Biologics-based technologies for highly efficient and targeted RNA delivery.

The demand for RNA-based therapeutics is increasing globally. However, their use is hampered by the lack of safe and effective delivery vehicles. Here, we developed technologies for highly efficient delivery of RNA cargo into programmable extracellular vesicle-mimetic nanovesicles (EMNVs) by fabricating hybrid EMNV-liposomes (Hybs). Tissue targeting is endowed by highly efficient genetic platforms based on truncated CD63 (ΔCD63) or PTGFRN proteins. For the first time we reveal their efficiency in functionalizing EMNVs, resulting in >10-fold enhancement of nanoparticle internalization in vitro and >2-fold in vivo. RNA delivery using Hybs demonstrated efficiency of >85% in human and mouse cell lines. Comparative analysis of EMNVs and Hyb lysosome colocalization and stability suggested that Hybs enter the lysosomal compartment and escape over time, whereas EMNVs primarily avoid it. Finally, we used these technologies to generate liver-targeting Hybs loaded with therapeutic small interfering RNA and demonstrated the robust efficiency of this system in vitro and in vivo. These technologies can be adapted for manufacturing a wide range of next-generation vehicles for highly efficient, safe delivery of RNA into desired organs and tissues for therapeutic and prophylactic applications.