Nanoparticle display of prefusion coronavirus spike elicits S1-focused cross-reactive antibody response against diverse coronavirus subgenera

Author:

Hutchinson Geoffrey B.,Abiona Olubukola M.,Ziwawo Cynthia T.ORCID,Werner Anne P.,Ellis Daniel,Tsybovsky YaroslavORCID,Leist Sarah R.ORCID,Palandjian Charis,West Ande,Fritch Ethan J.,Wang Nianshuang,Wrapp Daniel,Boyoglu-Barnum Seyhan,Ueda GeorgeORCID,Baker DavidORCID,Kanekiyo MasaruORCID,McLellan Jason S.ORCID,Baric Ralph S.ORCID,King Neil P.ORCID,Graham Barney S.,Corbett-Helaire Kizzmekia S.ORCID

Abstract

AbstractMultivalent antigen display is a fast-growing area of interest toward broadly protective vaccines. Current nanoparticle-based vaccine candidates demonstrate the ability to confer antibody-mediated immunity against divergent strains of notably mutable viruses. In coronaviruses, this work is predominantly aimed at targeting conserved epitopes of the receptor binding domain. However, targeting conserved non-RBD epitopes could limit the potential for antigenic escape. To explore new potential targets, we engineered protein nanoparticles displaying coronavirus prefusion-stabilized spike (CoV_S-2P) trimers derived from MERS-CoV, SARS-CoV-1, SARS-CoV-2, hCoV-HKU1, and hCoV-OC43 and assessed their immunogenicity in female mice. Monotypic SARS-1 nanoparticles elicit cross-neutralizing antibodies against MERS-CoV and protect against MERS-CoV challenge. MERS and SARS nanoparticles elicit S1-focused antibodies, revealing a conserved site on the S N-terminal domain. Moreover, mosaic nanoparticles co-displaying distinct CoV_S-2P trimers elicit antibody responses to distant cross-group antigens and protect male and female mice against MERS-CoV challenge. Our findings will inform further efforts toward the development of pan-coronavirus vaccines.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

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