Publication

Post-GWAS analysis of six substance use traits improves the identification and functional interpretation of genetic risk loci

Int Cannabis Consortium, 1-Jan-2020, In : Drug and Alcohol Dependence. 206, 9 p., 107703.

Research output: Contribution to journalArticleAcademicpeer-review

  • Int Cannabis Consortium

Background: Little is known about the functional mechanisms through which genetic loci associated with substance use traits ascertain their effect. This study aims to identify and functionally annotate loci associated with substance use traits based on their role in genetic regulation of gene expression.

Methods: We evaluated expression Quantitative Trait Loci (eQTLs) from 13 brain regions and whole blood of the Genotype-Tissue Expression (GTEx) database, and from whole blood of the Depression Genes and Networks (DGN) database. The role of single eQTLs was examined for six substance use traits: alcohol consumption (N = 537,349), cigarettes per day (CPD; N = 263,954), former vs. current smoker (N = 312,821), age of smoking initiation (N = 262,990), ever smoker (N = 632,802), and cocaine dependence (N = 4,769). Subsequently, we conducted a gene level analysis of gene expression on these substance use traits using S-PrediXcan.

Results: Using an FDR-adjusted p-value <0.05 we found 2,976 novel candidate genetic loci for substance use traits, and identified genes and tissues through which these loci potentially exert their effects. Using S-PrediXcan, we identified significantly associated genes for all substance traits.

Discussion: Annotating genes based on transcriptomic regulation improves the identification and functional characterization of candidate loci and genes for substance use traits.

Original languageEnglish
Article number107703
Number of pages9
JournalDrug and Alcohol Dependence
Volume206
Publication statusPublished - 1-Jan-2020

    Keywords

  • Addiction, eQTLs, Functional annotation, GTEx, Substance use, S-PrediXcan, ANTERIOR CINGULATE CORTEX, FAMILY-HISTORY, ALCOHOL DEPENDENCE, NUCLEUS-ACCUMBENS, EXPRESSION, COCAINE, TRANSCRIPTION, ASSOCIATION, 17Q21.31

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