Apical potassium channels in the rat connecting tubule

doi:10.1152/ajprenal.00169.2004

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Apical potassium channels in the rat connecting tubule

Gustavo Frindt and Lawrence G. Palmer

Department of Physiology and Biophysics, Weill Medical College of Cornell University, New York, New York 10021

Submitted 6 May 2004 ; accepted in final form 23 July 2004

Apical membrane K channels in the rat connecting tubule (CNT)were studied using the patch-clamp technique. Tubules were isolatedfrom the cortical labyrinth of the kidney and split open toprovide access to the apical membrane. Cell-attached patcheswere formed on presumed principal and/or connecting tubule cells.The major channel type observed had a single-channel conductanceof 52 pS, high open probability and kinetics that were onlyweakly dependent on voltage. These correspond closely to the"SK"-type channels in the cortical collecting duct, identifiedwith the ROMK (Kir1.1) gene product. A second channel type,which was less frequently observed, mediated larger currentsand was strongly activated by depolarization of the apical membranevoltage. These were identified as BK or maxi-K channels. Thedensity of active SK channels revealed a high degree of clustering.Although heterogeneity of tubules or of cell types within atubule could not be excluded, the major factor underlying thedistribution appeared to be the presence of channel clusterson the membrane of individual cells. The overall density ofchannels was higher than that previously found in the corticalcollecting tubule (CCT). In contrast to results in the CCT,we did not detect an increase in the overall density of SK channelsin the apical membrane after feeding the animals a high-K diet.However, the activity of amiloride-sensitive Na channels wasundetectable under control conditions but was increased afterboth 1 day (90 ± 24 pA/cell) or 7 days (385 ±82 pA/cell) of K loading. Thus one important factor leadingto an increased K secretion in the CNT in response to increaseddietary K is an increased apical Na conductance, leading todepolarization of the apical membrane voltage and an increaseddriving force for K movement out into the tubular lumen.

ROMK; BK; potassium adaptation; ENaC; sodium channels

Address for reprint requests and other correspondence: L. G. Palmer, Dept. of Physiology and Biophysics, Weill Medical College of Cornell Univ., 1300 York Ave., New York, NY 10021 (E-mail: lgpalm{at}med.cornell.edu)

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