An external site controls closing of the epithelial Na+ channel ENaC

doi:10.1113/jphysiol.2002.022020

An external site controls closing of the epithelial Na⁺ channel ENaC

Stephan Kellenberger, Ivan Gautschi and Laurent Schild

Institut de Pharmacologie et de Toxicologie, Bugnon 27, Université de Lausanne, CH-1005 Lausanne, Switzerland

Members of the ENaC/degenerin family of ion channels include the epithelial sodium channel (ENaC), acid-sensing ion channels (ASICs) and the nematode Caenorhabditis elegans degenerins. These channels are activated by a variety of stimuli such as ligands (ASICs) and mechanical forces (degenerins), or otherwise are constitutively active (ENaC). Despite their functional heterogeneity, these channels might share common basic mechanisms for gating. Mutations of a conserved residue in the extracellular loop, namely the 'degenerin site' activate all members of the ENaC/degenerin family. Chemical modification of a cysteine introduced in the degenerin site of rat ENaC ( $beta$ S518C) by the sulfhydryl reagents MTSET or MTSEA, results in a ~3-fold increase in the open probability. This effect is due to an 8-fold shortening of channel closed times and an increase in the number of long openings. In contrast to the intracellular gating domain in the N-terminus which is critical for channel opening, the intact extracellular degenerin site is necessary for normal channel closing, as illustrated by our observation that modification of $beta$ S518C destabilises the channel closed state. The modification by the sulfhydryl reagents is state- and size-dependent consistent with a conformational change of the degenerin site during channel opening and closing. We propose that the intracellular and extracellular modulatory sites act on a common channel gate and control the activity of ENaC at the cell surface.

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				D. Cucu, J. Simaels, J. Eggermont, W. Van Driessche, and W. Zeiske Opposite effects of Ni2+ on Xenopus and rat ENaCs expressed in Xenopus oocytes Am J Physiol Cell Physiol, October 1, 2005; 289(4): C946 - C958. [Abstract] [Full Text] [PDF]

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