Failure to replicate an allelic association between an exon 8 polymorphism of the human 1A calcium channel gene and common syndromes of idiopathic generalized epilepsy

The present replication study tested the validity of a previously reported allelic association between a single nucleotide polymorphism in exon 8 (SNP8) of the gene encoding the 1A-calcium channel subunit (CACNA1A) and common subtypes of idiopathic generalized epilepsy (IGE). Pyrosequencing was applied to assess the SNP8 genotypes in 354 unrelated German IGE probands, both parents of 118 IGE probands, and 186 healthy control subjects of German descent. Our population-based association analysis did not provide evidence for an allelic association of SNP8 with either IGE or two phenotypically more homogeneous IGE subtypes, consisting of either 139 probands with juvenile myoclonic epilepsy or 207 probands whose IGE started with typical absence seizures (P>0.72). In addition, the transmission disequilibrium test did not indicate a preferential transmission of SNP8 alleles in 97 informative parent–child transmissions (McNemar 2=0.093, DF=1, P=0.76). Accordingly, we failed to confirm previous evidence that genetic variation of the CACNA1A gene confers susceptibility to common IGE syndromes

Linkage analysis between childhood absence epilepsy and genes encoding GABAA and GABAB receptors, voltage-dependent calcium channels, and the ECA1 region on chromosone 8q

Childhood absence epilepsy (CAE) is an idiopathic generalised epilepsy (IGE) characterised by onset of typical absence seizures in otherwise normal children of school age. A genetic component to aetiology is well established but the mechanism of inheritance and the genes involved are unknown. Available evidence suggests that mutations in genes encoding GABA receptors or brain expressed voltage-dependent calcium channels (VDCCs) may underlie CAE. The aim of this work was to test this hypothesis by linkage analysis using microsatellite loci spanning theses genes in 33 nuclear families each with two or more individuals with CAE. Seventeen VDCC subunit genes, ten GABA(A)R subunit genes, two GABA(B) receptor genes and the ECA1 locus on 8q24 were investigated using 35 microsatellite loci. Assuming locus homogeneity, all loci gave statistically significant negative LOD scores, excluding these genes as major loci in the majority of these families. Positive HLOD scores assuming locus heterogeneity were observed for CACNG3 on chromosome 16p12-p13.1 and the GABRA5, GABRB3, GABRG3 cluster on chromosome 15q11-q13. Association studies are required to determine whether these loci are the site of susceptibility alleles in a subset of patients with CAE

A Novel SCN1A Mutation Associated with Generalized Epilepsy with Febrile Seizures Plus—and Prevalence of Variants in Patients with Epilepsy

We recently described mutations of the neuronal sodium-channel α-subunit gene, SCN1A, on chromosome 2q24 in two families with generalized epilepsy with febrile seizures plus (GEFS+) type 2. To assess the contribution that SCN1A makes to other types of epilepsy, 226 patients with either juvenile myoclonic epilepsy, absence epilepsy, or febrile convulsions were screened by conformation-sensitive gel electrophoresis and manual sequencing of variants; the sample included 165 probands from multiplex families and 61 sporadic cases. The novel mutation W1204R was identified in a family with GEFS+. Seven other coding changes were observed; three of these are potential disease-causing mutations. Two common haplotypes, with frequencies of .67 and .33, were defined by five single-nucleotide polymorphisms (SNPs) spanning a 14-kb region of linkage disequilibrium. An SNP located 18 bp upstream of the splice-acceptor site for exon 3 was observed in 7 of the 226 patients but was not present in 185 controls, suggesting possible association with a disease mutation. This work has confirmed the role of SCN1A in GEFS+, by identification of a novel mutation in a previously undescribed family. Although a few candidate disease alleles were identified, the patient survey suggests that SCN1A is not a major contributor to idiopathic generalized epilepsy. The SCN1A haplotypes and SNPs identified here will be useful in future association and linkage studies

Evaluation of CACNA1H in European patients with childhood absence epilepsy

CACNA1H was evaluated in a resource of Caucasian European patients with childhood absence epilepsy by linkage analysis and typing of sequence variants previously identified in Chinese patients. Linkage analysis of 44 pedigrees provided no evidence for a locus in the CACNA1H region and none of the Chinese variants were found in 220 unrelated patients. (c) 2006 Elsevier B.V. All rights reserved

A multicenter study of BRD2 as a risk factor for juvenile myoclonic epilepsy.

Although complex idiopathic generalized epilepsies (IGEs) are recognized to have a significant genetic component, as yet there are no known common susceptibility variants. It has recently been suggested that variation in the BRD2 gene confers increased risk of juvenile myoclonic epilepsy (JME), which accounts for around a quarter of all IGE. Here we examine the association between the candidate causal SNP (the promoter variant rs3918149) and JME in five independent cohorts comprising in total 531 JME cases and 1,390 healthy controls.Comparative StudyJournal ArticleMulticenter StudyResearch Support, Non-U.S. Gov'tFLWINinfo:eu-repo/semantics/publishe

Evaluation of CACNA1H in European patients with childhood absence epilepsy." Epilepsy Res 69(2

Abstract CACNA1H was evaluated in a resource of Caucasian European patients with childhood absence epilepsy by linkage analysis and typing of sequence variants previously identified in Chinese patients. Linkage analysis of 44 pedigrees provided no evidence for a locus in the CACNA1H region and none of the Chinese variants were found in 220 unrelated patients