Resting K conductances in pacemaker and non-pacemaker heart cells of the rabbit.

Abstract

Currents through the inward rectifier K channel .**GRAPHIC**. and the ACh[acetylcholine]-operated K channel .**GRAPHIC**. were recorded in isolated heart cells of rabbit using the patch clamp technique with electrodes having 0.5-1 .mu.m tip inner diameter. The maximum number of overlaps of open .**GRAPHIC**. channels per patch was measured over 347 experiments. An average of 2.3 was found in ventricular cells and 0.03-0.06 in sinoatrial (S-A) and atrioventricular (A-V) node cells. The estimated total number of the .**GRAPHIC**. channels for each ventricular cell was great enough to supply the resting K conductance of the cell. The .**GRAPHIC**. channel was present in S-A and A-V node cells, but was never observed in the ventricular cells. The resting conductance of the nodal cells measured with whole cell clamp recordings was about 16 times smaller than that of the ventricular cells and was hardly decreased at all by the removal of K+ from the bath solution. The lower membrane potential of the nodal cells compared with that of the ventricular cells was attributed to the smaller K conductance of the resting membrane, which is due to the very low density of the .**GRAPHIC**. channel. The .**GRAPHIC**. channel, when activated by neural regulation, may play a major role in generating the resting K conductance of the nodal cells.