[Serotonin transporter gene and stress reactivity in unipolar depression. Role of the HPA system as endophenotype of the SLC6A4 gene]. / Serotonintransportergen und Stressreagibilität bei unipolarer Depression. Rolle des HPA-Systems als Endophänotyp des Gens SLC6A4.

BACKGROUND: A length polymorphism in the promoter region of the serotonin transporter gene (5-HTTLPR) is associated with both depression and hypothalamic-pituitary-adrenal (HPA) system activity. A dysregulation of the HPA system is considered to be a candidate endophenotype of depression. The objective of the present study was an investigation of a possible gene-endophenotype-interaction between 5-HTTLPR and HPA system activity in a sample of inpatients with major depression. MATERIALS AND METHODS: A total of 237 inpatients with major depression were genotyped for 5-HTTLPR and participated in a combined dexamethasone-corticotropin-releasing hormone test (Dex-CRH test) as well as using the Hamilton score (Hamilton rating scale for depression) to determine the severity of the psychopathology. RESULTS: Patients with the ss-genotype showed a significantly higher HPA -system activity in comparison to patients with the lI-genotype, but no association between 5-HTTLPR and the severity of psychopathology could be detected. CONCLUSIONS: The results of the current study demonstrate an influence of 5-HTTLPR on dysregulation of the HPA system in patients with major depression and support the hypothesis that 5-HTTLPR- and HPA-system-interaction constitutes an important component in the pathogenesis of depression.

Supportive evidence for an allelic association of the human KCNJ10 potassium channel gene with idiopathic generalized epilepsy.

PURPOSE: Quantitative trait loci (QTL) mapping in mice revealed a seizure-related QTL (Szs1), for which the inward-rectifying potassium channel Kcnj10 is the most compelling candidate gene. Association analysis of the human KCNJ10 gene identified a common KCNJ10 missense variation (Arg271Cys) that influences susceptibility to focal and generalized epilepsies. The present replication study tested the initial finding that the KCNJ10 Cys271 allele is associated with seizure resistance to common syndromes of idiopathic generalized epilepsy (IGE). METHODS: The study sample comprised 563 German IGE patients and 660 healthy population controls. To search for seizure type-specific effects, two IGE subgroups were formed, comprising 258 IGE patients with typical absences (IAE group) and 218 patients with juvenile myoclonic epilepsy (JME group). A TaqMan nuclease assay was used to genotype the KCNJ10 single nucleotide polymorphism c.1037C > T (dbSNP: rs1130183) that alters amino acid at position 271 from arginine to cysteine. RESULTS: Replication analysis revealed a significant decrease of the Cys271 allele frequency in 446 IGE patients compared to controls (chi2 = 3.52, d.f. = 1, P = 0.030, one-sided; OR(Cys271+) = 0.69; 95% CI: 0.50-0.95). Among the IGE subgroups, lack of the Cys271 allele was accentuated in the JME group (chi2 = 5.20, d.f. = 1, P = 0.011, one-sided). CONCLUSION: Our results support previous evidence that the common KCNJ10 Arg271Cys missense variation influences seizure susceptibility of common IGE syndromes.

A genome-wide association study implicates diacylglycerol kinase eta (DGKH) and several other genes in the etiology of bipolar disorder.

The genetic basis of bipolar disorder has long been thought to be complex, with the potential involvement of multiple genes, but methods to analyze populations with respect to this complexity have only recently become available. We have carried out a genome-wide association study of bipolar disorder by genotyping over 550,000 single-nucleotide polymorphisms (SNPs) in two independent case-control samples of European origin. The initial association screen was performed using pooled DNA, and selected SNPs were confirmed by individual genotyping. While DNA pooling reduces power to detect genetic associations, there is a substantial cost saving and gain in efficiency. A total of 88 SNPs, representing 80 different genes, met the prior criteria for replication in both samples. Effect sizes were modest: no single SNP of large effect was detected. Of 37 SNPs selected for individual genotyping, the strongest association signal was detected at a marker within the first intron of diacylglycerol kinase eta (DGKH; P=1.5 x 10(-8), experiment-wide P<0.01, OR=1.59). This gene encodes DGKH, a key protein in the lithium-sensitive phosphatidyl inositol pathway. This first genome-wide association study of bipolar disorder shows that several genes, each of modest effect, reproducibly influence disease risk. Bipolar disorder may be a polygenic disease.