1. Intranasal immunization with an RBD-hemagglutinin fusion protein harnesses preexisting immunity to enhance antigen-specific responses
- Author
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Kawai, Atsushi, Tokunoh, Nagisa, Kawahara, Eigo, Tamiya, Shigeyuki, Okamura, Shinya, Ono, Chikako, Anindita, Jessica, Tanaka, Hiroki, Akita, Hidetaka, Yamasaki, Sho, Kunisawa, Jun, Okamoto, Toru, Matsuura, Yoshiharu, Hirai, Toshiro, and Yoshioka, Yasuo
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Medical research -- Health aspects ,T cells -- Health aspects ,Immune response -- Health aspects ,Immunoglobulin A -- Health aspects ,B cells -- Health aspects ,Immunoglobulin G -- Health aspects ,Vaccination -- Health aspects ,Medicine, Experimental -- Health aspects ,Communicable diseases -- Health aspects ,Influenza vaccines -- Evaluation ,Antigens -- Health aspects ,Influenza -- Health aspects ,Lectins -- Health aspects ,Health care industry ,Osaka University -- Evaluation - Abstract
Intranasal vaccines are anticipated to be powerful tools for combating many infectious diseases, including SARS- CoV-2, because they induce not only systemic immunity but also mucosal immunity at the site of initial infection. However, they are generally inefficient in inducing an antigen-specific immune response without adjuvants. Here, we developed an adjuvant-free intranasal vaccine platform that utilizes the preexisting immunity induced by previous infection or vaccination to enhance vaccine effectiveness. We made RBD-HA, a fusion of the receptor- binding domain (RBD) of spike derived from SARS-CoV-2 as a vaccine target with HA derived from influenza A virus (IAV) as a carrier protein. Intranasal immunization of previously IAV- infected mice with RBD-HA without an adjuvant elicited robust production of RBD-specific systemic IgG and mucosal IgA by utilizing both HA-specific preexisting IgG and [CD4.sup.+] T cells. Consequently, the mice were efficiently protected from SARS-CoV-2 infection. Additionally, we demonstrated the high versatility of this intranasal vaccine platform by assessing various vaccine antigens and preexisting immunity associated with a variety of infectious diseases. The results of this study suggest the promising potential of this intranasal vaccine platform to address problems associated with intranasal vaccines., Introduction The SARS-CoV-2 pandemic has accelerated vaccine development at an unprecedented rate. Several types of COVID-19 vaccines, including mRNA and adenovirus-vector vaccines expressing the SARS-CoV-2 spike glycoprotein, provide highly effective [...]
- Published
- 2023
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