Cameron B Morrison1, Kendall M Shaffer1, Kenza C Araba1, Matthew R Markovetz1, Jason A Wykoff1, Nancy L Quinney1, Shuyu Hao2, Martial F Delion1, Alexis L Flen1, Lisa C Morton1, Jimmy Liao1, David B Hill1,3, Mitchell L Drumm4, Wanda K O'Neal1, Mehmet Kesimer1, Martina Gentzsch1,2,5, Camille Ehre6,5. 1. Marsico Lung Institute/CF Center, The University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. 2. Dept of Cell Biology and Physiology, The University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. 3. Dept of Physics and Astronomy, The University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. 4. Dept of Genetics and Genome Sciences, Case Western Reserve University School of Medicine, Cleveland, OH, USA. 5. Division of Pediatric Pulmonology, The University of North Carolina at Chapel Hill, Chapel Hill, NC, USA. 6. Marsico Lung Institute/CF Center, The University of North Carolina at Chapel Hill, Chapel Hill, NC, USA camille_ehre@med.unc.edu.
Abstract
QUESTION: Cystic fibrosis (CF) is characterised by the accumulation of viscous adherent mucus in the lungs. While several hypotheses invoke a direct relationship with cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction (i.e. acidic airway surface liquid (ASL) pH, low bicarbonate (HCO3 -) concentration, airway dehydration), the dominant biochemical alteration of CF mucus remains unknown. MATERIALS/ METHODS: We characterised a novel cell line (CFTR-KO Calu3 cells) and the responses of human bronchial epithelial (HBE) cells from subjects with G551D or F508del mutations to ivacaftor and elexacaftor-tezacaftor-ivacaftor. A spectrum of assays such as short-circuit currents, quantitative PCR, ASL pH, Western blotting, light scattering/refractometry (size-exclusion chromatography with inline multi-angle light scattering), scanning electron microscopy, percentage solids and particle tracking were performed to determine the impact of CFTR function on mucus properties. RESULTS: Loss of CFTR function in Calu3 cells resulted in ASL pH acidification and mucus hyperconcentration (dehydration). Modulation of CFTR in CF HBE cells did not affect ASL pH or mucin mRNA expression, but decreased mucus concentration, relaxed mucus network ultrastructure and improved mucus transport. In contrast with modulator-treated cells, a large fraction of airway mucins remained attached to naïve CF cells following short apical washes, as revealed by the use of reducing agents to remove residual mucus from the cell surfaces. Extended hydration, but not buffers alkalised with sodium hydroxide or HCO3 -, normalised mucus recovery to modulator-treated cell levels. CONCLUSION: These results indicate that airway dehydration, not acidic pH and/or low [HCO3 -], is responsible for abnormal mucus properties in CF airways and CFTR modulation predominantly restores normal mucin entanglement.
QUESTION: Cystic fibrosis (CF) is characterised by the accumulation of viscous adherent mucus in the lungs. While several hypotheses invoke a direct relationship with cystic fibrosis transmembrane conductance regulator (CFTR) dysfunction (i.e. acidic airway surface liquid (ASL) pH, low bicarbonate (HCO3 -) concentration, airway dehydration), the dominant biochemical alteration of CF mucus remains unknown. MATERIALS/ METHODS: We characterised a novel cell line (CFTR-KO Calu3 cells) and the responses of human bronchial epithelial (HBE) cells from subjects with G551D or F508del mutations to ivacaftor and elexacaftor-tezacaftor-ivacaftor. A spectrum of assays such as short-circuit currents, quantitative PCR, ASL pH, Western blotting, light scattering/refractometry (size-exclusion chromatography with inline multi-angle light scattering), scanning electron microscopy, percentage solids and particle tracking were performed to determine the impact of CFTR function on mucus properties. RESULTS: Loss of CFTR function in Calu3 cells resulted in ASL pH acidification and mucus hyperconcentration (dehydration). Modulation of CFTR in CF HBE cells did not affect ASL pH or mucin mRNA expression, but decreased mucus concentration, relaxed mucus network ultrastructure and improved mucus transport. In contrast with modulator-treated cells, a large fraction of airway mucins remained attached to naïve CF cells following short apical washes, as revealed by the use of reducing agents to remove residual mucus from the cell surfaces. Extended hydration, but not buffers alkalised with sodium hydroxide or HCO3 -, normalised mucus recovery to modulator-treated cell levels. CONCLUSION: These results indicate that airway dehydration, not acidic pH and/or low [HCO3 -], is responsible for abnormal mucus properties in CF airways and CFTR modulation predominantly restores normal mucin entanglement.
Authors: Shuyu Hao; Erica A Roesch; Aura Perez; Rebecca L Weiner; Leigh C Henderson; Linda Cummings; Paul Consiglio; Joseph Pajka; Amy Eisenberg; Lauren Yeh; Calvin U Cotton; Mitchell L Drumm Journal: J Cyst Fibros Date: 2019-05-22 Impact factor: 5.482
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