PROTAR Vaccine 2.0 generates influenza vaccines by degrading multiple viral proteins

病毒学 流感疫苗 2019年冠状病毒病(COVID-19) 计算生物学 微生物学 生物 接种疫苗 医学 传染病(医学专业) 疾病 病理
作者
Chunhe Zhang,Jihuan Hou,Zhen Li,Quan Shen,Haiqing Bai,Li Chen,Jinying Shen,Ping Wang,Yinlei Su,Jing Li,Qisi Zhang,Chengyao Liu,Xuetong Xi,Fei Qi,Yuting Chen,Xin Xie,Adam Yongxin Ye,Xiaoheng Liu,Roberto Plebani,George M. Church
出处
期刊:Nature Chemical Biology [Nature Portfolio]
卷期号:21 (9): 1330-1340 被引量:12
标识
DOI:10.1038/s41589-024-01813-z
摘要

Manipulating viral protein stability using the cellular ubiquitin-proteasome system (UPS) represents a promising approach for developing live-attenuated vaccines. The first-generation proteolysis-targeting (PROTAR) vaccine had limitations, as it incorporates proteasome-targeting degrons (PTDs) at only the terminal ends of viral proteins, potentially restricting its broad application. Here we developed the next-generation PROTAR vaccine approach, referred to as PROTAR 2.0, which enabled flexible incorporation of PTDs at various genomic loci of influenza viruses, including internal regions and terminal ends. The PROTAR 2.0 influenza viruses maintained efficient replication in UPS-deficient cells for large-scale production but were attenuated by PTD-mediated proteasomal degradation of viral proteins in conventional cells. Incorporation of multiple PTDs into one virus generated optimized PROTAR 2.0 vaccine candidates. In animal models, PROTAR 2.0 vaccine candidates were highly attenuated and a single-dose intranasal immunization induced robust and broad immune responses that provided complete cross-reactive protection against both homologous and heterologous viral challenges. A next-generation proteolysis-targeting vaccine approach (PROTAR vaccine 2.0) was developed that attenuated influenza viruses by degrading multiple viral proteins and showed promising safety and efficacy in animal models with viral challenge.
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