Long-lasting inward current in snail neurons in barium solutions in voltage-clamp conditions

Summary The inward membrane current was recorded under voltage clamp from nonbursting neurons of the snailHelix pomatia in Na-free solutions containing Ba ions but no other divalent cations. The inward current was separated into two components: (i) an early fast inactivating component and (ii) a smaller long-lasting component. Both components were dependent on the external Ba concentration. It is concluded that both components of the inward current are carried by Ba ions. The activation of the early fast inactivating component of the inward current occurred at more positive membrane potential than that of the long-lasting component. The shape of the inactivation curve for the peak value of the inward current was similar to that for the long-lasting component. The potentials of half-inactivation for the peak value of the inward current and for its long-lasting component were –28 and –22 mV, respectively. The blocking effect of Co⁺⁺ on the early fast inactivating component was substantially greater. In some neurons after treatment with 15mm Co⁺⁺ only the long-lasting component was recorded. The activation kinetics of the long-lasting component of the inward current were analyzed using the Hodgkin-Huxley equations. The results could be explained by assuming that two components of the inward current in Na–Ca-free solution with Ba ions flowed through the two different channels. The significance of the long-lasting inward current for the normal spike generation is discussed.