Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

A recently-developed method of gene mapping is reviewed. Several responses to EtOH were studied with the purpose of identifying genes with modest effects (Quantitative Trait Loci, or QTLs). As an example, results from a study of acute ethanol withdrawal severity are discussed. Mice from inbred strains C57BL/6J and DBA/2J, and 19 of their Recombinant Inbred (BXD RI) strains, were given 4 g/kg EtOH and their acute withdrawal severity assessed with the handling-induced convulsion (HIC). HIC scores varied markedly among strains. Comparison of the pattern of strain means for withdrawal with a database comprising genotype of each BXD RI strain for almost 800 mapped polymorphic genetic markers revealed associations with several potential QTLs appearing on several mouse chromosomes. To verify the presence of a gene affecting withdrawal, we then withdrawal-tested individual F2 mice bred from the F1 cross of the parental C57 and DBA strains. These mice were then genotyped for several polymorphic markers close to a putative QTL on chromosome 2. Possession of the DBA allele in severely withdrawing F2 animals was significantly associated with one such marker, D2Mit9, confirming the presence of a gene nearby affecting withdrawal. As a further test, mice of the replicated Withdrawal Seizure-Prone (WSP) and -Resistant (WSR) lines, selected for severity of EtOH withdrawal HIC, were also genotyped. Alleles at the D2Mit9 locus assorted disproportionately (and consistently) between the two pairs of WSP and WSR lines, while alleles at other loci did not. Thus, three tests consistently suggest the influence of a gene, tentatively termed Aw1, 37 cM from the centromere on chromosome 2, that appears to control as much as 40% of the genetic variance in withdrawal. The provisional locus is located very near to two candidate genes. Gad1 codes for the synthesis of glutamic acid decarboxylase, the rate-limiting enzyme for synthesis of GABA. A cluster of genes (Scn1, Scn2, Scn3) code for voltage-sensitive sodium channel proteins. These genes are plausible candidates for affecting withdrawal HIC.
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PMID:Use of recombinant inbred strains for studying genetic determinants of responses to alcohol. 897 18

Recent work found that lower endogenous levels of the gamma-aminobutyric acid-agonist, neuroactive steroid 3alpha-hydroxy-5alpha-pregnan-20-one (3alpha,5alpha-THP) may be correlated with increased ethanol withdrawal severity in the selectively bred Withdrawal Seizure-Prone and -Resistant mice. The present studies were conducted to determine whether decreased sensitivity to 3alpha,5alpha-THP was correlated with ethanol withdrawal hyperexcitability in another genetic mouse model, namely the C57BL/6 (B6) and DBA/2 (D2) inbred strains. These strains also differ in ethanol withdrawal severity (D2 >> B6). B6 and D2 male mice were injected with 3alpha,5alpha-THP (0-10 mg/kg i.p.) 15 min before the timed tail vein infusion of pentylenetetrazol. B6 mice were more sensitive than D2 animals to the anticonvulsant effect of 3alpha,5alpha-THP. Subsequent studies measured sensitivity to several of the pharmacological effects of 3alpha,5alpha-THP. B6 and D2 male mice were injected with 3alpha,5alpha-THP (0-32 mg/kg) before testing for locomotor activation (total number of entries) and anxiolysis (percent open arm entries) on the elevated plus maze, muscle relaxation (impairment of forelimb grip strength), ataxia (impairment of Rotarod performance) and seizure susceptibility to pentylenetetrazol. B6 mice were more sensitive than D2 animals to the anxiolytic, locomotor stimulant and anticonvulsant effects of 3alpha,5alpha-THP. In contrast, D2 mice were more sensitive than B6 mice to 3alpha,5alpha-THP-induced muscle relaxation and ataxia. Plasma 3alpha,5alpha-THP levels did not differ in the B6 and D2 mice injected with this steroid, suggesting that the strain differences were not pharmacokinetic. Collectively, the results in selectively bred Withdrawal Seizure-Prone and -Resistant mice and B6 and D2 inbred strains suggest that genetic differences in neuroactive steroid sensitivity and biosynthesis may contribute to ethanol withdrawal severity.
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PMID:Genetic differences in behavioral sensitivity to a neuroactive steroid. 902 96

Withdrawal Seizure Prone (WSP) and Withdrawal Seizure Resistant (WSR) mice have been selectively bred for differential ethanol withdrawal handling-induced convulsions (HICs). In addition, it has been observed that WSP mice exhibit drug-naive HICs. This latter finding suggests that WSP and WSR mice differ in their susceptibility to HICs. Alterations in the glutamate and gamma-aminobutyric acid (GABA) systems have been implicated in convulsive activity and have been proposed to underlie the manifestation of ethanol withdrawal symptoms. It is therefore possible that WSP and WSR mice are genetically different with respect to their glutamatergic and/or GABAergic systems. To test this hypothesis, we have analyzed WSP and WSR mice that are both drug- and HIC-naive for differences in the density of nerve terminal glutamate and GABA immunoreactivity within the CA1 subfield of the hippocampus (CA1) and layer II of the somatosensory cortex (SSC). The major finding of this study is that drug- and HIC-naive WSP mice exhibit a significantly greater density of presynaptic glutamate immunoreactivity associated with asymmetric synapses within the CA1, but not the SSC, when compared to WSR mice. The density of GABA immunoreactivity within nerve terminals associated with symmetric synapses does not differ between the selected lines in either brain region. Since prior drug exposure and HICs cannot account for the observed differences in these naive mice, the results strongly suggest that the density of nerve terminal glutamate immunoreactivity within the CA1 is a reflection of inherent genetic differences between WSP and WSR mice. Furthermore, an elevated density of presynaptic glutamate immunoreactivity may be an underlying neurochemical correlate to increased susceptibility to drug-naive and ethanol withdrawal convulsions.
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PMID:Immunocytochemical analysis of glutamate and GABA in selectively bred mice. 923 35

Serotonin reuptake inhibitors, such as fluoxetine, have been shown to exert anticonvulsant effects in several animal models of epilepsy. In view of recent studies showing that 5-HT1A receptor antagonists (somatodendritic autoreceptor antagonists) enhance the increase in extracellular 5-hydroxytryptamine (5-HT, serotonin) produced by serotonin reuptake inhibitors, it was of interest to determine if these antagonists also enhance the anticonvulsant effect of fluoxetine in Genetically Epilepsy-Prone Rats (GEPRs). The 5-HT1A receptor antagonists (-)-pindolol and LY 206130 (1-[1-H-indol-4-yloxy]-3-[cyclohexylamino]-2-propanol maleate) were examined in the present study and both enhanced the anticonvulsant action of fluoxetine in severe seizure GEPRs (GEPR-9s). The latter effect of LY 206130 was found to be dose- and 5-HT-dependent. These findings provide further evidence that the increase in extracellular serotonin observed after administering fluoxetine in combination with a 5-HT1A receptor antagonist is physiologically important and that the anticonvulsant effect of fluoxetine in the GEPR is mediated through an increase in extracellular 5-HT.
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PMID:Enhancement of the anticonvulsant effect of fluoxetine following blockade of 5-HT1A receptors. 938 47

The present study examined mice selectively bred for sensitivity to ethanol withdrawal for differences in the conditioned place preference (CPP) and conditioned taste aversion (CTA) paradigms. Withdrawal Seizure-Prone (WSP) and Withdrawal Seizure-Resistant (WSR) mice and High Alcohol Withdrawal (HAW) and Low Alcohol Withdrawal (LAW) mice were selectively bred for differences in chronic and acute ethanol withdrawal, respectively. For the CPP experiment, male HAW and LAW (generation 5) mice received four pairings of ethanol (2 g/kg), with a distinctive floor stimulus. On intervening days, mice received saline paired with an alternate floor type. During the preference test, all mice received an injection of saline before 60-min access to both floor types. HAW mice showed conditioned preference for the ethanol-paired floor, whereas LAW mice did not. For the CTA experiments, male HAW, LAW, WSP, and WSR mice were adapted to a 2-hr/day water restriction regimen and subsequently received ethanol injections (0, 2, 2.5, or 4 g/kg, i.p.) immediately after 1-hr access to a NaCl-flavored solution. Dose-dependent reductions in NaCl intake reflected the development of CTA in both HAW/LAW and WSP/WSR lines. However, a smaller magnitude of CTA was observed in WSP mice relative to WSR mice after the first ethanol-NaCl pairing. WSP/WSR mice showed similar reductions of NaCl intake on subsequent conditioning trials. Overall, these data suggest that HAW mice selectively bred for high sensitivity to acute ethanol withdrawal are more sensitive to the rewarding effects of ethanol in the CPP paradigm. This outcome is consistent with a previous study showing greater CPP in WSP mice relative to WSR mice. In the CTA paradigm, sensitivity to ethanol withdrawal in the HAW/ LAW selected lines does not appear to be genetically correlated with sensitivity to the aversive properties of ethanol. However, the difference in acquisition of CTA in WSP/WSR lines suggest that some genes determining ethanol withdrawal severity may also influence initial sensitivity to ethanol's aversive effects.
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PMID:Ethanol reward and aversion in mice bred for sensitivity to ethanol withdrawal. 958 55

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 hypothesis that kappa-opioid system activity may in part mediate convulsions exhibited during ethanol withdrawal was tested by exposing Withdrawal Seizure-Prone (WSP) and Withdrawal Seizure-Resistant (WSR) mice to chronic ethanol. Whole brain was harvested for RNA isolation and prodynorphin mRNA steady-state levels in whole brain were examined using Northern blot analysis. The data revealed significantly increased levels of prodynorphin mRNA expression in mice susceptible to ethanol withdrawal convulsions after withdrawal, with no corresponding increase in prodynorphin steady-state levels in mice resistant to ethanol withdrawal convulsions. These findings were not due to basal differences in prodynorphin expression between the WSP and WSR mice. To verify that the differences observed were not due to an ethanol-induced global alteration in gene transcription, mRNA levels of the housekeeping gene glyceraldehyde-3-phosphate dehydrogenase were measured. Glyceraldehyde-3-phosphate dehydrogenase expression was unchanged following both chronic exposure to ethanol and chronic exposure followed by withdrawal. These results extend our understanding of prodynorphin's role in generalized seizure activity to include ethanol withdrawal-induced convulsions. Our findings suggest that prodynorphin expression is modulated during ethanol withdrawal convulsions, or alternatively, prodynorphin may mediate the severity of ethanol withdrawal convulsions.
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PMID:Elevated prodynorphin expression associated with ethanol withdrawal convulsions. 1087 98

Allopregnanolone (3alpha-hydroxy-5alpha-pregnan-20-one) is an endogenously derived metabolite of progesterone, and a potent positive modulator of gamma-aminobutyric acid(A) (GABA(A)) receptors. A withdrawal syndrome, characterized by central nervous system (CNS) hyperexcitability, has been demonstrated following abrupt discontinuation of high progesterone levels in rats, which was due in part to altered levels of allopregnanolone. The purpose of the present study was to determine if a single administration of pregnanolone or allopregnanolone could produce an acute withdrawal response in mice selected for susceptibility (Withdrawal Seizure-Prone, WSP) or resistance (Withdrawal Seizure-Resistant, WSR) to ethanol withdrawal convulsions. WSP mice administered 75 mg/kg pregnanolone showed a significant increase in handling-induced convulsion (HIC) scores over a 25-h testing period. In contrast, HIC scores in WSR mice were negligible after acute administration of 25, 50, 75, or 100 mg/kg pregnanolone. WSP mice also showed a similar increase in HIC after withdrawal from 75 mg/kg allopregnanolone. This effect was evident at both the 10-h and 25-h overall withdrawal severity assessment. These results demonstrate that neuroactive steroids can elicit an acute withdrawal response similar to that of other positive modulators of GABA(A) receptors in WSP mice, supporting the notion that a common set of genes underlie acute and chronic withdrawal severity from multiple agents with depressant effects on the central nervous system.
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PMID:Acute neuroactive steroid withdrawal in withdrawal seizure-prone and withdrawal seizure-resistant mice. 1116 61

In order to understand the level of complexity of the epileptic phenotype in the two strains of Genetically Epilepsy-Prone Rats (GEPRs), we determined two important measures of genetic complexity, penetrance and expressivity. Penetrance is the percentage of animals of a specific genotype who express the phenotype associated with that underlying genotype. Expressivity refers to the degree that a particular genotype is expressed as a phenotype within an individual. Incomplete penetrance and variable expressivity are caused by genetic and environmental variation. In this paper we have studied the epileptic phenotype for 20,373 rats. Animals were tested on three occasions for audiogenic seizure and given an audiogenic response score (on a scale of 0-9, 0 being no seizure and 9 being the most severe). The GEPR-3 and GEPR-9 animals both show incomplete penetrance and variable expressivity of the underlying genetic predisposition. The GEPR-9 strain has more animals that have variable levels of seizure predisposition (as measured by a scoring system that denotes the severity of generalized tonic/clonic seizures) and a greater percentage of animals that exhibit no susceptibility to such seizures induced by sound. Both strains have a number of animals that are not susceptible to sound-induced GTCSs and that exhibit some variability in seizure severity. The GEPR-9 males show greater differences in expressivity and penetrance compared to GEPR-9 females. The GEPR-3 animals also show sex-associated variable penetrance and expressivity of the epileptic phenotype, although the differences are much smaller. These findings are the first step toward the mapping of the underlying quantitative trait loci (QTL) for seizure in these animals.
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PMID:Penetrance and expressivity of genes involved in the development of epilepsy in the genetically epilepsy-prone rat (GEPR). 1209 6

Ethanol (alcohol) withdrawal-induced convulsions are a key index of physical dependence on ethanol and a clinically important consequence of alcohol abuse in humans. In rodent models, severity of withdrawal is strongly influenced by genotype. For example, many studies have reported marked differences in withdrawal severity between the WSR (Withdrawal Seizure Resistant) and WSP (Withdrawal Seizure Prone) mouse strains selectively bred for over 25 generations to differ in chronic withdrawal severity. Therefore, we used an F(2) intercross between the inbred WSP and WSR strains for a genome-wide search for quantitative trait loci (QTLs), which are chromosomal sites containing genes influencing the magnitude of withdrawal. We also used the recently developed HW, RHW (high withdrawal) and LW, RLW (low withdrawal) lines selectively bred for the same trait and in the same manner as the WSP, WSR lines. QTL analysis was then used to dissect the continuous trait distribution of withdrawal severity into component loci, and to map them to broad chromosomal regions by using the Pseudomarker 0.9 and Map Manager QT29b programs. This genome-wide search identified five significant QTLs influencing chronic withdrawal severity on Chromosomes (Chrs) 1 (proximal), 4 (mid), 8 (mid), 11 (proximal), and 14 (mid), plus significant interactions (epistasis) between loci on Chr 11 with 13, 4 with 8, and 8 with 14.
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PMID:Chromosomal loci influencing chronic alcohol withdrawal severity. 1292 94


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