该工作通过对不同免疫背景的XBB与JN.1突变株感染者产生抗体的系统性分析，首次描述了XBB和JN.1谱系免疫原性的区别，细致描绘了XBB与JN.1谱系感染者的体液免疫图景，强调了KP.2、KP.3，特别是KP.3.1.1等JN.1谱系突变株的强烈免疫逃逸能力，并从表位角度详细说明了原始株交叉结合抗体与奥密克戎特异性抗体对于JN.1谱系中和作用的不同特点。

作者发现，在交叉结合抗体中发挥主要中和作用的IGHV3-53/3-66来源Class 1广谱抗体能够与所有奥密克戎特异性中和表位竞争，从而有可能屏蔽奥密克戎突破感染中特异性初始B细胞的激活，特别是对于接种过免疫原性较强的mRNA疫苗的人群。这一模型能够解释mRNA疫苗接种仅在人类而非小鼠中导致反常强烈免疫印记的原因，提示了由于疫苗历史与免疫印记的不同，世界范围内人群免疫背景具有潜在的“东西方差异”。作者认为，为了高效富集真正广谱的Class 1（或A1类）中和抗体，并争取免疫印记的减弱甚至消除，基于包含多个A1抗体特异性逃逸突变的新型JN.1谱系突变株，特别是KP.2和KP.3等子毒株来开发疫苗加强针是有必要的。本文预印本2024年4月19日发布于bioRxiv后，受到WHO和国际学术界的大量关注，为今年秋冬季基于JN.1/KP.2的新冠疫苗更新提供了重要参考和指导。

曹云龙代表性论文及论著

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8. C. Yue, W. Song, L. Wang, F. Jian, X. Chen, F. Gao, Z. Shen, Y. Wang, X. Wang*, Y. Cao*, ACE2 binding and antibody evasion in enhanced transmissibility of XBB.1.5. The Lancet Infectious Diseases. 23(3):278-280 (2023).

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