JCI Insight (Mar 2022)

CFTR bearing variant p.Phe312del exhibits function inconsistent with phenotype and negligible response to ivacaftor

  • Karen S. Raraigh,
  • Kathleen C. Paul,
  • Jennifer L. Goralski,
  • Erin N. Worthington,
  • Anna V. Faino,
  • Stanley Sciortino,
  • Yiting Wang,
  • Melis A. Aksit,
  • Hua Ling,
  • Derek L. Osorio,
  • Frankline M. Onchiri,
  • Shivani U. Patel,
  • Christian A. Merlo,
  • Kristina Montemayor,
  • Ronald L. Gibson,
  • Natalie E. West,
  • Amita Thakerar,
  • Robert J. Bridges,
  • David N. Sheppard,
  • Neeraj Sharma,
  • Garry R. Cutting

Journal volume & issue
Vol. 7, no. 6

Abstract

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The chloride channel dysfunction caused by deleterious cystic fibrosis transmembrane conductance regulator (CFTR) variants generally correlates with severity of cystic fibrosis (CF). However, 3 adults bearing the common severe variant p.Phe508del (legacy: F508del) and a deletion variant in an ivacaftor binding region of CFTR (p.Phe312del; legacy: F312del) manifested only elevated sweat chloride concentration (sw[Cl–]; 87–105 mEq/L). A database review of 25 individuals with F312del and a CF-causing variant revealed elevated sw[Cl–] (75–123 mEq/L) and variable CF features. F312del occurs at a higher-than-expected frequency in the general population, confirming that individuals with F312del and a CF-causing variant do not consistently develop overt CF features. In primary nasal cells, CFTR bearing F312del and F508del generated substantial chloride transport (66.0% ± 4.5% of WT-CFTR) but did not respond to ivacaftor. Single-channel analysis demonstrated that F312del did not affect current flow through CFTR, minimally altered gating, and ablated the ivacaftor response. When expressed stably in CF bronchial epithelial (CFBE41o–) cells, F312del-CFTR demonstrated residual function (50.9% ± 3.3% WT-CFTR) and a subtle decrease in forskolin response compared with WT-CFTR. F312del provides an exception to the established correlation between CFTR chloride transport and CF phenotype and informs our molecular understanding of ivacaftor response.

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