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. 2025 Jun;20(6):845-855.
doi: 10.1038/s41565-025-01889-1. Epub 2025 May 14.

A modular mRNA vaccine platform encoding antigen-presenting capsid virus-like particles enhances the immunogenicity of the malaria antigen Pfs25

Cyrielle Fougeroux  1 Sven Hendrik Hagen  1 Louise Goksøyr  1 Kara-Lee Aves  2 Anna Kathrine Okholm  2 Candice Morin  2 Abhijeet Girish Lokras  3 Saahil Sandeep Baghel  3 Camilla Foged  3 Marga van de Vegte-Bolmer  4 Geert-Jan van Gemert  4 Matthijs M Jore  4 Elena Ethel Vidal-Calvo  2   5 Tobias Gustavsson  2   5 Ali Salanti  2   5 Thor Grundtvig Theander  2 Morten Agertoug Nielsen  2 Willem Adriaan de Jongh  1 Adam Frederik Sander Bertelsen  6   7
Affiliations

A modular mRNA vaccine platform encoding antigen-presenting capsid virus-like particles enhances the immunogenicity of the malaria antigen Pfs25

Cyrielle Fougeroux et al. Nat Nanotechnol. 2025 Jun.

Abstract

The COVID-19 pandemic has emphasized the potential of mRNA vaccines in fighting pandemics, owing to their rapid development, strong immunogenicity and adaptability. However, a drawback is their dose-limiting reactogenicity and inability to generate durable humoral immunity. Here we introduce a modular nucleotide vaccine platform combining the advantages of genetic and capsid virus-like-particle-based vaccines. This platform allows for the display of various antigens on different capsid virus-like particles, improving the magnitude, quality and longevity of the vaccine-induced immune responses. We applied this technology to enhance the immunogenicity of the Pfs25 antigen. Immunization with lipid-nanoparticle-formulated mRNA encoding Pfs25 capsid virus-like particles resulted in higher and potentially more durable anti-Pfs25 antibody responses, along with enhanced functional activity, compared with an mRNA vaccine encoding soluble Pfs25. By improving both humoral and cellular immune responses, this approach may reduce the dose and number of administrations required for effective protection. As a result, it can improve the feasibility of both DNA- and mRNA-based vaccines targeting pandemic and endemic infectious diseases.

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Conflict of interest statement

Competing interests: W.A.J., L.G., C. Fougeroux, M.A.N. and A.F.S.B. are listed as co-inventors on a patent application covering the Delivery of a cVLP-based modular vaccine platform in a nucleic acid format (P5856PC00). C. Fougeroux, L.G., A.F.S.B., W.A.J., S.H.H., T.G.T., A.S. and T.G. are shareholders of AdaptVac, a company commercializing VLP display technology and vaccine, including several patents. A.G.L., S.S.B. and C. Foged are listed as co-inventors on patent applications covering the use of nanoparticles for mRNA delivery. C. Foged consults for Lonza and Sanofi. All other authors declare no competing interests.

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