Two Distinct K+ Channels in Lamprey (Lampetra fluviatilis) Erythrocyte Membrane Characterized by Single Channel Patch Clamp

Two channels, distinguished by using single-channel patch-clamp, carry out potassium transport across the red cell membrane of lamprey erythrocytes. A small-conductance, inwardly rectifying K⁺-selective channel was observed in both isotonic and hypotonic solutions (osmolarity decreased by 50%). The single-channel conductance was 26 ± 3 pS in isotonic (132 mm K⁺) solutions and 24 ± 2 pS in hypotonic (63 mm K⁺) solutions. No outward conductance was found for this channel, and the channel activity was completely inhibited by barium. Cell swelling activated another inwardly rectifying K⁺ channel with a larger inward conductance of 65 pS and outward conductance of 15 pS in the on-cell configuration. In this channel, rectification was due to the block of outward currents by Mg²⁺ and Ca²⁺ ions, since when both ions were removed from the cytosolic side in inside-out patches the conductance of the channel was nearly ohmic. In contrast to the small-conductance channel, the swelling-activated channel was observed also in the presence of barium in the pipette. Neither type of channel was dependent on the presence of Ca²⁺ ions on the cytosolic side for activity. Received: 18 July 1997/Revised: 30 January 1998