Ionizable guanidine-based lipid nanoparticle for targeted mRNA delivery and cancer immunotherapy
He Zhang, Dejing Liu, Kang Yang, Zhuoying Liang, Mao Li
Abstract
The development of lipid nanoparticle (LNP) systems has largely advanced RNA therapeutics, particularly mRNA-based cancer immunotherapy. Conventional amine-LNPs, designed for hepatic RNA delivery, face challenges in targeting lymphoid organs effectively and maximize antigen presentation. In this study, we present the development of pH-responsive ionizable guanidine-LNPs (G-LNPs). Our cholesterol-free G-LNP system enables efficient delivery of mRNA to the spleen following intravenous administration. Notably, while both amine-LNPs and G-LNPs can deliver mRNA to the spleen, G-LNPs exhibit a unique ability to preferentially target antigen-presenting cells, leading to significantly enhanced antigen presentation and robust T cell activation. mRNA vaccines formulated with G-LNPs elicited strong and antigen-specific immune responses, providing complete protection against tumor progression. In addition, intraperitoneal administration of G-LNPs enabled selective mRNA expression in the pancreas, showcasing the versatility of this delivery platform. These findings underscore the potential of guanidine-LNPs as a highly promising platform for organ-targeted mRNA delivery and cancer immunotherapy.