Omicron SARS-CoV-2 mutations stabilize spike up-RBD conformation and lead to a non-RBM-binding monoclonal antibody escape

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作者
Zhennan Zhao
Jingya Zhou
Mingxiong Tian
Min Huang
Sheng Liu
Yufeng Xie
Pu Han
Chongzhi Bai
Pengcheng Han
Anqi Zheng
Lutang Fu
Yuanzhu Gao
Qi Peng
Ying Li
Yan Chai
Zengyuan Zhang
Xin Zhao
Hao Song
Jianxun Qi
Qihui Wang
Peiyi Wang
George F. Gao
机构
[1] Chinese Academy of Sciences,CAS Key Laboratory of Pathogen Microbiology and Immunology, Institute of Microbiology
[2] University of Chinese Academy of Sciences,Research Network of Immunity and Health (RNIH), Beijing Institutes of Life Science
[3] Chinese Academy of Sciences,College of life Science
[4] Shanxi University,School of Life Science
[5] University of Science and Technology of China,Cryo
[6] Southern University of Science and Technology,EM Center, Department of Biology
[7] Tsinghua University,Department of Basic Medical Sciences, School of Medicine
[8] Shanxi Province Hospital of Traditional Chinese Medicine,Central Laboratory
[9] Shanxi Academy of Advanced Research and Innovation,School of Medicine
[10] Zhongda Hospital,undefined
[11] Southeast University,undefined
来源
Nature Communications | / 13卷
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摘要
Omicron SARS-CoV-2 is rapidly spreading worldwide. To delineate the impact of emerging mutations on spike’s properties, we performed systematic structural analyses on apo Omicron spike and its complexes with human ACE2 or S309 neutralizing antibody (NAb) by cryo-EM. The Omicron spike preferentially adopts the one-RBD-up conformation both before and after ACE2 binding, which is in sharp contrast to the orchestrated conformational changes to create more up-RBDs upon ACE2 binding as observed in the prototype and other four variants of concern (VOCs). Furthermore, we found that S371L, S373P and S375F substitutions enhance the stability of the one-RBD-up conformation to prevent exposing more up-RBDs triggered by ACE2 binding. The increased stability of the one-RBD-up conformation restricts the accessibility of S304 NAb, which targets a cryptic epitope in the closed conformation, thus facilitating the immune evasion by Omicron. These results expand our understanding of Omicron spike’s conformation, receptor binding and antibody evasion mechanism.
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