4.3 Article

An in-depth association analysis of genetic variants within nicotine-related loci: Meeting in middle of GWAS and genetic fine-mapping

Journal

MOLECULAR AND CELLULAR NEUROSCIENCE
Volume 127, Issue -, Pages -

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.mcn.2023.103895

Keywords

Fine-mapping; GWAS; Linkage disequilibrium; Nicotine addiction

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This study proposes a new method for selecting causative variant candidates for nicotine addiction by jointly modeling SNP-wise inference results and the underlying structured network patterns of the linkage disequilibrium matrix. Applying this method to UK biobank data, 81 nicotine addiction-related SNPs were identified, which were highly correlated but physically distant and from different genes.
In the last two decades of Genome-wide association studies (GWAS), nicotine-dependence-related genetic loci (e. g., nicotinic acetylcholine receptor - nAChR subunit genes) are among the most replicable genetic findings. Although GWAS results have reported tens of thousands of SNPs within these loci, further analysis (e.g., finemapping) is required to identify the causal variants. However, it is computationally challenging for existing fine-mapping methods to reliably identify causal variants from thousands of candidate SNPs based on the posterior inclusion probability. To address this challenge, we propose a new method to select SNPs by jointly modeling the SNP-wise inference results and the underlying structured network patterns of the linkage disequilibrium (LD) matrix. We use adaptive dense subgraph extraction method to recognize the latent network patterns of the LD matrix and then apply group LASSO to select causal variant candidates. We applied this new method to the UK biobank data to identify the causal variant candidates for nicotine addiction. Eighty-one nicotine addiction-related SNPs (i.e.,-log(p) > 50) of nAChR were selected, which are highly correlated (average r(2) > 0.8) although they are physically distant (e.g., >200 kilobase away) and from various genes. These findings revealed that distant SNPs from different genes can show higher LD r(2) than their neighboring SNPs, and jointly contribute to a complex trait like nicotine addiction.

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