Selection and use of ligands for receptor-mediated gene delivery to myogenic cells

Identification of myogenic cell targeting ligands is a critical step in the development of synthetic vectors for gene delivery to skeletal muscle. Here we describe the screening of six potential targeting ligands (insulin, insulin-like growth factor I, iron transferrin, gallium transferrin, alpha-bungaro-toxin and carnitine) for their ability to bind dystrophin-deficient myotubes in vitro. Those ligands showing high levels of binding to myotubes were then tested on fully differentiated, isolated, viable myofibers. Of the ligands tested, transferrin showed the most promise based on high levels of binding to myogenic cells, high levels of receptor observed in regenerating fibers of patients with Duchenne muscular dystrophy and the ability to direct a large enzyme conjugate to the cytoplasm of myotubes. Finally, we show that incorporation of transferrin into an artificial virus consisting of poly-L-lysine-condensed DNA coated with a lipid shell (LPDII formulation) results in ligand-directed delivery of DNA to myogenic cells. This is the first report of gene transfer to myogenic cells using a ligand-directed synthetic vector. These results suggest that rational design of ligand-directed fully synthetic, gene delivery vehicles is a viable approach to skeletal muscle vector development.