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Small-molecule correctors divert CFTR-F508del from ERAD by stabilizing sequential folding states.

Molecular biology of the cell (2023-11-29)
Celeste Riepe, Magda Wąchalska, Kirandeep K Deol, Anais K Amaya, Matthew H Porteus, James A Olzmann, Ron R Kopito
RÉSUMÉ

Over 80% of people with cystic fibrosis (CF) carry the F508del mutation in the cystic fibrosis transmembrane conductance regulator (CFTR), a chloride ion channel at the apical plasma membrane (PM) of epithelial cells. F508del impairs CFTR folding causing it to be destroyed by endoplasmic reticulum associated degradation (ERAD). Small-molecule correctors, which act as pharmacological chaperones to divert CFTR-F508del from ERAD, are the primary strategy for treating CF, yet corrector development continues with only a rudimentary understanding of how ERAD targets CFTR-F508del. We conducted genome-wide CRISPR/Cas9 knockout screens to systematically identify the molecular machinery that underlies CFTR-F508del ERAD. Although the ER-resident ubiquitin ligase, RNF5 was the top E3 hit, knocking out RNF5 only modestly reduced CFTR-F508del degradation. Sublibrary screens in an RNF5 knockout background identified RNF185 as a redundant ligase and demonstrated that CFTR-F508del ERAD is robust. Gene-drug interaction experiments illustrated that correctors tezacaftor (VX-661) and elexacaftor (VX-445) stabilize sequential, RNF5-resistant folding states. We propose that binding of correctors to nascent CFTR-F508del alters its folding landscape by stabilizing folding states that are not substrates for RNF5-mediated ubiquitylation.

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Description du produit

Sigma-Aldrich
Anticorps anti-CFTR, a.a. 1370-1380, clone M3A7, clone M3A7, Chemicon®, from mouse
Sigma-Aldrich
Anti-Cystic Fibrosis Transmembrane Conductance Regulator Antibody, a.a. 386-412, clone L12B4, clone L12B4, Chemicon®, from mouse