Reflection confocal microscopy for quantitative assessment of airway surface liquid dysregulation and pharmacological rescue in cystic fibrosis under near-physiological conditions

Abstract

ABSTRACTProper regulation of airway surface liquid (ASL) is essential for effective mucociliary clearance (MCC) in healthy airways, and ASL depletion due to deficient cystic fibrosis transmembrane conductance regulator (CFTR)-mediated anion/fluid secretion plays an important role in the pathogenesis of mucociliary dysfunction and chronic muco-obstructive lung disease in patients with cystic fibrosis (CF). The current standard for quantitative measurements of ASL height is confocal fluorescence microscopy that has the disadvantage that it requires apical addition of volume for fluorescent staining, and hence perturbation of the ASL. Therefore, our aim was to develop a method that enables studies of ASL regulation under unperturbed conditions using reflected light by confocal microscopy of primary airway epithelial cultures grown at air-liquid interface (ALI). After apical volume addition to primary tracheal mouse cultures, confocal reflection microscopy yielded comparable ASL height as confocal fluorescence microscopy on cultures of wild-type mice, and was sensitive to detect ASL depletion on cultures of βENaC-Tg mice. Under unperturbed conditions, ASL determined by confocal reflection microscopy was significantly higher in wild-type and βENaC-Tg mice compared to values obtained by confocal fluorescence microscopy. Studies in normal and CF primary human airway epithelial cultures showed that confocal reflection microscopy was sensitive to detect effects of low temperature rescue and pharmacological modulation including improvement of CFTR function by VX-809 and VX-770 in cultures from CF patients with the F508del mutation. Our results support confocal reflection microscopy as a novel sensitive technique for quantitative studies of ASL regulation and response to therapeutic intervention under unperturbed near-physiological conditions in healthy and CF airways.NEW & NOTEWORTHYMeasurement of airway surface liquid (ASL) height by confocal fluorescence microscopy is an important tool to investigate ASL dysregulation and effects of therapeutic strategies aiming at restoring ASL volume to improve mucociliary clearance and lung function in patients with cystic fibrosis. However, confocal fluorescence microscopy has the disadvantage that it requires apical addition of volume for fluorescent staining of the ASL leading to perturbation of its height and composition. Here, we developed confocal reflection microscopy as a new method that enables quantitative assessment of ASL on highly-differentiated primary airway epithelial cultures under unperturbed near-physiological conditions by detection of refracted light.