A single mutation in the prM protein of Zika virus contributes to fetal microcephaly

Ling Yuan; Xing‐Yao Huang; Zhongyu Liu; Feng Zhang; Xingliang Zhu; Jiu-Yang Yu; Xue Ji; Yan‐Peng Xu; Guanghui Li; Cui Li; Hong-Jiang Wang; Yong‐Qiang Deng; Menghua Wu; Meng‐Li Cheng; Qing Ye; Xie Dong-yang; Xiao-Feng Li; Xiangxi Wang; Weifeng Shi; Baoyang Hu; Pei‐Yong Shi; Zhiheng Xu; Cheng‐Feng Qin

doi:10.1126/science.aam7120

A single mutation in the prM protein of Zika virus contributes to fetal microcephaly

Ling Yuan(Center for Excellence in Brain Science and Intelligence Technology), Xing‐Yao Huang(Wuhan Institute of Virology), Zhongyu Liu(Wuhan Institute of Virology), Feng Zhang(Center for Excellence in Brain Science and Intelligence Technology), Xingliang Zhu(Center for Excellence in Brain Science and Intelligence Technology), Jiu-Yang Yu(Wuhan Institute of Virology), Xue Ji(Wuhan Institute of Virology), Yan‐Peng Xu(Wuhan Institute of Virology), Guanghui Li(Center for Excellence in Brain Science and Intelligence Technology), Cui Li(Center for Excellence in Brain Science and Intelligence Technology), Hong-Jiang Wang(Wuhan Institute of Virology), Yong‐Qiang Deng(Wuhan Institute of Virology), Menghua Wu(Institute of Zoology), Meng‐Li Cheng(Anhui Medical University), Qing Ye(Wuhan Institute of Virology), Xie Dong-yang(Anhui Medical University), Xiao-Feng Li(Wuhan Institute of Virology), Xiangxi Wang(Institute of Biophysics), Weifeng Shi(Taishan Medical University), Baoyang Hu(Institute of Zoology), Pei‐Yong Shi(The University of Texas Medical Branch at Galveston), Zhiheng Xu(Center for Excellence in Brain Science and Intelligence Technology), Cheng‐Feng Qin(Wuhan Institute of Virology)

Science

September 29, 2017

10.1126/science.aam7120

Cited by 480

Abstract

Mutation for microcephaly Zika virus infections in humans have been known since 1947. Microcephaly and neuropathologies associated with Zika have only been reported recently, most prevalently in the Americas. Yuan et al. investigated recent stable mutations in the virus genome and engineered them into a low-virulence ancestral strain (see the Perspective by Screaton and Mongkolsapaya). A single amino acid substitution (serine to asparagine, S139N) in the viral precursor membrane protein exacerbated symptoms in pregnant mice. The reverse mutation (N139S) was less virulent. The S139N mutation arose in 2013 in French Polynesia before the virus jumped to Brazil in 2015. In vitro, this amino acid change made the virus more infectious for mouse and human neural progenitor cells and promoted apoptosis. The terrible sequelae of infection during pregnancy could thus be the result of a simple viral mutation. Science , this issue p. 933 ; see also p. 863

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