Voltage-dependent K conductance at the apical membrane of Necturus gallbladder

Abstract

The epithelial and cellular effects of clamping the transepithelial potential (Vt, mucosa reference) have been investigated in the Necturus gallbladder. Following initial equilibration at short circuit, tissue conductance gt was 4.1 +/- 1.2 (SD) mS/cm2, the apical potential Va was -76 +/- 8 mV, and the apical fractional voltage on brief voltage perturbation (fa = delta Va/delta Vt, reflecting the ratio of apical membrane to transcellular resistance) was 0.72 +/- 0.11 (21 gallbladders, 34 impalements). On clamping Vt at positive values, Va depolarized and fa decreased; at the same time gt decreased. Clamping Vt at negative values produced converse effects. All of the above changes were related directly to the magnitude of the clamping potential Vt and were reversed on return to the short circuit state. Effects of Vt on fa are not due to changes in the extracellular pathway resistances (which, however, contribute to gt). Furthermore, the effects of Vt on fa were abolished by the mucosal application of TEA or Ba, or acidification of the mucosal solution. Thus, these experiments disclose the presence of a voltage-dependent apical K conductance that increases with apical membrane depolarization. The calculated dose-response curve of TEA inhibition of apical conductance and the values of the apparent dissociation constant were in good agreement with those found for K channels in excitable tissues. Mucosal application of the Ca ionophore A23187 shifted the voltage dependence curve of fa to more negative values of Va without altering its shape. The effect of A23187 suggests a possible role of intracellular Ca in the modulation of the apical K channels.