The objective of the present investigation was to design a targeted polyethylenimine (PEI)-based polyplex by conjugating lactose bearing galactose groups on low molecular weight PEI (LMW PEI) grafted to a high molecular weight PEI (HMW PEI) via a succinic acid linker in order to restore the amine content of the whole conjugate used for ligand conjugation. The PEI conjugate was synthesized and characterized in terms of buffering capacity, particle size, zeta potential, plasmid condensation ability, and protection of DNA against degrading enzymes. Also, the transfection efficiency and cytotoxicity were evaluated in the cell line over-expressing asialoglycoprotein receptors (ASGPRs) and compared with the cells lacking the receptors. The results demonstrated the ability of PEI conjugate in condensation of plasmid DNA and protection against enzyme degradation. The PEI conjugate formed nanoparticles of around 75 nm with higher buffering capacity compared with unmodified PEI. The polyplexes prepared by the modified PEI could increase the level of transgene up to four folds in the cells over-expressing the receptor. The results demonstrated the separation of targeting and delivery domains could be considered as a strategy to restore the amine content of the PEI molecule utilized for targeting ligand conjugation.
Keywords: asialoglycoprotein receptor; gene delivery; interleukin-12; nanoparticle; polyethylenimine.
© 2020 American Institute of Chemical Engineers.