Modified polyethylenimines as non viral gene delivery systems for aerosol therapy: effects of nebulization on cellular uptake and transfection efficiency

Abstract

This study examined the effect of nebulization on the cellular uptake and transfection efficiency of polyplexes from four polyethylenimine (PEI) modifications: branched 25 kDa PEI (bPEI), linear 22 kDa PEI (linPEI), pegylated PEI (pegPEI) and biodegradable PEI (bioPEI). Polyplexes were aerosolized with air-jet and ultrasonic nebulizers. The aerosol was collected and used to determine complex size and zeta potential. Fluorescence-assisted cell sorting (FACS) was used to quantify the cellular association of polyplexes in primary alveolar cells (AEC), A549 cells and primary bronchial cells (BEC). Confocal laser scanning microscopic images provided information about the internalization of polyplexes. Transfection efficiencies of polyplexes were quantified via measurement of luciferase expression. All polymers were stable during nebulization, although size increases were observed after air-jet nebulization. FACS studies showed a two- to three-fold increase in polyplex association with BEC compared to A549 cells, while polyplex association with AEC was negligible. BPEI, linPEI and bioPEI polyplexes were internalized, while pegPEI polyplexes remained predominately attached to the cellular membrane. Luciferase expression was detected only in BEC and A549 cells with transfection efficiencies approximately one order of magnitude higher in BEC. All PEI modifications investigated were suitable for aerosol therapy, although cell type and polymer structure significantly influenced the uptake and transfection efficiency of the polyplexes.