Esterase‐Labile Quaternium Lipidoid Enabling Improved mRNA‐LNP Stability and Spleen‐Selective mRNA Transfection
Ionizable cationic lipids are recognized as an essential component of lipid nanoparticles (LNPs) for messenger RNA (mRNA) delivery but can be confounded by low lipoplex stability with mRNA during storage and in vivo delivery. Herein, the rational design and combinatorial synthesis of esterase‐triggered decationizable quaternium lipid‐like molecules (lipidoids) is reported to develop new LNPs with high delivery efficiency and improved storage stability. This top lipidoid carries positive charges at the physiological condition but promptly acquires negative charges in the presence of esterase, thus permitting stable mRNA encapsulation during storage and in vivo delivery while balancing efficient mRNA release in the cytosol. An optimal LNP formulation is then identified through orthogonal optimization, which enables efficacious mRNA transfection selectively in spleen following intravenous administration. LNP‐mediated delivery of ovalbumin (OVA)‐encoding mRNA induces efficient antigen expression in antigen‐presenting cells (APCs) and elicits robust antigen‐specific immune responses against OVA‐transduced tumors. The work demonstrates potential of decationizable quaternium lipidoids for spleen‐selective mRNA transfection and cancer immunotherapy.
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