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Heterosubtypic influenza protection elicited by double-layered polypeptide nanoparticles in mice.


ABSTRACT: Influenza is a persistent threat to public health. Here we report that double-layered peptide nanoparticles induced robust specific immunity and protected mice against heterosubtypic influenza A virus challenges. We fabricated the nanoparticles by desolvating a composite peptide of tandem copies of nucleoprotein epitopes into nanoparticles as cores and cross-linking another composite peptide of four tandem copies of influenza matrix protein 2 ectodomain epitopes to the core surfaces as a coating. Delivering the nanoparticles via dissolvable microneedle patch-based skin vaccination further enhanced the induced immunity. These peptide-only, layered nanoparticles demonstrated a strong antigen depot effect and migrated into spleens and draining (inguinal) lymph nodes for an extended period compared with soluble antigens. This increased antigen-presentation time correlated with the stronger immune responses in the nanoparticle-immunized group. The protection conferred by nanoparticle immunization was transferable by passive immune serum transfusion and depended partially on a functional IgG receptor Fc?RIV. Using a conditional cell depletion, we found that CD8+ T cells were involved in the protection. The immunological potency and stability of the layered peptide nanoparticles indicate applications for other peptide-based vaccines and peptide drug delivery.

SUBMITTER: Deng L 

PROVIDER: S-EPMC6099848 | biostudies-other | 2018 Aug

REPOSITORIES: biostudies-other

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Heterosubtypic influenza protection elicited by double-layered polypeptide nanoparticles in mice.

Deng Lei L   Chang Timothy Z TZ   Wang Ye Y   Li Song S   Wang Shelly S   Matsuyama Shingo S   Yu Guoying G   Compans Richard W RW   Li Jian-Dong JD   Prausnitz Mark R MR   Champion Julie A JA   Wang Bao-Zhong BZ  

Proceedings of the National Academy of Sciences of the United States of America 20180731 33


Influenza is a persistent threat to public health. Here we report that double-layered peptide nanoparticles induced robust specific immunity and protected mice against heterosubtypic influenza A virus challenges. We fabricated the nanoparticles by desolvating a composite peptide of tandem copies of nucleoprotein epitopes into nanoparticles as cores and cross-linking another composite peptide of four tandem copies of influenza matrix protein 2 ectodomain epitopes to the core surfaces as a coating  ...[more]

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