Regulation of Murine Airway Surface Liquid Volume by CFTR and Ca2+-activated Cl- Conductances

doi:10.1085/jgp.20028599

Published 26 August 2002. doi:10.1085/jgp.20028599

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© Rockefeller University Press, 0022-1295/2002/9/407/ $5.00
Journal of General Physiology, Volume 120, Number 3, September 2002 407-418

Regulation of Murine Airway Surface Liquid Volume by CFTR and Ca²⁺-activated Cl^- Conductances

Robert Tarran¹, Matthew E. Loewen¹, Anthony M. Paradiso¹, John C. Olsen¹, Micheal A. Gray², Barry E. Argent², Richard C. Boucher¹ and Sherif E. Gabriel¹

¹ Cystic Fibsosis/Pulmonary Research and Treatment Center, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599
² Department of Physiological Sciences, The Medical School, Newcastle-upon-Tyne, NE2 4HH, United Kingdom

Two Cl^- conductances have been described in the apical membraneof both human and murine proximal airway epithelia that arethought to play predominant roles in airway hydration: (1) CFTR,which is cAMP regulated and (2) the Ca²⁺-activated Cl^- conductance(CaCC) whose molecular identity is uncertain. In addition tosecond messenger regulation, cross talk between these two channelsmay also exist and, whereas CFTR is absent or defective in cysticfibrosis (CF) airways, CaCC is preserved, and may even be up-regulated.Increased CaCC activity in CF airways is controversial. Hence,we have investigated the effects of CFTR on CaCC activity andhave also assessed the relative contributions of these two conductancesto airway surface liquid (ASL) height (volume) in murine trachealepithelia. We find that CaCC is up-regulated in intact murineCF tracheal epithelia, which leads to an increase in UTP-mediatedCl^-/volume secretion. This up-regulation is dependent on cellpolarity and is lost in nonpolarized epithelia. We find no rolefor an increased electrical driving force in CaCC up-regulationbut do find an increased Ca²⁺ signal in response to mucosalnucleotides that may contribute to the increased Cl^-/volumesecretion seen in intact epithelia. CFTR plays a critical rolein maintaining ASL height under basal conditions and accordingly,ASL height is reduced in CF epithelia. In contrast, CaCC doesnot appear to significantly affect basal ASL height, but doesappear to be important in regulating ASL height in responseto released agonists (e.g., mucosal nucleotides). We concludethat both CaCC and the Ca²⁺ signal are increased in CF airwayepithelia, and that they contribute to acute but not basal regulationof ASL height.

Key Words: cystic fibrosis • chloride • ion transport • trachea • airway epithelia

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