Generation of a live attenuated influenza A vaccine by proteolysis targeting
Si Longlong, Shen Quan, Li Jing, Chen Li, Shen Jinying, Xiao Xue, Bai Haiqing, Feng Tang, Ye Adam Yongxin, Li Le, Zhang Chunhe, Li Zhen, Wang Ping, Oh Crystal Yuri, Nurani Atiq, Niu Siwen, Zhang Chen
Journal:NATURE BIOTECHNOLOGY
IF:68.16
DOI:10.1038/s41587-022-01381-4
PMID:35788567
Published:2022-07-04
research field:分子生物学生物催化酶学微生物学龋齿研究
Abstract
The usefulness of live attenuated virus vaccines has been limited by suboptimal immunogenicity, safety concerns or cumbersome manufacturing processes and techniques. Here we describe the generation of a live attenuated influenza A virus vaccine using proteolysis-targeting chimeric (PROTAC) technology to degrade viral proteins via the endogenous ubiquitin–proteasome system of host cells. We engineered the genome of influenza A viruses in stable cell lines engineered for virus production to introduce a conditionally removable proteasome-targeting domain, generating fully infective PROTAC viruses that were live attenuated by the host protein degradation machinery upon infection. In mouse and ferret models, PROTAC viruses were highly attenuated and able to elicit robust and broad humoral, mucosal and cellular immunity against homologous and heterologous virus challenges. PROTAC-mediated attenuation of viruses may be broadly applicable for generating live attenuated vaccines.
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