A Collaborative Assembly Strategy for Tumor-Targeted siRNA Delivery

A novel Collaborative assembly approach was reported for the synthesis of an siRNA delivery system via a: combination of an electrostatically driven physical assembly and a facile click reaction mediated chemical assembly; which showed various advantages of more safety, efficiency,, and flexibility over the conventional approach that is Only based on the physical assembly. This strategy remained a high cationic property of lipid-based complex for high siRNA loading capacity: The direct chemical modification of a model polyanion, hyaluronic acid (HA) on the cationic complex via click chemistry shielded the positive charge of complex without affecting the siRNA binding,, which reduced the toxicity and enhanced the blood stability of the complex. In addition, the incorporated polyanion might be prefunctionalized, which endued the carrier with better biological characteristics such as long circulating or tumor targeting. We demonstrated that the Obtained lipid polymer hybrid nanoparticle (RSC-HA) using collaborative assembly presented greater in vivo stability in the blood for efficient tumor targeting than the physically assembled RSC/HA in which HA was physically adsorbed on the complex. After: endocytosis into the cells, the protection of RSC-HA on siRNA turned off, while the release of siRNA induced by the intracellular signals for enhanced gene silencing capacity. This combination of physical and chemical assemblies provides an efficient strategy for the exploitation of safe, stable, and functionalized siRNA delivery systems.