K+ channels in the basolateral membrane of rat cortical collecting duct

Impalement studies in isolated perfused cortical collecting ducts (CCD) of rats have shown that the basolateral membrane possesses a K⁺ conductive pathway. In the present study this pathway was investigated at the single-channel level using the patch-clamp technique. Patch-clamp recordings were obtained from enzymatically isolated CCD segments and freshly isolated CCD cells with the conventional cell-free, cell-attached and the cell-attached nystatin method. Two K⁺ channels were found which were highly active on the cell with a conductance of 67±5 pS (n=18) and 148±4 pS (n=21) with 145 mmol/l K⁺ in the pipette. In excised patches the first channel had a conductance of 28±2 pS (n=15), whereas the second one had a conductance of 85±1 pS (n=53) at 0 mV clamp voltage with 145 mmol/l K⁺ on one side and 3.6 mmol/l K⁺ on the other side of the membrane. So far it has not been possible to characterize the smaller channel further. Excised, and with symmetrical K⁺ concentrations of 145 mmol/l, the intermediate channel had a linear conductance of 198±19 pS (n=5). After excision in the inside-out configuration the open probability (P _o) of this channel was low (0.18±0.05, n=13) whereas in the outside-out configuration this channel had a threefold higher P _o (0.57±0.04, n=12). Several inhibitors were tested in excised membranes. Ba²⁺ (1 mmol/l), tetraethylammonium (TEA⁺, 10 mmol/l) and verapamil (0.1 mmol/l) all blocked this channel reversibly. Furthermore P _o was reversibly reduced by 10 nmol/l charybdotoxin (outside-out). This K⁺ channel of the basolateral membrane was regulated by cellular pH. P _o was reduced to 26±3% at pH 6.5 (n=6) and increased to 216±18% at pH 8.5 (n=7) compared to pH 7.4. Half-maximal inhibition was reached at pH 7.0. The channel had its highest P _o at a Ca²⁺ activity of less than 10^–8 mol/l (n=13). Increasing the Ca²⁺ activity to 1 mmol/l on the cytosolic side of the membrane resulted in a reduction of P _o to 13±3% (n=11). Half-maximal inhibition was reached at a Ca²⁺ activity of 10^–5 mol/l. The high activity of both K⁺ channels of the basolateral membrane on the cell indicates that they may serve for K⁺ recirculation across the basolateral membrane.