A Ca-dependent K channel in “luminal” membranes from the renal outer medulla

Abstract

Summary This paper describes properties of⁸⁶Rb fluxes through K channels in “luminal” membrane vesicles prepared from rabbit renal outer medulla. By measuring⁸⁶Rb uptake against an opposing chemical gradient of K ions, using membranes loaded with KCl, a transient accumulation of isotope is observed, which is blocked by Ba ions. This is the behavior expected of a conductive Rb flux through a Ba-sensitive K channel. The⁸⁶Rb accumulation is driven by an electrical diffusion potential as shown in experiments using either vesicles loaded with different anions, or an outwardly directed Li gradient with a Li ionophore. The vesicles containing the channel show a cation selectivity with the order Rb > K > Cs > Li > Na > choline. The Ba-sensitive Rb flux is dependent on Ca within the vesicles, with a very high affinity estimated asK _0.5 10 to 100nm. The vesicles appear to be right-side-out. The Ba-sensitive⁸⁶Rb uptake is also inhibited by quinineK _0.5 30 μm but is insensitive to tetraethyl ammonium ions and apamin. These isotope flux experiments complement electrophysiological experiments in providing independent evidence for the existence of K channels in the luminal surface of cells of this ascending limb of the loop of Henle. The very high Ca affinity suggests that cytoplasmic Ca could play an important role in regulation of transepithelial salt flux in this region of the nephron.