1. Mannosylation of LNP Results in Improved Potency for Self-Amplifying RNA (SAM) Vaccines
- Author
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Roshan Goswami, Barbara Baudner, Derek T. O'Hagan, Roberto Adamo, Ilaria Ferlenghi, Francesco Berti, Simona Gallorini, Alessandra Bonci, Marianna Taccone, Despo Chatzikleanthous, Gustavo Lou, Michela Brazzoli, Fabiola Giusti, and Carlo Pergola
- Subjects
0301 basic medicine ,Injections, Intradermal ,T cell ,030106 microbiology ,Hemagglutinin (influenza) ,Bone Marrow Cells ,Hemagglutinin Glycoproteins, Influenza Virus ,03 medical and health sciences ,Mice ,Immune system ,Orthomyxoviridae Infections ,In vivo ,medicine ,Animals ,RNA, Messenger ,Particle Size ,Antigen-presenting cell ,Cells, Cultured ,biology ,Chemistry ,Dendritic Cells ,Molecular biology ,In vitro ,3. Good health ,030104 developmental biology ,Infectious Diseases ,medicine.anatomical_structure ,Cholesterol ,Influenza Vaccines ,Mannosylation ,Immunoglobulin G ,biology.protein ,Nanoparticles ,Female ,Mannose ,CD8 - Abstract
Mannosylation of Lipid Nanoparticles (LNP) can potentially enhance uptake by Antigen Presenting Cells, which are highly abundant in dermal tissues, to improve the potency of Self Amplifying mRNA (SAM) vaccines in comparison to the established unmodified LNP delivery system. In the current studies, we evaluated mannosylated LNP (MLNP), which were obtained by incorporation of a stable Mannose-cholesterol amine conjugate, for the delivery of an influenza (hemagglutinin) encoded SAM vaccine in mice, by both intramuscular and intradermal routes of administration. SAM MLNP exhibited in vitro enhanced uptake in comparison to unglycosylated LNP from bone marrow-derived dendritic cells, and in vivo more rapid onset of the antibody response, independent of the route. The increased binding antibody levels also translated into higher functional hemagglutinin inhibition titers, particularly following intradermal administration. T cell assay on splenocytes from immunized mice also showed an increase in antigen specific CD8+ T responses, following intradermal administration of MLNP SAM vaccines. Induction of enhanced antigen specific CD4+ T cells, correlating with higher IgG2a antibody responses, was also observed. Hence, the present work illustrates the benefit of mannosylation of LNPs to achieve a faster immune response with SAM vaccines and these observations could contribute to the development of novel skin delivery systems for SAM vaccines.
- Published
- 2019