Issue 12, 2024

Dynamic measurement of airway surface liquid volume with an ex vivo trachea-chip

Abstract

The volume and composition of airway surface liquid (ASL) is regulated by liquid secretion and absorption across airway epithelia, controlling the pH, solute concentration, and biophysical properties of ASL in health and disease. Here, we developed a method integrating explanted tracheal tissue with a micro-machined device (referred to as “ex vivo trachea-chip”) to study the dynamic properties of ASL volume regulation. The ex vivo trachea-chip allows real-time measurement of ASL transport (Jv) with intact airway anatomic structures, environmental control, high-resolution, and enhanced experimental throughput. Applying this technology to freshly excised tissue we observed ASL absorption under basal conditions. The apical application of amiloride, an inhibitor of airway epithelial sodium channels (ENaC), reduced airway liquid absorption. Furthermore, the basolateral addition of NPPB, a Cl channel inhibitor, reduced the basal rate of ASL absorption, implicating a role for basolateral Cl channels in ASL volume regulation. When tissues were treated with apical amiloride and basolateral methacholine, a cholinergic agonist that stimulates secretion from airway submucosal glands, the net airway surface liquid production shifted from absorption to secretion. This ex vivo trachea-chip provides a new tool to investigate ASL transport dynamics in pulmonary disease states and may aid the development of new therapies targeting ASL regulation.

Graphical abstract: Dynamic measurement of airway surface liquid volume with an ex vivo trachea-chip

Supplementary files

Article information

Article type
Paper
Submitted
09 Feb 2024
Accepted
13 May 2024
First published
23 May 2024
This article is Open Access
Creative Commons BY-NC license

Lab Chip, 2024,24, 3093-3100

Dynamic measurement of airway surface liquid volume with an ex vivo trachea-chip

M. Scott, L. Lei, K. C. Bierstedt, P. B. McCray and Y. Xie, Lab Chip, 2024, 24, 3093 DOI: 10.1039/D4LC00134F

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