The role of regulated CFTR trafficking in epithelial secretion

doi:10.1152/ajpcell.00554.2002

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The role of regulated CFTR trafficking in epithelial secretion

Carol A. Bertrand and Raymond A. Frizzell

Department of Cell Biology and Physiology, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania 15261

The focus of this review is the regulated trafficking of thecystic fibrosis transmembrane conductance regulator (CFTR)in distal compartments of the protein secretory pathway andthe question of how changes in CFTR cellular distribution mayimpact on the functions of polarized epithelial cells. We summarizedata concerning the cellular localization and activity of CFTRand attempt to synthesize often conflicting results from functionalstudies of regulated endocytosis and exocytosis in CFTR-expressingcells. In some instances, findings that are inconsistent withregulated CFTR trafficking may result from the use of overexpressionsystems or nonphysiological experimental conditions. Nevertheless,judging from data on other transporters, an appropriate cellularcontext is necessary to support regulated CFTR trafficking,even in epithelial cells. The discovery that disease mutations can influence CFTR trafficking in distal secretory and recyclingcompartments provides support for the concept that regulatedCFTR recycling contributes to normal epithelial function, includingthe control of apical CFTR channel density and epithelial proteinsecretion. Finally, we propose molecular mechanisms for regulatedCFTR endocytosis and exocytosis that are based on CFTR interactionswith other proteins, particularly those whose primary functionis membrane trafficking. These models provide testable hypotheses that may lead to elucidation of CFTR trafficking mechanismsand permit their experimental manipulation in polarized epithelialcells.

cystic fibrosis transmembrane conductance regulator; membrane traffic; chloride channel; protein secretion

Address for reprint requests and other correspondence: R. A. Frizzell, Dept. of Cell Biology and Physiology, Univ. of Pittsburgh School of Medicine, S362 BST, 3500 Terrace St., Pittsburgh, PA 15261 (E-mail: Frizzell{at}pitt.edu).

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