Single voltage-dependent and outward rectifying K+-channels in isolated rat heart cells

Abstract

Studies on single K⁺-channel currents recorded from isolated rat heart muscle cells, in which early repolarization is known to be exceptionally fast, are reported here. A K⁺-channel which is blocked by TEA (tetraethylammonium) from the inside only has been found. The total open time of the channel, measured in steady-state after activation, indicated outward rectifying properties. The single channel conductance increases with depolarization from 25 pS at-70 mV to 75 pS at+70 mV. Selectivity of the channel has also been measured and it was found that only Rb⁺ and K⁺ can permeate the channel, whereas the permeability (P) for Li⁺, Na⁺, Cl^-, Mg²⁺, and Ca²⁺ is less than 0.05 times \({\text{P}}_{{\text{K}}^{\text{ + }} } \) . Ba²⁺ and Cs⁺ block the channel activity. These results clearly demonstrate the existence of K⁺-selective outward rectifying conductance pathways in rat ventricular myocytes.