Imprinted SARS-CoV-2 humoral immunity induces convergent Omicron RBD evolution

Author:

Cao YunlongORCID,Jian FanchongORCID,Wang JingORCID,Yu Yuanling,Song Weiliang,Yisimayi Ayijiang,Wang Jing,An Ran,Chen Xiaosu,Zhang Na,Wang Yao,Wang Peng,Zhao Lijuan,Sun Haiyan,Yu Lingling,Yang Sijie,Niu Xiao,Xiao Tianhe,Gu QingqingORCID,Shao Fei,Hao Xiaohua,Xu Yanli,Jin RonghuaORCID,Shen ZhongyangORCID,Wang YouchunORCID,Xie Xiaoliang SunneyORCID

Abstract

AbstractContinuous evolution of Omicron has led to a rapid and simultaneous emergence of numerous variants that display growth advantages over BA.5 (ref. 1). Despite their divergent evolutionary courses, mutations on their receptor-binding domain (RBD) converge on several hotspots. The driving force and destination of such sudden convergent evolution and its effect on humoral immunity remain unclear. Here we demonstrate that these convergent mutations can cause evasion of neutralizing antibody drugs and convalescent plasma, including those from BA.5 breakthrough infection, while maintaining sufficient ACE2-binding capability. BQ.1.1.10 (BQ.1.1 + Y144del), BA.4.6.3, XBB and CH.1.1 are the most antibody-evasive strains tested. To delineate the origin of the convergent evolution, we determined the escape mutation profiles and neutralization activity of monoclonal antibodies isolated from individuals who had BA.2 and BA.5 breakthrough infections2,3. Owing to humoral immune imprinting, BA.2 and especially BA.5 breakthrough infection reduced the diversity of the neutralizing antibody binding sites and increased proportions of non-neutralizing antibody clones, which, in turn, focused humoral immune pressure and promoted convergent evolution in the RBD. Moreover, we show that the convergent RBD mutations could be accurately inferred by deep mutational scanning profiles4,5, and the evolution trends of BA.2.75 and BA.5 subvariants could be well foreseen through constructed convergent pseudovirus mutants. These results suggest that current herd immunity and BA.5 vaccine boosters may not efficiently prevent the infection of Omicron convergent variants.

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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