Characterisation of Genome-wide Association Epistasis Signals for Serum Uric Acid in Human Population Isolates

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2011 Sep 3

PMID 21886828

Citations 13

Authors

Wenhua Wei

Gibran Hemani

Andrew A Hicks

Veronique Vitart

Claudia Cabrera-Cardenas

Pau Navarro

Jennifer Huffman

Caroline Hayward

Sara A Knott

Igor Rudan

Peter P Pramstaller

Sarah H Wild

James F Wilson

Harry Campbell

Malcolm G Dunlop

Nicholas Hastie

Alan F Wright

Chris S Haley

Affiliations

Soon will be listed here.

Abstract

Genome-wide association (GWA) studies have identified a number of loci underlying variation in human serum uric acid (SUA) levels with the SLC2A9 gene having the largest effect identified so far. Gene-gene interactions (epistasis) are largely unexplored in these GWA studies. We performed a full pair-wise genome scan in the Italian MICROS population (n = 1201) to characterise epistasis signals in SUA levels. In the resultant epistasis profile, no SNP pairs reached the Bonferroni adjusted threshold for the pair-wise genome-wide significance. However, SLC2A9 was found interacting with multiple loci across the genome, with NFIA-SLC2A9 and SLC2A9-ESRRAP2 being significant based on a threshold derived for interactions between GWA significant SNPs and the genome and jointly explaining 8.0% of the phenotypic variance in SUA levels (3.4% by interaction components). Epistasis signal replication in a CROATIAN population (n = 1772) was limited at the SNP level but improved dramatically at the gene ontology level. In addition, gene ontology terms enriched by the epistasis signals in each population support links between SUA levels and neurological disorders. We conclude that GWA epistasis analysis is useful despite relatively low power in small isolated populations.

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