Genome-wide association study identifies new susceptibility loci for adolescent idiopathic scoliosis in Chinese girls

Zezhang Zhu(Nanjing University of Chinese Medicine), Nelson L.S. Tang(Nanjing University of Chinese Medicine), Leilei Xu(Nanjing University of Chinese Medicine), Xiaodong Qin(Nanjing University of Chinese Medicine), Saihu Mao(Nanjing Drum Tower Hospital), Yueming Song(Sichuan University), Limin Liu(Sichuan University), Fangcai Li(Second Affiliated Hospital of Zhejiang University), Peng Liu(Union Hospital), Long Yi(Nanjing University), Jiang Chang(Ministry of Ecology and Environment), Long Jiang(Jiangsu University), Bobby Kin-Wah Ng(Chinese University of Hong Kong), Benlong Shi(Nanjing Drum Tower Hospital), Wen Zhang(Nanjing Drum Tower Hospital), Jun Qiao(Nanjing University of Chinese Medicine), Xu Sun(Nanjing University of Chinese Medicine), Xusheng Qiu(Nanjing University of Chinese Medicine), Zhou Wang(Nanjing Drum Tower Hospital), Fei Wang(Nanjing Drum Tower Hospital), Dingding Xie(Nanjing Drum Tower Hospital), Ling Chen(Nanjing Drum Tower Hospital), Zhonghui Chen(Nanjing Drum Tower Hospital), Mengran Jin(Nanjing Drum Tower Hospital), Xiao Han(Nanjing Drum Tower Hospital), Zongshan Hu(Nanjing Drum Tower Hospital), Zhen Zhang(Nanjing Drum Tower Hospital), Zhen Liu(Nanjing Drum Tower Hospital), Feng Zhu(Nanjing Drum Tower Hospital), Bang-ping Qian(Nanjing University of Chinese Medicine), Yang Yu(Nanjing University of Chinese Medicine), Bing Wang(Nanjing University of Chinese Medicine), K. M. Lee(Chinese University of Hong Kong), Wayne Lee(Chinese University of Hong Kong), Tsz Ping Lam(Chinese University of Hong Kong), Yong Qiu(Nanjing University of Chinese Medicine), Jack C. Y. Cheng(Nanjing University of Chinese Medicine)
Nature Communications
September 22, 2015
10.1038/ncomms9355
Cited by 137Open Access
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Abstract

Adolescent idiopathic scoliosis (AIS) is a structural deformity of the spine affecting millions of children. As a complex disease, the genetic aetiology of AIS remains obscure. Here we report the results of a four-stage genome-wide association study (GWAS) conducted in a sample of 4,317 AIS patients and 6,016 controls. Overall, we identify three new susceptibility loci at 1p36.32 near AJAP1 (rs241215, Pcombined=2.95 × 10(-9)), 2q36.1 between PAX3 and EPHA4 (rs13398147, Pcombined=7.59 × 10(-13)) and 18q21.33 near BCL-2 (rs4940576, Pcombined=2.22 × 10(-12)). In addition, we refine a previously reported region associated with AIS at 10q24.32 (rs678741, Pcombined=9.68 × 10(-37)), which suggests LBX1AS1, encoding an antisense transcript of LBX1, might be a functional variant of AIS. This is the first GWAS investigating genetic variants associated with AIS in Chinese population, and the findings provide new insight into the multiple aetiological mechanisms of AIS.

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