A uniquely efficacious type of CFTR corrector with complementary mode of action

  • Sci Adv. 2024 Mar;10(9):eadk1814. doi: 10.1126/sciadv.adk1814.
Valentina Marchesin  1 Lucile Monnier  1 Peter Blattmann  1 Florent Chevillard  1 Christine Kuntz  1 Camille Forny  1 Judith Kamper  1 Rolf Studer  1 Alexandre Bossu  1 Eric A Ertel  1 Oliver Nayler  1 Christine Brotschi  1 Jodi T Williams  1 John Gatfield  1
Affiliations
  • 1. Idorsia Pharmaceuticals Ltd., 4123 Allschwil, Switzerland.
Abstract

Three distinct pharmacological corrector types (I, II, III) with different binding sites and additive behavior only partially rescue the F508del-cystic fibrosis transmembrane conductance regulator (CFTR) folding and trafficking defect observed in cystic fibrosis. We describe uniquely effective, macrocyclic CFTR correctors that were additive to the known corrector types, exerting a complementary "type IV" corrector mechanism. Macrocycles achieved wild-type-like folding efficiency of F508del-CFTR at the endoplasmic reticulum and normalized CFTR currents in reconstituted patient-derived bronchial epithelium. Using photo-activatable macrocycles, docking studies and site-directed mutagenesis a highly probable binding site and pose for type IV correctors was identified in a cavity between lasso helix-1 (Lh1) and transmembrane helix-1 of membrane spanning domain (MSD)-1, distinct from the known corrector binding sites. Since only F508del-CFTR fragments spanning from Lh1 until MSD2 responded to type IV correctors, these likely promote cotranslational assembly of Lh1, MSD1, and MSD2. Previously corrector-resistant CFTR folding mutants were also robustly rescued, suggesting substantial therapeutic potential for type IV correctors.

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