Journal
FASEB JOURNAL
Volume 21, Issue 10, Pages 2389-2399Publisher
FEDERATION AMER SOC EXP BIOL
DOI: 10.1096/fj.06-7694com
Keywords
DEG/ENaC family; patch-clamp; outside-out; Xenopus oocyte
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Epithelial cells are exposed to a variety of mechanical forces, but little is known about the impact of these forces on epithelial ion channels. Here we show that mechanical activation of epithelial sodium channels ( ENaCs), which are essential for electrolyte and water balance, occurs via an increased ion channel open probability. ENaC activity of heterologously expressed rat ( rENaC) and Xenopus ( xENaC) orthologs was measured by whole-cell as well as single-channel recordings. Laminar shear stress ( LSS), producing shear forces in physiologically relevant ranges, was used to mechanically stimulate ENaCs and was able to activate ENaC currents in whole-cell recordings. Preceding pharmacological activation of rENaC with Zn2+ and xENaC with gadolinium and glibenclamide largely prevented LSS-activated currents. In contrast, proteolytic cleavage with trypsin potentiated the LSS effect on rENaC whereas the LSS effect on xENaC was reversed ( inhibition of xENaC current). Further, we found that exposure of excised outside-out patches to LSS led to an increased ion channel open probability without affecting the number of active channels. We suggest that mechano-sensitivity of ENaC may represent a ubiquitous feature for the physiology of epithelia, providing a putative mechanism for coupling transepithelial Na+ reabsorption to luminal transport.
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