State Key Laboratory of Molecular Developmental Biology, Chinese Academy of Sciences (CAS) Center for Excellence in Brain Science and Intelligence Technology, Institute of Genetics and Developmental Biology, CAS, Beijing 100101, China.
University of CAS, Beijing 100101, China.
Science. 2017 Nov 17;358(6365):933-936. doi: 10.1126/science.aam7120. Epub 2017 Sep 28.
Zika virus (ZIKV) has evolved into a global health threat because of its unexpected causal link to microcephaly. Phylogenetic analysis reveals that contemporary epidemic strains have accumulated multiple substitutions from their Asian ancestor. Here we show that a single serine-to-asparagine substitution [Ser→Asn (S139N)] in the viral polyprotein substantially increased ZIKV infectivity in both human and mouse neural progenitor cells (NPCs) and led to more severe microcephaly in the mouse fetus, as well as higher mortality rates in neonatal mice. Evolutionary analysis indicates that the S139N substitution arose before the 2013 outbreak in French Polynesia and has been stably maintained during subsequent spread to the Americas. This functional adaption makes ZIKV more virulent to human NPCs, thus contributing to the increased incidence of microcephaly in recent ZIKV epidemics.
寨卡病毒(ZIKV)由于与小头症之间存在意外的因果关系,已演变成全球健康威胁。系统发育分析显示,当代流行株已从其亚洲祖先中积累了多个突变。本研究表明,病毒多蛋白中的单个丝氨酸到天冬酰胺取代[Ser→Asn(S139N)]可显著提高 ZIKV 在人和小鼠神经祖细胞(NPC)中的感染性,并导致小鼠胎儿中更严重的小头症,以及新生小鼠的死亡率更高。进化分析表明,S139N 取代发生在 2013 年法属波利尼西亚暴发之前,并在随后传播到美洲期间得到了稳定的维持。这种功能适应性使 ZIKV 对人 NPC 的毒性更强,从而导致最近 ZIKV 流行中小头症的发病率增加。
