Transcriptomic and functional responses of the cystic fibrosis airway epithelium to CFTR modulator therapy
Eszter K. Vladar, Austin E. Gillen, Sangya Yadav, Mikayla R. Murphree, David Baraghoshi, J. Kirk Harris, Elmar Pruesse, Sierra S. Niemiec, Alexandra W.M. Wilson, Katherine B. Hisert, Stephen M. Humphries, Matthew Strand, David A. Lynch, Max A. Seibold, Daniel M. Beswick, Jennifer L. Taylor-Cousar
Eszter K. Vladar, Austin E. Gillen, Sangya Yadav, Mikayla R. Murphree, David Baraghoshi, J. Kirk Harris, Elmar Pruesse, Sierra S. Niemiec, Alexandra W.M. Wilson, Katherine B. Hisert, Stephen M. Humphries, Matthew Strand, David A. Lynch, Max A. Seibold, Daniel M. Beswick, Jennifer L. Taylor-Cousar
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Research Article Inflammation Pulmonology

Transcriptomic and functional responses of the cystic fibrosis airway epithelium to CFTR modulator therapy

Abstract

Elexacaftor/tezacaftor/ivacaftor (ETI) cystic fibrosis transmembrane conductance regulator (CFTR) modulator therapy has led to rapid and substantial improvements in cystic fibrosis (CF) airway disease. Underlying molecular and cellular mechanisms, long-term efficacy, and ability to reverse airway epithelial remodeling in established disease remain unclear. Longitudinal nasal brushes from an adult CF cohort were used to evaluate gene expression, cellular composition, stem cell function, and microbiome changes at baseline and at 6 months and 2 years after ETI. The baseline to 6 month span showed a massive downregulation of extensive neutrophilic inflammatory gene expression programs that correlated with increased pulmonary function and decreased sinusitis. Primary airway epithelial stem cell cultures from matched donor samples showed partially improved differentiation and barrier capacity at 6 months. Although clinical outcomes remained stable during the 6 month to 2 year span, transcriptional changes revealed a resurgence of baseline inflammatory programs. The time course of gene expression was consistent with ongoing normalization of epithelial remodeling. Relative abundance of Pseudomonas also decreased during the time course. These data suggest that ETI rectifies inflammation, epithelial remodeling, and bacterial infection in the airways, but resurgence of inflammatory gene expression may indicate ongoing inflammation, potentially presaging disease progression with long-term therapy.

Authors

Eszter K. Vladar, Austin E. Gillen, Sangya Yadav, Mikayla R. Murphree, David Baraghoshi, J. Kirk Harris, Elmar Pruesse, Sierra S. Niemiec, Alexandra W.M. Wilson, Katherine B. Hisert, Stephen M. Humphries, Matthew Strand, David A. Lynch, Max A. Seibold, Daniel M. Beswick, Jennifer L. Taylor-Cousar

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Figure 7

Improved epithelial structure and function in primary sinonasal airway epithelial cultures after ETI therapy.

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Improved epithelial structure and function in primary sinonasal airway e...
(A) Matched baseline and 6 mo. primary sinonasal airway epithelial air-liquid interface (ALI) cultures indicate increased barrier capacity at 6 mo. in most participants as measured by transepithelial electrical resistance (TEER, Ω·cm2). Individual participant graphs show the average of 3 measurements from n = 5 independent cultures. Graphs show box-and-whisker plot with 2-tailed t test. (B) ALIs from matched baseline and 6 mo. samples stained with phalloidin for cell boundaries and labeled with anti-FOXJ1 antibody to mark ciliated cells show improved differentiation at 6 mo. in ALIs with increased TEER. Scale bars: 50 μm. (C) ALIs from matched baseline and 6 mo. samples stained with phalloidin for cell boundaries and labeled with anti-MUC5AC antibody to mark mucous secretory cells show improved differentiation at 6 mo. in some ALIs. Scale bars: 50 μm. (D) Quantitation of FOXJ1- and MUC5AC-positive cells. Individual graphs show the average of at least 3 measurements from n = 3 independent cultures. Graphs show box-and-whisker plots with 2-tailed t test.