Exomic Sequencing of Immune-related Genes Reveals Novel Candidate Variants Associated with Alopecia Universalis

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2013 Jan 18

PMID 23326468

Citations 12

Authors

Seungbok Lee

Seung Hwan Paik

Hyun-Jin Kim

Hyeong Ho Ryu

Soeun Cha

Seong Jin Jo

Hee Chul Eun

Jeong-Sun Seo

Jong-Il Kim

Oh Sang Kwon

Affiliations

Soon will be listed here.

Abstract

Alopecia areata (AA) is a common autoimmune disorder mostly presented as round patches of hair loss and subclassified into alopecia totalis/alopecia universalis (AT/AU) based on the area of alopecia. Although AA is relatively common, only 5% of AA patients progress to AT/AU, which affect the whole scalp and whole body respectively. To determine genetic determinants of this orphan disease, we undertook whole-exome sequencing of 6 samples from AU patients, and 26 variants in immune-related genes were selected as candidates. When an additional 14 AU samples were genotyped for these candidates, 6 of them remained at the level of significance in comparison with 155 Asian controls (p<1.92×10(-3)). Linkage disequilibrium was observed between some of the most significant SNPs, including rs41559420 of HLA-DRB5 (p<0.001, OR 44.57) and rs28362679 of BTNL2 (p<0.001, OR 30.21). While BTNL2 was reported as a general susceptibility gene of AA previously, HLA-DRB5 has not been implicated in AA. In addition, we found several genetic variants in novel genes (HLA-DMB, TLR1, and PMS2) and discovered an additional locus on HLA-A, a known susceptibility gene of AA. This study provides further evidence for the association of previously reported genes with AA and novel findings such as HLA-DRB5, which might represent a hidden culprit gene for AU.

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