Cystic fibrosis (CF) is potentially treatable by gene therapy. Since the identification of the CF gene, preclinical and clinical trials have concentrated on achieving effective gene therapy targeting the lung. However, the lung has proven to be a formidable barrier to successful gene therapy especially for CF, and many clinical trials failed to achieve efficacy. Recent advances in vector design and adeno-associated virus (AAV) serotypes have increased the chances of success. Given that CF is a multi-organ disease, the goal of this study was to test whether a gene therapy approach involving AAV1 or AAV6 vector delivery via the systemic circulation would at the same time overcome the barrier of lung delivery and transduce organs commonly affected by CF. To accomplish this, we sprayed AAV1 containing green fluorescent protein (GFP) into the trachea or injected it intravenously (IV). We also tested AAV6 injected IV. No adverse events were noted. Ferrets were necropsied 30 days after vector delivery. AAV1 or AAV6 vector genomes, messenger RNA (mRNA) expression, and GFP were detected in all the tracheal and lung samples from the treated animals, whether AAV1 was sprayed into the trachea or injected IV or AAV6 was injected IV. Importantly, both surface epithelial and basal cells of the trachea and lung airways were successfully transduced, regardless of which route of delivery or vector serotype used for transduction. We detected also AAV1 and AAV6 vector genomes, mRNA expression, and GFP in the livers and pancreases, particularly in the acinar cells of the pancreatic duct. These data suggest that gene transfer is attainable in the airways, liver, and pancreas using either serotype, AAV1 or AAV6. Given that these same organs are affected in CF, systemic delivery of AAV may be the preferred route of delivery for a gene therapy for CF.
Keywords: AAV1; AAV6; basal cells; cystic fibrosis; ferret; liver; lung; pancreas; surface cells.