The effectiveness, cytotoxicity, and intracellular trafficking of nonviral vectors for gene delivery to bone mesenchymal stem cells

Abstract

Nonviral gene delivery that enables exogenous gene expression in bone mesenchymal stem cells could accelerate clinical application of cell-based gene therapy. This study systematically investigated and compared the potential of polyethylenimine and Lipofectamine 2000 as gene carriers to modify bone mesenchymal stem cells including transfection efficiency, cytotoxicity, intracellular trafficking as well as cell membrane damage and apoptosis/necrosis. Polyethylenimine at its optimal N/P ratio of 10 demonstrated the same toxic effects but lower transfection efficiency (17.1% vs 39.5%) compared to Lipofectamine. Intracellular trafficking resulted in over 80% of bone mesenchymal stem cells that were able to take up polyethylenimine polyplexes, but only 20.69% showed nuclear uptake; however, for Lipofectamine, about half bone mesenchymal stem cells were found to uptake lipoplexes but about 30% displayed nuclear localization. Moreover, the percentages of nuclear localization of both vectors were in close relationship with their transfection efficiency. We concluded that for bone mesenchymal stem cell transfection, polyethylenimine displayed high cellular uptake but Lipofectamine was more effective in delivering genes into the nucleus, which was likely the underlying basis for a more efficient gene expression. Further structure modification of polyethylenimine such as improving its nuclear entry ability will eventually make it a better candidate for bone mesenchymal stem cells’ in vitro gene delivery.