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Rescue of [DELTA]F508-CFTR trafficking and gating in human cystic fibrosis airway primary cultures by small molecules

Authors :
Van Goor, Fredrick
Straley, Kimberly S.
Cao, Dong
Gonzalez, Jesus
Hadida, Sabine
Hazlewood, Anna
Joubran, John
Knapp, Tom
Makings, Lewis R.
Miller, Mark
Neuberger, Timothy
Olson, Eric
Panchenko, Victor
Rader, James
Singh, Ashvani
Stack, Jeffrey H.
Tung, Roger
Grootenhuis, Peter D.J.
Negulescu, Paul
Source :
The American Journal of Physiology. June, 2006, Vol. 290 Issue 6, pL1117, 14 p.
Publication Year :
2006

Abstract

Cystic fibrosis (CF) is a fatal genetic disease caused by mutations in cftr, a gene encoding a PKA-regulated [Cl.sup.-] channel. The most common mutation results in a deletion of phenylalanine at position 508 ([DELTA]F508-CFTR) that impairs protein folding, trafficking, and channel gating in epithelial cells. In the airway, these defects alter salt and fluid transport, leading to chronic infection, inflammation, and loss of lung function. There are no drugs that specifically target mutant CFTR, and optimal treatment of CF may require repair of both the folding and gating defects. Here, we describe two classes of novel, potent small molecules identified from screening compound libraries that restore the function of [DELTA]F508-CFTR in both recombinant cells and cultures of human bronchial epithelia isolated from CF patients. The first class partially corrects the trafficking defect by facilitating exit from the endoplasmic reticulum and restores [DELTA]F508-CFTR-mediated [Cl.sup.-] transport to more than 10% of that observed in non-CF human bronchial epithelial cultures, a level expected to result in a clinical benefit in CF patients. The second class of compounds potentiates cAMP-mediated gating of [DELTA]F508-CFTR and achieves single-channel activity similar to wild-type CFTR. The CFTR-actirating effects of the two mechanisms are additive and support the rationale of a drug discovery strategy based on rescue of the basic genetic defect responsible for CF. high-throughput screening; human bronchial epithelia; [Cl.sup.-] channels: corrector; potentiator

Details

Language :
English
ISSN :
00029513
Volume :
290
Issue :
6
Database :
Gale General OneFile
Journal :
The American Journal of Physiology
Publication Type :
Academic Journal
Accession number :
edsgcl.147388422