Enhanced Transfection Rates of Small-Interfering RNA Using Dioleylglutamide-Based Magnetic Lipoplexes

Magnetic force-guided delivery (magnetofection) has been studied as a new modality for introducing small-interfering RNA (siRNA) into target cells, but its delivery efficiency needs to be improved. Here, we report that magnetofection of N,N′′-dioleylglutamide (DG)-based magnetic lipoplexes can substantially enhance the cellular delivery rates of siRNA. The siRNA was triply complexed with DG-based cationic liposomes and cationic iron-oxide nanoparticles. The formation of siRNA-containing magnetic lipoplexes was confirmed by gel retardation, sizes, and zeta potential values. Fluorescence microscopy and flow cytometry of fluorescent marker-labeled siRNA revealed that the DG-based magnetic lipoplexes conferred a higher cellular delivery rate of siRNA than DG-based lipoplexes or Lipofectamine 2000. In addition to the enhanced delivery of siRNA, the DG-based magnetic lipoplexes showed lack of cytotoxicity. We then tested the application of these magnetic lipoplexes for the cellular delivery of anticancer siRNA....