作者
Lisa R Volpatti*, Rachel P Wallace*, Shijie Cao*, Michal Raczy*, Ruyi Wang*, Laura T Gray, Aaron T Alpar, Priscilla S Briquez, Nikolaos Mitrousis, Tiffany M Marchell, Maria Stella Sasso, Mindy Nguyen, Aslan Mansurov, Erica Budina, Ani Solanki, Elyse A Watkins, Mathew R Schnorenberg, Andrew C Tremain, Joseph W Reda, Vlad Nicolaescu, Kevin Furlong, Steve Dvorkin, S Yu Shann, Balaji Manicassamy, James L LaBelle, Matthew V Tirrell, Glenn Randall, Marcin Kwissa, Melody Swartz, Jeffrey Hubbell
发表日期
2021/7/21
期刊
ACS Central Science
卷号
7
期号
8
页码范围
1368-1380
出版商
American Chemical Society
简介
The COVID-19 pandemic underscores the need for rapid, safe, and effective vaccines. In contrast to some traditional vaccines, nanoparticle-based subunit vaccines are particularly efficient in trafficking antigens to lymph nodes, where they induce potent immune cell activation. Here, we developed a strategy to decorate the surface of oxidation-sensitive polymersomes with multiple copies of the SARS-CoV-2 spike protein receptor-binding domain (RBD) to mimic the physical form of a virus particle. We evaluated the vaccination efficacy of these surface-decorated polymersomes (RBDsurf) in mice compared to RBD-encapsulated polymersomes (RBDencap) and unformulated RBD (RBDfree), using monophosphoryl-lipid-A-encapsulated polymersomes (MPLA PS) as an adjuvant. While all three groups produced high titers of RBD-specific IgG, only RBDsurf elicited a neutralizing antibody response to SARS-CoV-2 …
学术搜索中的文章
LR Volpatti, RP Wallace, S Cao, MM Raczy, R Wang… - ACS central science, 2021