyond effects on GABAA receptor gene expression are involved in the mediation of ethanol dependence and withdrawal.
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PMID:Influence of gender on chronic ethanol-induced alterations in GABAA receptors in rats. 968 72

Synaptic mechanisms underlying hyperexcitability due to withdrawal from chronic ethanol exposure were investigated in a hippocampal explant model system using electrophysiological techniques. Whole-cell voltage clamp recordings from CA1 pyramidal cells demonstrated that acute ethanol exposure inhibited N-methyl-D-aspartate receptor (NMDAR)-mediated excitatory postsynaptic currents by over 40%. Chronic ethanol exposure for 6 to 11 days at 35 or 75 mM induced no differences from control explants in the fast component of the population synaptic response (non-NMDAR-mediated). Prolonged field potential recordings (to 10 hr) were used to monitor the withdrawal process in vitro. Ethanol-exposed explants from both 35 and 75 mM groups displayed an increase (60% and 89%, respectively) in the NMDAR-mediated component of synaptic transmission on withdrawal from chronic exposure. Prolonged tonic-clonic electrographic seizure activity was consistently observed after ethanol withdrawal only after the increase in NMDAR function. This hyperexcitability was inhibited by the NMDAR antagonist D-2-amino-5-phosphonovaleric acid and returned once the NMDAR component was reestablished after antagonist washout. In situ hybridization studies suggest that expression of NR2B subunit mRNA may be enhanced in explants after chronic ethanol exposure. No lasting differences were observed in the NMDAR component after acute in vitro ethanol exposure and withdrawal. These data suggest that the occurance of ethanol withdrawal hyperexcitability in this system may be directly dependent on alterations in NMDAR function after chronic exposure. Since this region and others that contain ethanol sensitive NMDARs may serve as epileptic foci, long term alterations in NMDAR function may be expected to generate paroxysmal depolarizing shifts underlying ictal events after withdrawal from ethanol exposure.
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PMID:Evidence for a causative role of N-methyl-D-aspartate receptors in an in vitro model of alcohol withdrawal hyperexcitability. 976 26

Chronic ethanol exposure produces changes in behavior that may result from effects of ethanol on gene expression. To identify potentially ethanol-regulated genes, mRNA differential display was used to screen the expressed genes in whole brain of mice chronically exposed to ethanol vapors. Mice genetically selected for susceptibility (Withdrawal Seizure-Prone; WSP) or resistance (Withdrawal Seizure-Resistant; WSR) to ethanol withdrawal convulsions were exposed to either ethanol vapor (ETOH group) or air (CTL group) for 72 h. A putative ethanol-regulated product was isolated; nucleotide sequence analysis of this product revealed >85% nucleotide identity to human neuroendocrine-specific protein (NSP) gene. Northern analysis of the expression of this product revealed hybridization to two transcripts ( approximately 3.0 kb and 1.4 kb) on blots containing whole brain RNA, consistent with the transcript sizes of hNSP. Ethanol-induced regulation of mNSP was suggested in whole brain of WSP mice, but not in WSR mice, by Northern blot analysis. One transcript (3.0 kb) suggests a 26% increase in relative abundance in whole brain of ethanol-exposed WSP mice, while there was no effect of ethanol on abundance of the 1.4-kb transcript in WSP mice. No effects of ethanol were observed for WSR mice. These preliminary findings suggest that mNSP represents a novel ethanol-induced gene in mice selected for genetic susceptibility to severe ethanol withdrawal.
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PMID:Identification of neuroendocrine-specific protein as an ethanol-regulated gene with mRNA differential display. 988 Jun 63

The effects of ethanol on the development of pentylenetetrazol (PTZ)-kindling as well as on fully PTZ-kindled convulsions in rats were investigated. Ethanol (0.5, 1.0 and 1.5 g/kg i.p.) administered 15 min prior to each PTZ-injection (35 mg/kg i.p.; 3 times/week) significantly inhibited the progressive seizure development compared to saline-treated controls. For the higher doses of ethanol the kindling process was restricted to seizure stages of 1 or 2. Tolerance to this antiepileptogenic action did not occur even after 20 PTZ-stimulations. In a second series of experiments, 0.5 g/kg ethanol administered 10h before each PTZ-injection facilitated the rate of kindling development after 7 to 10 PTZ-injections, while the higher doses of ethanol did not modulate or even slightly reduced the seizure development. In a third test, intermittent administration of a high dose of ethanol (2 g/kg p.o.; twice daily for 6 days) before the kindling procedure (0.5 g/kg i.p. ethanol 10h prior to each PTZ-injection), significantly intensified the kindling development. In addition, studies with fully PTZ-kindled rats demonstrated that ethanol (0.1 to 1.5 g/kg i.p.), given 15 min prior or 2 min after PTZ, reduced the seizure severity in a dose-dependent manner. In conclusion, the present findings provide evidence for pronounced antiepileptogenic and anticonvulsant effects of ethanol after acute application, whereas repeated administration of high doses with longer withdrawal periods leads to proconvulsant actions, possible mediated via neuroadaptive changes in NMDA and/or GABA(A) receptor-related mechanisms.
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PMID:Influence of ethanol on the pentylenetetrazol-induced kindling in rats. 992 83

Ethanol exerts its behavioral effects largely by interacting with receptors to brain neurotransmitters. The molecular mechanisms involving these interactions are still not well known since an ideal model for their study is currently unavailable. In addition, responses to alcohol may vary due to factors such as genetic predisposition, ethanol concentration consumed, and stimuli such as stress, socialization, etc. The chronic consumption of alcohol, similar to that of other drugs such as benzodiazepines and barbiturates, is linked to GABAergic neurotransmission. GABA is the predominant inhibitory neurotransmitter in the brain. In a context of substance abuse, these three drugs first cause a gratifying effect, later tolerance and finally, physical and psychological dependence. If consumption is interrupted abruptly, a withdrawal syndrome occurs. The Alcohol Withdrawal Syndrome (AWS) is a state of hyperexcitability characterized by anxiety, fear, muscular rigidity and tonic-clonic seizures with epileptiform-type characteristics. The epileptic seizures seen during AWS are often similar to those seen in experimental epilepsy models such as "kindling" or GABA Withdrawal Syndrome (GWS) models. A possible correlation between these models and AWS will allow for a better understanding of the cellular and molecular effects that alcohol exerts on the brain.
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PMID:Ethanol, GABA and epilepsy. 1007 17

The effects of dextromethorphan (DM), a noncompetitive antagonist of the N-methyl-D-aspartate (NMDA) receptors, have been investigated on ethanol withdrawal signs in rats. Ethanol (7.2% v/v) was given to rats in a liquid diet for 16 days. DM (10, 20, and 40 mg/kg) and saline were injected intraperitoneally at the third hour of ethanol withdrawal. DM (40 mg/kg) and ethanol dependent saline were also administered to ethanol naive rats. DM (40 mg/kg) did not produce any significant change in locomotor activity in ethanol naive rats. The effects of DM on locomotor activity and total ethanol withdrawal score were evaluated at the fourth and sixth hours of ethanol withdrawal. DM inhibited locomotor hyperactivity at these periods. DM also reduced total ethanol withdrawal score from the fourth hour to the sixth hour, and it significantly decreased audiogenic seizures. Seizure susceptibility after chronic ethanol exposure may be dependent upon sensitization or upregulation of NMDA processes and NMDA receptors. Our results suggest that inhibition of NMDA receptors by DM alleviates signs of ethanol withdrawal.
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PMID:Dextromethorphan attenuates ethanol withdrawal syndrome in rats. 1008 Feb 48

Chronic ethanol exposure and subsequent withdrawal are known to change NMDA receptor activity. This study examined the effects of chronic ethanol administration and withdrawal on the expression of several NMDA receptor subunit and splice variant mRNAs in the rat cerebral cortex. Ethanol dependence was induced by ethanol vapour exposure. To delineate between seizure-induced changes in expression during withdrawal and those due to withdrawal per se, another group of naive rats was treated with pentylenetetrazol (PTZ) injection (30 mg/kg, i.p.). RNA samples from the cortices of chronically treated and withdrawing animals were compared to those from pair-fed controls. Changes in NMDA receptor mRNA expression were determined using ribonuclease protection assays targetting the NR2A, -2B, -2C and NR1-pan subunits as well as the three alternatively spliced NR1 inserts (NR1-pan describes all the known NR1 splice variants generated from the 5' insert and the two 3' inserts). The ratio of NR1 mRNA incorporating the 5' insert vs. that lacking it was decreased during ethanol exposure and up to 48 h after withdrawal. NR2B mRNA expression was elevated during exposure, but returned to control levels 18 h after withdrawal. Levels of NR2A, NR2C, NR1-pan and both 3' NR1 insert mRNAs from the ethanol-treated groups did not alter compared with the pair-fed control group. No changes in the level of any NMDA receptor subunit mRNA was detected in the PTZ-treated animals. These data support the hypothesis that changes in NMDA receptor subunit composition may underlie a neuronal adaptation to the chronic ethanol-inhibition and may therefore be important in the precipitation of withdrawal hyperactivity.
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PMID:Chronic ethanol exposure and withdrawal influence NMDA receptor subunit and splice variant mRNA expression in the rat cerebral cortex. 1008 58

Ethanol is a potent inhibitor of the N-methyl-D-aspartate (NMDA)-receptor subtype of glutamate receptor in a number of brain areas. The mechanism of ethanol action has been investigated by means of patch-clamp recording of ionic currents and fura-2 measurement of intracellular Ca2+ concentration in cell culture systems; the subunit composition of NMDA receptors and their influence on the effect of ethanol was determined by molecular biology methods. Ethanol does not appear to interact with NMDA either at the glutamate recognition site of the receptor, or at any of the hitherto known multiple modulatory sites, such as the glycine or polyamine site. Moreover, ethanol does not cause an open channel block by itself and fails to interact with Mg2+ at the site where it causes open channel block. The ability of ethanol to inhibit responses to NMDA is dependent on the subunit combination of NMDA receptors. The NR1/NR2A and NR1/NR2B combinations are preferentially sensitive to ethanol inhibition. Chronic treatment with ethanol leads to an increase of the NMDA receptor number at the transcriptional and posttranscriptional level; the receptor function is also facilitated. This causes withdrawal-type seizures after termination of chronic treatment with ethanol. The inhibition of NMDA receptors by ethanol leads to the depression of excitatory synaptic potentials mediated by this type of excitatory amino acid receptor. Ethanol-induced disturbances in certain regions of the brain, i.e. hippocampus, nucleus accumbens or locus coeruleus may lead to cognitive disorders or drug dependence. Brain slices containing the locus coeruleus may be used as an in vitro test system to investigate the addictive properties of ethanol.
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PMID:Ethanol-induced inhibition of NMDA receptor channels. 1040 99

Effects of agmatine, which is an endogenous polyamine metabolite formed by decarboxylation of L-arginine, have been investigated on the ethanol withdrawal syndrome in rats. Adult male Wistar rats were used in the study. Ethanol (7.2% v/v) was given to the rats by a liquid diet for 21 days. Agmatine (20, 40, 80 and 160 mg/kg) and saline were injected to rats intraperitoneally 30 min before ethanol withdrawal testing. After 30th min, 2nd and 6th h of ethanol withdrawal, rats were observed for 5 min, and withdrawal signs which included locomotor hyperactivity, agitation, stereotyped behavior, wet dog shakes and tremor were recorded or rated. A second series of injections was given at 6 h after the first one, and subjects were then tested for audiogenic seizures. Agmatine caused dose-dependent and significant inhibitory effects on stereotyped behaviors, wet dog shakes and tremors during the observation period. It did not cause any significant change in motor coordination of naive (not ethanol-dependent) rats. Our results suggest that agmatine attenuates withdrawal syndrome in ethanol-dependent rats; thus, this drug may be beneficial in the treatment of ethanol dependence.
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PMID:Effects of agmatine on ethanol withdrawal syndrome in rats. 1062 39

Susceptibility to behaviorally similar audiogenic seizures (AGS) occurs genetically and is inducible during ethanol withdrawal (ETX). Comparisons between AGS mechanisms of genetically epilepsy-prone rats (GEPR-9s) and ethanol-withdrawn rats (ETX-Rs) are yielding information about general pathophysiological mechanisms of epileptogenesis. The inferior colliculus (IC) is the AGS initiation site. Excitatory amino acid (EAA) abnormalities in the IC are implicated in AGS, and histamine and adenosine receptor activation each reduce EAA release and inhibit several seizure types. Previous studies indicate that focal infusion of an adenosine receptor agonist into the IC blocked AGS in GEPR-9s, but the effects of adenosine receptor activation in the IC on AGS in ETX-Rs are unknown. The effects of histamine receptor activation on either form of AGS are also unexamined. The present study evaluated effects of histamine or a nonselective adenosine A(1) agonist, 2-chloroadenosine, on AGS by focal microinjection into the IC. Ethanol dependence and AGS susceptibility were induced in normal rats by intragastric ethanol. Histamine (40 or 60 nmol/side) significantly reduced AGS in GEPR-9s, but histamine in doses up to 120 nmol/side did not affect AGS in ETX-Rs. 2-Chloroadenosine (5 or 10 nmol/side) did not affect AGS in ETX-Rs, despite the effectiveness of lower doses of this agent in GEPR-9s reported previously. Thus, histamine and adenosine receptors in the IC modulate AGS of GEPR-9s, but do not modulate ETX-induced AGS. The reasons for this difference may involve the chronicity of AGS susceptibility in GEPR-9s, which may lead to more extensive neuromodulation as compensatory mechanisms to limit the seizures compared to the acute AGS of ETX-Rs.
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PMID:Modulation of audiogenic seizures by histamine and adenosine receptors in the inferior colliculus. 1078 66

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