Tumor targeting with surface-shielded ligand--polycation DNA complexes.

Incorporation of the receptor binding ligands transferrin (Tf) or epidermal growth factor (EGF) into DNA/polyethylenimine (PEI) complexes was found to enhance gene transfer into tumor cell lines in a receptor-dependent manner. In systemic applications, the surface charge of DNA complexes dominated the in vivo characteristics of gene transfer. Administration of surface-shielded Tf-polycation/DNA complexes into the tail vein of A/J mice resulted in preferential gene delivery into distantly growing subcutaneous Neuro2a tumors. In contrast, application of positively charged DNA/PEI complexes directed gene transfer primarily to the lung. Two alternatives of masking the surface charge of complexes were accomplished. In the first case, shielding was obtained by covalently coating of DNA/Tf-PEI complexes with polyethylene glycol (PEG). Alternatively, incorporation of sufficient Tf protein into the DNA complexes resulted in charge shielding even without PEGylation. In the latter case lower-molecular weight polycations (25 kDa PEI for Tf-PEI complexes, or 32 kDa polylysine for AVET complexes) were used.