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Genome-wide Association Study in German Patients with Attention Deficit/hyperactivity Disorder

Overview
Journal Am J Med Genet B Neuropsychiatr Genet
Specialties Genetics
Neurology
Psychiatry
Date 2011 Oct 21
PMID 22012869
Citations 46
Authors
Anke Hinney
Andre Scherag
Ivonne Jarick
Ozgur Albayrak
Carolin Putter
Sonali Pechlivanis
Maria R Dauvermann
Sebastian Beck
Heike Weber
Susann Scherag
Trang T Nguyen
Anna-Lena Volckmar
Nadja Knoll
Stephen V Faraone
Benjamin M Neale
Barbara Franke
Sven Cichon
Per Hoffmann
Markus M Nothen
Stefan Schreiber
Karl-Heinz Jockel
H-Erich Wichmann
Christine Freitag
Thomas Lempp
Jobst Meyer
Susanne Gilsbach
Beate Herpertz-Dahlmann
Judith Sinzig
Gerd Lehmkuhl
Tobias J Renner
Andreas Warnke
Marcel Romanos
Klaus-Peter Lesch
Andreas Reif
Benno G Schimmelmann
Johannes Hebebrand
Affiliations
Soon will be listed here.
Abstract

The heritability of attention deficit hyperactivity disorder (ADHD) is approximately 0.8. Despite several larger scale attempts, genome-wide association studies (GWAS) have not led to the identification of significant results. We performed a GWAS based on 495 German young patients with ADHD (according to DSM-IV criteria; Human660W-Quadv1; Illumina, San Diego, CA) and on 1,300 population-based adult controls (HumanHap550v3; Illumina). Some genes neighboring the single nucleotide polymorphisms (SNPs) with the lowest P-values (best P-value: 8.38 × 10(-7)) have potential relevance for ADHD (e.g., glutamate receptor, metabotropic 5 gene, GRM5). After quality control, the 30 independent SNPs with the lowest P-values (P-values ≤ 7.57 × 10(-5) ) were chosen for confirmation. Genotyping of these SNPs in up to 320 independent German families comprising at least one child with ADHD revealed directionally consistent effect-size point estimates for 19 (10 not consistent) of the SNPs. In silico analyses of the 30 SNPs in the largest meta-analysis so far (2,064 trios, 896 cases, and 2,455 controls) revealed directionally consistent effect-size point estimates for 16 SNPs (11 not consistent). None of the combined analyses revealed a genome-wide significant result. SNPs in previously described autosomal candidate genes did not show significantly lower P-values compared to SNPs within random sets of genes of the same size. We did not find genome-wide significant results in a GWAS of German children with ADHD compared to controls. The second best SNP is located in an intron of GRM5, a gene located within a recently described region with an infrequent copy number variation in patients with ADHD.

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