Triple tandem trimer immunogens for HIV-1 and influenza nucleic acid-based vaccines

Author:

del Moral-Sánchez IvánORCID,Wee Edmund G.,Xian Yuejiao,Lee Wen-Hsin,Allen Joel D.ORCID,Torrents de la Peña Alba,Fróes Rocha Rebeca,Ferguson James,León André N.ORCID,Koekkoek Sylvie,Schermer Edith E.,Burger Judith A.,Kumar SanjeevORCID,Zwolsman Robby,Brinkkemper Mitch,Aartse Aafke,Eggink Dirk,Han JuliannaORCID,Yuan Meng,Crispin MaxORCID,Ozorowski GabrielORCID,Ward Andrew B.ORCID,Wilson Ian A.ORCID,Hanke TomášORCID,Sliepen KwintenORCID,Sanders Rogier W.ORCID

Abstract

AbstractRecombinant native-like HIV-1 envelope glycoprotein (Env) trimers are used in candidate vaccines aimed at inducing broadly neutralizing antibodies. While state-of-the-art SOSIP or single-chain Env designs can be expressed as native-like trimers, undesired monomers, dimers and malformed trimers that elicit non-neutralizing antibodies are also formed, implying that these designs could benefit from further modifications for gene-based vaccination approaches. Here, we describe the triple tandem trimer (TTT) design, in which three Env protomers are genetically linked in a single open reading frame and express as native-like trimers. Viral vectored Env TTT induced similar neutralization titers but with a higher proportion of trimer-specific responses. The TTT design was also applied to generate influenza hemagglutinin (HA) trimers without the need for trimerization domains. Additionally, we used TTT to generate well-folded chimeric Env and HA trimers that harbor protomers from three different strains. In summary, the TTT design is a useful platform for the design of HIV-1 Env and influenza HA immunogens for a multitude of vaccination strategies.

Funder

Bill and Melinda Gates Foundation

Aids Fonds

European Molecular Biology Organization

Publisher

Springer Science and Business Media LLC

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