Primary Human Nasal Epithelial Cells: Biobanking in the Context of Precision Medicine

Human nasal epithelial (HNE) cells are easy to collect by simple, non-invasive nasal brushing. Patient-derived primary HNE cells can be amplified and differentiated into a pseudo-stratified epithelium in air-liquid interface conditions to quantify cyclic AMP-mediated Chloride (Cl-) transport as an index of Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) function. If critical steps such as quality of nasal brushing and cell density upon cryopreservation are performed efficiently, HNE cells can be successfully biobanked. Moreover, short-circuit current studies demonstrate that freeze-thawing does not significantly modify HNE cells' electrophysiological properties and response to CFTR modulators. In the culture conditions used in this study, when less than 2 x 106 cells are frozen per cryovial, the failure rate is very high. We recommend freezing at least 3 x 106 cells per cryovial. We show that dual therapies combining a CFTR corrector with a CFTR potentiator have a comparable correction efficacy for CFTR activity in F508del-homozygous HNE cells. Triple therapy VX-445 + VX-661 + VX-770 significantly increased correction of CFTR activity compared to dual therapy VX-809 + VX-770. The measure of CFTR activity in HNE cells is a promising pre-clinical biomarker useful to guide CFTR modulator therapy.

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CFTR