Long‐Term Storage Stable Vesicle‐Like Nanoparticles of Lipid and Polymer for siRNA and mRNA‐Mediated Cancer Immunotherapy

Abstract RNA‐based therapeutics have emerged as a promising strategy for cancer immunotherapy, encompassing the silencing of immune checkpoint genes, chimeric antigen receptor T (CAR‐T) cell production, and antitumor vaccines. Despite their tremendous potential, the urgent need for the development of clinically applicable delivery systems remains paramount. In this study, vesicle‐like nanoparticles (VNPs) are devised using clinically approved amphiphilic polymers and lipids as the delivery system for siRNA and mRNA. Through meticulous formulation adjustments of cationic lipids and ionizable lipids, a VNP formulation with exceptional transfection efficiency is identified. Notably, the VNPs maintained their remarkable transfection efficiency even after 6 months of storage. When loaded with siPD‐L1 and siCD47, these VNPs effectively silenced two critical immune checkpoint genes, enabling successful cancer immunotherapy. Moreover, when employed as a delivery system for mRNA vaccines, the VNPs induced a robust population of antigen‐specific CD8 + T cells in immunized mice. This led to the successful suppression of tumor growth (5 out of 8 subjects becoming tumor‐free) and nearly complete inhibition of lung metastasis. In summary, this lipid‐ and polymer‐based VNPs offer a long shelf life, excellent loading and transfection efficiency, versatility for various RNA types, and hold great promise as a delivery system for clinical applications.