Controlled synthesis of PEGylated polyelectrolyte nanogels as efficient protein carriers

Abstract

Designing rational carriers for protein encapsulation and delivery is of great interest in a wide range of applications. Herein, we develop a type of PEGylated polyelectrolyte nanogel that enables efficient protein loading, protection and intracellular delivery. Our design relies on a one pot process involving cooperative electrostatic assembly and polymerization, which constructs polyion complex (PIC) micelles containing cross-linked cationic PDMAEMA network associated with anionic PAA. Further removing PAA chains leads to core–shell nanogels with a cationic network surrounded by poly (ethylene glycol) (PEG) blocks. The established strategy allows to fabricate well-defined nanogels with regulated size and swelling ability depending on pH, salt concentration and cross-link degree. More notably, the abundant positive charges and the thermo-response of PDMAEMA network realize sufficient encapsulation and protection of BSA proteins, while the PEG blocks endow appreciable biocompatibility and successful intracellular protein delivery. Our study establishes a facile and robust approach for preparing core–shell polyelectrolyte nanogels with regulated size and properties, as well as prominent capabilities for protein encapsulation and delivery.