New model of cystic fibrosis transmembrane conductance regulator proposes active channel-like conformation.

The cystic fibrosis transmembrane conductance regulator (CFTR) is an unusual ABC transporter, functioning as a chloride channel critical for fluid homeostasis in multiple organs. Disruption of CFTR function is associated with cystic fibrosis making it an attractive therapeutic target. In addition, CFTR blockers are being developed as potential antidiarrheals. CFTR drug discovery is hampered by the lack of high resolution structural data, and considerable efforts have been invested in modeling the channel structure. Although previously published CFTR models that have been made publicly available mostly agree with experimental data relating to the overall structure, they present the channel in an outward-facing conformation that does not agree with expected properties of a “channel-like” structure. Here, we make available a model of CFTR in such a “channel-like” conformation, derived by a unique modeling approach combining restrained homology modeling and ROSETTA refinement. In contrast to others, the prese...