Restoring ciliary function to differentiated primary ciliary dyskinesia cells with a lentiviral vector

Abstract

Primary ciliary dyskinesia is a genetically heterogeneous autosomal recessive disease in which mutations disrupt ciliary function, leading to impaired mucociliary clearance and life-long lung disease. Mouse tracheal cells with a targeted deletion in the axonemal dynein intermediated chain gene Dnaic1 differentiate normally in culture but lack ciliary activity. Gene transfer to undifferentiated cultures of mouse Dnaic1−/− cells with a lentiviral vector pseudotyped with avian influenza hemagglutinin restored Dnaic1 expression and ciliary activity. Importantly, apical treatment of well-differentiated cultures of mouse Dnaic1−/− with lentiviral vector also restored ciliary activity, demonstrating successful gene transfer from the apical surface. Treatment of Dnaic1flox/flox mice expressing an estrogen responsive Cre recombinase with different doses of tamoxifen indicated that restoration of ~20% of ciliary activity may be sufficient to prevent the development of rhinosinusitis. However, while administration of a β-galactosidase expressing vector to control mice demonstrated efficient gene transfer to the nasal epithelium, treatment of Dnaic1−/− mice resulted in a low level of gene transfer, demonstrating that the severe rhinitis present in these animals impedes gene transfer. The results demonstrate that gene replacement therapy may be a viable treatment option for primary ciliary dyskinesia, but further improvements in the efficiency of gene transfer are necessary.