Ba2+-sensitive potassium permeability of the apical membrane in newt kidney proximal tubule

Summary The apical membrane K⁺ permeability of the newt proximal tubular cells was examined in the doubly perfused isolated kidney by measuring the apical membrane potential change (V_a change) during alteration of luminal K⁺ concentration and resultant voltage deflections caused by current pulse injection into the lumen.V_a change/decade for K⁺ was 50 mV at K⁺ concentration higher than 25mm, and the resistance of the apical membrane decreased bt 58% of control when luminal K⁺ concentration was increased from 2.5 to 25mm. Ba²⁺ (1mm in the lumen) reducedV_a change/decade to 24 mV and increased the apical membrane resistance by 70%. These data support the view that Ba²⁺-sensitive K⁺ conductance exists in the apical membrane of the newt proximal tubule. Furthermore, intracellular K⁺ activity measured by K⁺-selective electrode was 82.4 ± 3.6 meq/liter, which was higher than that predicted from the Nernst equation for K⁺ across both cell membranes. Thus, it is concluded that cell K⁺ passively diffuses, at least in part, through the K⁺ conductive pathway of the apical membrane.