Convergent evolution of SARS-CoV-2 XBB lineages on receptor-binding domain 455–456 synergistically enhances antibody evasion and ACE2 binding

Fanchong Jian; Leilei Feng; Sijie Yang; Yuanling Yu; Lei Wang; Weiliang Song; Ayijiang Yisimayi; Xiaosu Chen; Yanli Xu; Peng Wang; Lingling Yu; Jing Wang; Lu Liu; Xiao Niu; Jing Wang; Tianhe Xiao; Ran An; Yao Wang; Qingqing Gu; Fei Shao; Ronghua Jin; Zhongyang Shen; Youchun Wang; Xiangxi Wang; Yunlong Cao

doi:10.1371/journal.ppat.1011868

Convergent evolution of SARS-CoV-2 XBB lineages on receptor-binding domain 455–456 synergistically enhances antibody evasion and ACE2 binding

Fanchong Jian(Peking University), Leilei Feng(Chinese Academy of Sciences), Sijie Yang(Peking University), Yuanling Yu, Lei Wang(Chinese Academy of Sciences), Weiliang Song(Peking University), Ayijiang Yisimayi(Peking University), Xiaosu Chen(Nankai University), Yanli Xu(Capital Medical University), Peng Wang, Lingling Yu, Jing Wang(Peking University), Lu Liu, Xiao Niu(Peking University), Jing Wang(Peking University), Tianhe Xiao(Peking University), Ran An, Yao Wang(Chinese Academy of Medical Sciences & Peking Union Medical College), Qingqing Gu, Fei Shao, Ronghua Jin(Capital Medical University), Zhongyang Shen(Nankai University), Youchun Wang(Chinese Academy of Medical Sciences & Peking Union Medical College), Xiangxi Wang(Chinese Academy of Sciences), Yunlong Cao(Peking University)

PLoS Pathogens

December 20, 2023

10.1371/journal.ppat.1011868

Cited by 114Open Access

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Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) XBB lineages have achieved dominance worldwide and keep on evolving. Convergent evolution of XBB lineages on the receptor-binding domain (RBD) L455F and F456L is observed, resulting in variants with substantial growth advantages, such as EG.5, FL.1.5.1, XBB.1.5.70, and HK.3. Here, we show that neutralizing antibody (NAb) evasion drives the convergent evolution of F456L, while the epistatic shift caused by F456L enables the subsequent convergence of L455F through ACE2 binding enhancement and further immune evasion. L455F and F456L evade RBD-targeting Class 1 public NAbs, reducing the neutralization efficacy of XBB breakthrough infection (BTI) and reinfection convalescent plasma. Importantly, L455F single substitution significantly dampens receptor binding; however, the combination of L455F and F456L forms an adjacent residue flipping, which leads to enhanced NAbs resistance and ACE2 binding affinity. The perturbed receptor-binding mode leads to the exceptional ACE2 binding and NAb evasion, as revealed by structural analyses. Our results indicate the evolution flexibility contributed by epistasis cannot be underestimated, and the evolution potential of SARS-CoV-2 RBD remains high.

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