A recombinant spike‐XBB.1.5 protein vaccine induces broad‐spectrum immune responses against XBB.1.5‐included Omicron variants of SARS‐CoV‐2

Author:

He Cai1ORCID,Alu Aqu1,Lei Hong1,Yang Jingyun1,Hong Weiqi1ORCID,Song Xiangrong1,Li Jiong1,Yang Li1,Wang Wei1,Shen Guobo1,Lu Guangwen1,Wei Xiawei1ORCID

Affiliation:

1. Laboratory of Aging Research and Cancer Drug Target State Key Laboratory of Biotherapy and Cancer Center National Clinical Research Center for Geriatrics West China Hospital Sichuan University Chengdu China

Abstract

AbstractThe XBB.1.5 subvariant has drawn great attention owing to its exceptionality in immune evasion and transmissibility. Therefore, it is essential to develop a universally protective coronavirus disease 2019 vaccine against various strains of Omicron, especially XBB.1.5. In this study, we evaluated and compared the immune responses induced by six different spike protein vaccines targeting the ancestral or various Omicron strains of severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) in mice. We found that spike‐wild‐type immunization induced high titers of neutralizing antibodies (NAbs) against ancestral SARS‐CoV‐2. However, its activity in neutralizing Omicron subvariants decreased sharply as the number of mutations in receptor‐binding domain (RBD) of these viruses increased. Spike‐BA.5, spike‐BF.7, and spike‐BQ.1.1 vaccines induced strong NAbs against BA.5, BF.7, BQ.1, and BQ.1.1 viruses but were poor in protecting against XBB and XBB.1.5, which have more RBD mutations. In sharp contrast, spike‐XBB.1.5 vaccination can activate strong and broadly protective immune responses against XBB.1.5 and other common subvariants of Omicron. By performing correlation analysis, we found that the NAbs titers were negatively correlated with the number of RBD mutations in the Omicron subvariants. Vaccines with more RBD mutations can effectively overcome the immune resistance caused by the accumulation of RBD mutations, making spike‐XBB.1.5 the most promising vaccine candidate against universal Omicron variants.

Publisher

Wiley

Subject

Cell Biology,Biochemistry (medical),Genetics (clinical),Computer Science Applications,Drug Discovery,Genetics,Oncology,Immunology and Allergy

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