Molecular strategies for therapy of cystic fibrosis.

Cystic fibrosis (CF), a lethal disease common to Caucasians, is characterized by a defect in the CF transmembrane conductance regulator and the resulting defective cAMP-regulated Cl- secretion by epithelial cells. Clinical manifestations include both pancreatic and pulmonary insufficiency. Traditional therapeutic modalities address these problems with pancreatic enzyme replacement, vitamins and nutritional supplementation, antibiotics, and respiratory therapy. However, newer therapies directed at the specific underlying defects have emerged. In this review, we discuss agents that increase Cl- secretion via preserved Cl- secretory pathways, such as uridine triphosphate, or that enhance Na+ resorption, such as amiloride, thereby correcting altered airway secretions. We also discuss agents, including deoxyribonuclease (DNase), that directly reduce sputum viscosity. CF is an early target for in vivo gene therapy, since it is a monogenic autosomal recessive disease in which restoration of normal cAMP-regulated Cl- conductance can be achieved by complementation with a normal gene. The early clinical gene therapy therapy work, with gene introduction by both viral and nonviral vectors, is discussed.