Key determinants of siRNA delivery mediated by unique pH-responsive lipid-based liposomes

Publication date: Available online 12 August 2019Source: International Journal of PharmaceuticsAuthor(s): Mariko Sako, Furan Song, Ayaka Okamoto, Hiroyuki Koide, Takehisa Dewa, Naoto Oku, Tomohiro AsaiAbstractLipid-based nanoparticles, a potential nonviral vector due to their good biocompatibility and biodegradability, have been extensively developed for the delivery of small interfering RNA (siRNA). We designed a unique pH-responsive lipid derivative, a dioleylphosphate-diethylenetriamine conjugate (DOP-DETA). DOP-DETA consists of a pH-responsive triamine and unsaturated fatty acids that accelerate membrane fusion. Our results showed that DOP-DETA-based liposomes (DL) efficiently delivered siRNA into the cytoplasm and induced RNA interference even at a low siRNA concentration. The knockdown efficiency of DL depended on the molar ratio of total DL lipids to siRNA. When siRNA was formulated with a sufficient amount of DL, it was efficiently taken up by cells and induced effective gene silencing. Time-lapse imaging showed that siRNA transfected with DL was rapidly internalized into the cells and uniformly dispersed in the cytoplasm within a few minites. The results also showed that DL induced sufficient change in surface charge to allow it to interact with the cell membrane and to allow for rapid endosomal escape. Uptake pathway and time-lapse imaging studies revealed that siRNA was delivered by DL into the cytoplasm, possibly through both macropinocytosis and membrane fusion. ...
Source: International Journal of Pharmaceutics - Category: Drugs & Pharmacology Source Type: research