Novel α-mannose-functionalized poly (β-amino ester) nanoparticles as mRNA vaccines with increased antigen presenting cells selectivity in the spleen.
N. González-Ríosa, M. Artigues, M. Guerra-Rebollo, A. Planas, S. Borrós, M. Faijes, C. Fornaguera.
Journal of Materials Chemistry B. 11, 6412-6427 (2023). .
https://pubs.rsc.org/en/content/articlehtml/2023/tb/d3tb00607g
Abstract
mRNA vaccination has emerged as a prominent therapy for the future of medicine. Despite the colossal advance in this technology and worldwide efficacy proof (ca. COVID vaccines), mRNA carriers still lack cell/tissue specificity, leading to possible side effects, and reduced efficacy among others. Herein we make use of the ubiquitous affinity of antigen-presenting cells (APC)s for glycosides to achieve specific targeting. To achieve this goal, we designed a new generation of α-mannosyl functionalized oligopeptide-terminated poly(β-aminoester). Fine formulation of these polymers with mRNA resulted in nanoparticles decorated with surface-exposed α-mannoses with sizes around 180 nm and positive surface charge. Notably, these particles maintained their properties after freeze-drying and subsequent redispersion. Finally, our mRNA carriers preferentially targeted and transfected APCs in vitro and in vivo. In conclusion, we demonstrated, at a preclinical level, that the mannose functionalization enables more selective targeting of APCs and, thus, these polymer and nanoparticles are candidates for a new generation of mRNA immunotherapy vaccines.
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