Rachael E Rayner1, Jack Wellmerling1, Wissam Osman1, Sean Honesty1, Maria Alfaro2, Mark E Peeples3, Estelle Cormet-Boyaka4. 1. Department of Veterinary Biosciences, The Ohio State University, 1925 Coffey Road, Columbus, OH 43210, USA. 2. Institute for Genomic Medicine, Abigail Wexner Research Institute, Nationwide Children's Hospital, 700 Children's Drive, Columbus, OH 43205, USA. 3. Center for Vaccines and Immunity, Abigail Wexner Research Institute, Nationwide Children's Hospital, 700 Children's Drive, Columbus, OH 43205, USA; Department of Pediatrics, The Ohio State University College of Medicine, 700 Children's Drive, Columbus, OH 43205, USA. 4. Department of Veterinary Biosciences, The Ohio State University, 1925 Coffey Road, Columbus, OH 43210, USA. Electronic address: Boyaka.2@osu.edu.
Abstract
BACKGROUND: In vitro cystic fibrosis (CF) models are crucial for understanding the mechanisms and consequences of the disease. They are also the gold standard for pre-clinical efficacy studies of current and novel CF drugs. However, few studies have investigated expansion and differentiation of primary CF human bronchial epithelial (CF-HBE) cells. Here we describe culture conditions to expand primary CF airway cells while preserving their ability to differentiate into 3D epithelial cultures expressing functional cystic fibrosis transmembrane conductance regulator (CFTR) ion channels that responds to CFTR modulators. METHODS: Primary CF airway cells were expanded using PneumaCultTM-Ex Plus (StemCell Technologies) medium with no feeder cells or added Rho kinase (ROCK) inhibitor. Differentially passaged CF-HBE cells at the air-liquid interface (ALI) were characterized phenotypically and functionally in response to the CFTR corrector drug VX-661 (Tezacaftor). RESULTS: CF-HBE primary cells, expanded up to six passages (~25 population doublings), differentiated into 3D epithelial cultures as evidenced by trans-epithelial electrical resistance (TEER) of >400 Ohms∙cm2 and presence of pseudostratified columnar ciliated epithelium with goblet cells. However, up to passage five cells from most donors showed increased CFTR-mediated short-circuit currents when treated with the corrector drug, VX-661. Ciliary beat frequency (CBF) also increased with the corrector VX-661. CONCLUSIONS: CF donor-derived airway cells can be expanded without the use of feeder cells or additional ROCK inhibitor, and still achieve optimal 3D epithelial cultures that respond to CFTR modulators. The study of rare CF mutations could benefit from cell expansion and could lead to the design of personalized medicine/treatments.
BACKGROUND: In vitro cystic fibrosis (CF) models are crucial for understanding the mechanisms and consequences of the disease. They are also the gold standard for pre-clinical efficacy studies of current and novel CF drugs. However, few studies have investigated expansion and differentiation of primary CF human bronchial epithelial (CF-HBE) cells. Here we describe culture conditions to expand primary CF airway cells while preserving their ability to differentiate into 3D epithelial cultures expressing functional cystic fibrosis transmembrane conductance regulator (CFTR) ion channels that responds to CFTR modulators. METHODS: Primary CF airway cells were expanded using PneumaCultTM-Ex Plus (StemCell Technologies) medium with no feeder cells or added Rho kinase (ROCK) inhibitor. Differentially passaged CF-HBE cells at the air-liquid interface (ALI) were characterized phenotypically and functionally in response to the CFTR corrector drug VX-661 (Tezacaftor). RESULTS:CF-HBE primary cells, expanded up to six passages (~25 population doublings), differentiated into 3D epithelial cultures as evidenced by trans-epithelial electrical resistance (TEER) of >400 Ohms∙cm2 and presence of pseudostratified columnar ciliated epithelium with goblet cells. However, up to passage five cells from most donors showed increased CFTR-mediated short-circuit currents when treated with the corrector drug, VX-661. Ciliary beat frequency (CBF) also increased with the corrector VX-661. CONCLUSIONS: CF donor-derived airway cells can be expanded without the use of feeder cells or additional ROCK inhibitor, and still achieve optimal 3D epithelial cultures that respond to CFTR modulators. The study of rare CF mutations could benefit from cell expansion and could lead to the design of personalized medicine/treatments.
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