mRNA-LNP vaccines tuned for systemic immunization induce strong antitumor immunity by engaging splenic immune cells
Bevers, Sanne; Kooijmans, Sander A A; Van de Velde, Elien; Evers, Martijn J W; Seghers, Sofie; Gitz-Francois, Jerney J J M; van Kronenburg, Nicky C H; Fens, Marcel H A M; Mastrobattista, Enrico; Hassler, Lucie; Sork, Helena; Lehto, Taavi; Ahmed, Kariem E; El Andaloussi, Samir; Fiedler, Katja; Breckpot, Karine; Maes, Michael; Van Hoorick, Diane; Bastogne, Thierry; Schiffelers, Raymond M; De Koker, Stefaan
(2022) Molecular Therapy, volume 30, issue 9, pp. 3078 - 3094
(Article)
Abstract
mRNA vaccines have recently proved to be highly effective against SARS-CoV-2. Key to their success is the lipid-based nanoparticle (LNP), which enables efficient mRNA expression and endows the vaccine with adjuvant properties that drive potent antibody responses. Effective cancer vaccines require long-lived, qualitative CD8 T cell responses instead of antibody
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responses. Systemic vaccination appears to be the most effective route, but necessitates adaptation of LNP composition to deliver mRNA to antigen-presenting cells. Using a design-of-experiments methodology, we tailored mRNA-LNP compositions to achieve high-magnitude tumor-specific CD8 T cell responses within a single round of optimization. Optimized LNP compositions resulted in enhanced mRNA uptake by multiple splenic immune cell populations. Type I interferon and phagocytes were found to be essential for the T cell response. Surprisingly, we also discovered a yet unidentified role of B cells in stimulating the vaccine-elicited CD8 T cell response. Optimized LNPs displayed a similar, spleen-centered biodistribution profile in non-human primates and did not trigger histopathological changes in liver and spleen, warranting their further assessment in clinical studies. Taken together, our study clarifies the relationship between nanoparticle composition and their T cell stimulatory capacity and provides novel insights into the underlying mechanisms of effective mRNA-LNP-based antitumor immunotherapy.
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Keywords: cancer, design-of-experiments methodology, extrahepatic delivery, immunotherapy, LNP, mRNA, vaccination, Drug Discovery, Genetics, Molecular Medicine, Molecular Biology, Pharmacology, Journal Article
ISSN: 1525-0016
Publisher: Nature Publishing Group
Note: Funding Information: This research was supported by the Applied and Engineering Sciences domain of the Dutch Research Council (NWO) HTSM grant (“TORNADO”) no. 16169 (S.A.A.K. R.M.S. J.J.J.M.G.-F. S.D.K.) European Union research and innovation Horizon 2020 grant (“EXPERT”) grant no. 825828 (R.M.S. S.D.K. T.B. L.H.), Flanders Innovation & Entrepreneurship (VLAIO, Baekeland grant) no. 2017.0572 (S.B.), and Estonian Research Council grant PSG226 (T.L.). S.B. S.A.A.K. and S.D.K. designed the experiments. S.B and S.A.A.K. performed the experiments and analyzed the results. S.S. E.V.d.V. J.J.J.M.G.-F. M.J.W.E. N.C.H.v.K. and M.H.A.M.F. helped with experiment execution. T.B. and L.H. designed the DOE and performed related statistical analysis. H.S. and K.E.A. analyzed LNP protein corona. M.M. and D.V.H. provided non-human primate data. R.M.S. S.D.K. E.M. K.B. S.E.A. T.L. and K.F. supervised the work. S.B. S.A.A.K. and S.D.K. wrote the manuscript. All authors have given approval to the final version of the manuscript. S.B. E.V.d.V. S.S. M.M. D.V.H. and S.D.K. are employees of eTheRNA Immunotherapies NV. S.B. S.A.A.K. R.M.S. and S.D.K. have applied for patents related to this study. Funding Information: This research was supported by the Applied and Engineering Sciences domain of the Dutch Research Council (NWO) HTSM grant (“TORNADO”) no. 16169 (S.A.A.K., R.M.S., J.J.J.M.G.-F., S.D.K.) European Union research and innovation Horizon 2020 grant (“EXPERT”) grant no. 825828 (R.M.S., S.D.K., T.B., L.H.), Flanders Innovation & Entrepreneurship (VLAIO, Baekeland grant) no. 2017.0572 (S.B.), and Estonian Research Council grant PSG226 (T.L.). Publisher Copyright: © 2022 The Authors
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