Nucleoside-modified mRNA vaccines induce potent T follicular helper and germinal center B cell responses

Norbert Pardi(University of Pennsylvania), Michael J. Hogan(University of Pennsylvania), Martin S. Naradikian(University of Pennsylvania), Kaela Parkhouse(University of Pennsylvania), Derek W. Cain(Duke University), Letitia D. Jones(Duke University), M. Anthony Moody(Duke University), Hans Verkerke(University of Washington), Arpita Myles(University of Pennsylvania), Elinor Willis(University of Pennsylvania), Celia C. LaBranche(Duke Medical Center), David C. Montefiori(Duke Medical Center), Jenna L Lobby(Children's Hospital of Philadelphia), Kevin O. Saunders(Duke University), Hua‐Xin Liao(Duke University), Bette Korber(Los Alamos National Laboratory), Laura L. Sutherland(Duke University), Richard M. Scearce(Duke University), Peter Hraber(Los Alamos National Laboratory), István Tombácz(University of Pennsylvania), Hiromi Muramatsu(University of Pennsylvania), Houping Ni(University of Pennsylvania), Daniel A. Balikov(University of Pennsylvania), Zhongxia Li(University of Pennsylvania), Barbara L. Mui(Acuitas Therapeutics (Canada)), Ying K. Tam(Acuitas Therapeutics (Canada)), Florian Krammer(Icahn School of Medicine at Mount Sinai), Katalin Karikó(BioNTech (Germany)), Patricia Polacino(University of Washington), Laurence C. Eisenlohr(Children's Hospital of Philadelphia), Thomas D. Madden(Acuitas Therapeutics (Canada)), Michael J. Hope(Acuitas Therapeutics (Canada)), Mark G. Lewis(Bioqual), Kelly K. Lee(University of Washington), Shiu‐Lok Hu(University of Washington), Scott E. Hensley(University of Pennsylvania), Michael P. Cancro(University of Pennsylvania), Barton F. Haynes(Duke University), Drew Weissman(University of Pennsylvania)
The Journal of Experimental Medicine
May 8, 2018
10.1084/jem.20171450
Cited by 518Open Access
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Abstract

T follicular helper (Tfh) cells are required to develop germinal center (GC) responses and drive immunoglobulin class switch, affinity maturation, and long-term B cell memory. In this study, we characterize a recently developed vaccine platform, nucleoside-modified, purified mRNA encapsulated in lipid nanoparticles (mRNA-LNPs), that induces high levels of Tfh and GC B cells. Intradermal vaccination with nucleoside-modified mRNA-LNPs encoding various viral surface antigens elicited polyfunctional, antigen-specific, CD4+ T cell responses and potent neutralizing antibody responses in mice and nonhuman primates. Importantly, the strong antigen-specific Tfh cell response and high numbers of GC B cells and plasma cells were associated with long-lived and high-affinity neutralizing antibodies and durable protection. Comparative studies demonstrated that nucleoside-modified mRNA-LNP vaccines outperformed adjuvanted protein and inactivated virus vaccines and pathogen infection. The incorporation of noninflammatory, modified nucleosides in the mRNA is required for the production of large amounts of antigen and for robust immune responses.

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