Size-dependent gene delivery of amine-modified silica nanoparticles

Silica-based nanoparticles are promising carriers for gene delivery applications. To gain insights into the effect of particle size on gene transfection efficiency, amine-modified monodisperse St6ber spheres （NH2-SS） with diameters of 125, 230, 330, 440, and 570 nm were synthesized. The in vitro transfection efficiencies of NH2-SS for delivering plasmid DNA encoding green fluorescent protein （GFP） （pcDNA3-EGFP, abbreviated as pcDNA, 6.1 kbp） were studied in HEK293T cells. NH2-SS with a diameter of 330 nm （NH2-SS330） showed the highest GFP transfection level compared to NH2-SS particles with other sizes. The transfection efficiency was found as a compromise between the binding capacity and cellular uptake performance of NH2-SS330 and pcDNA conjugates. NH2-SS330 also demonstrated the highest transfection efficiency for plasmid DNA （pDNA） with a bigger size of 8.9 kbp. To our knowledge, this study is the first to demonstrate the significance of particle size for gene transfection efficiency in silica-based gene delivery systems. Our findings are crucial to the rational design of synthetic vectors for gene therapy.