Folic-Acid-Targeted Self-Assembling Supramolecular Carrier for Gene Delivery.

Graphical Get smart: A smart targeting gene carrier for cancer-specific delivery has been successfully prepared by a “multilayer bricks-and-mortar” strategy. Carriers produced by two different self-assembly schemes were investigated for their ability to compact pDNA into nanoparticles. Cell viability studies show that the most suitable (Method A) material has lower cytotoxicity than 25 kDa bPEI and that transfection efficiency is maintained. A targeting gene carrier for cancer-specific delivery was successfully developed through a “multilayer bricks-mortar” strategy. The gene carrier was composed of adamantane-functionalized folic acid (FA-AD), an adamantane-functionalized poly(ethylene glycol) derivative (PEG-AD), and β-cyclodextrin-grafted low-molecular-weight branched polyethylenimine (PEI-CD). Carriers produced by two different self-assembly schemes, involving either precomplexation of the PEI-CD with the FA-AD and PEG-AD before pDNA condensation (Method A) or pDNA condensation with the PEI-CD prior to addition of the FA-AD and PEG-AD to engage host–guest complexation (Method B) were investigated for their ability to compact pDNA into nanoparticles. Cell viability studies show that the material produced by the Method A assembly scheme has lower cytotoxicity than branched PEI 25 kDa (PEI-25KD) and that the transfection efficiency is maintained. These findings suggest that the gene carrier, based on multivalent host–guest interactions, could be an effective, targeted, and low-toxicity carrier for delivering nucleic acid to target cells.