Properties of an inward rectifying K channel in the membrane of guinea-pig atrial cardioballs

Abstract

Single channel outward current fluctuations are recorded in excised (outside-out) membrane patches of isolated atrial cells in culture (cardioballs) from hearts of adult guinea-pigs. The ionic channel displays a high selectivity to K ions. Accordingly the reversal potential of the single channel current is close to the K equilibrium potential. The open channel conductance is unaffected by the membrane potential but depends on the K concentration of the outside solution (19.7pS at 2 mM K₀ to 30.7pS at 20 mM K₀). The open state probability (P₀) of the channel shows a marked voltage dependence. P₀ amounts to c.0.9 at −40mV and decreases to c.0.1 at +40mV. Under the assumption of no channel interaction a macroscopic steady state current voltage relationship is reconstructed from the single channel data. The relationship displays inward-going rectification. The rectification is due to the voltage dependence of P₀. TheI–V curve displays a negative slope at membrane potentials positive to −15 mV. In bathing solutions containing Ba ions (0.2 mM) P₀ is reduced by rapid closures which interrupt the open state events. The unit channel conductance is unaffected by Ba ions. The channel block exerted by Ba ions is augmented with increasing membrane hyperpolarization. The results suggest that the channel studied may represent a background K conductance.