Due to the powerful DNA loading capacity and excellent proton sponge effect, the cationic polymer polyethyleneimine (PEI) has been demonstrated as a versatile, efficient DNA delivery tool both in vitro and in vivo. However, the excess surface positive charge of PEI and the common capture/clearance of PEI/DNA complex by the immune system limit its further clinical applications. To reduce the cytotoxicity resulting from surface charge and avoid the clearance of nanoparticles interacting with proteins and circulating immune cells in the blood, a bionic gene delivery system was developed by coating PEI/DNA complexes with natural cell membranes. The obtained RAW Cell membrane-coated PEI/DNA capsules (RAWm-PDc) and Red blood Cell membrane-coated PEI/DNA capsules (RBCm-PDc) complex showed excellent dispersibility and stability with an average particle size of 200–300 nm. Moreover, the RAWm-PDc/RBCm-PDc complex had great DNA loading capacity and protected the bound DNA effectively from nuclease hydrolysis. Most importantly, the RAWm-PDc/RBCm-PDc complex exhibited low protein adsorption, reduced cytotoxicity and high gene delivery efficiency. All the results demonstrated the potential of RAWm-PDc/RBCm-PDc as a promising non-viral gene delivery vector.
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