A pressure-mediated nonviral method for efficient arterial gene and oligonucleotide transfer.

In this study, we report a method of controlled pressure-mediated delivery of "naked" DNA that achieves efficient and safe arterial gene and oligonucleotide transfer. We demonstrated a pressure-dependent uptake of fluorescein-labeled (FITC) oligonucleotide (ODN) in rabbit carotid arteries with preexisting neointimal hyperplasia, using nondistending intravascular delivery pressures ranging from 0 to 760 mm Hg. At an infusion pressure of 50 mm Hg, 10.5+/-5% of neointimal cell nuclei were positive for nuclear uptake of FITC-ODN 4 days after transfection. With an infusion pressure of 760 mm Hg, the transfection efficiency increased to 84.2+/-5.3% of neointimal cells, and to 64.5+/-11.6 and 92.4+/-5.5% of medial and adventitial cells, respectively. Similar patterns of FITC-ODN uptake were seen in atherosclerotic injured arteries. We also investigated the pressure-mediated delivery of plasmid DNA. Transfection of a luciferase expression plasmid, using an infusion pressure of 760 mm Hg, yielded luciferase expression of 816.6+/-108.6 fg/mg protein in normal rabbit carotid arteries, as compared with 38.9+/-23.7 fg/mg protein at 100 mm Hg. Luciferase expression was significantly higher in pressure-transfected injured atherosclerotic arteries (5467.3+/-1047.6 fg/mg protein at 760 mm Hg). Transfection of beta-galactosidase indicated that significant transgene expression occurred in the neointima and media. These data indicate that this pressure-mediated transfection method yields efficient oligonucleotide delivery and enhances transduction with plasmid DNA in normal as well as injured nonatherosclerotic or atherosclerotic arteries.

Duke Scholars

Author Victor J. Dzau Medicine, Cardiology