EFFECTS OF CALCIUM ION ON THE RISING PHASE OF THE ACTION POTENTIAL IN RABBIT SINOATRIAL NODE CELLS

Abstract

To clarify the role of Ca2+ in the rising phase of the sinoatrial (S-A) node action potential, the sigmoidal relationship between the maximum rate of rise of the action potential and the maximum diastolic potential was examined at various concentrations of Ca. The membrane potential was changed by applying a current across a single sucrose gap. The sigmoidal curve shifted toward the positive potential without a change in maximum value when the Ca concentration was increased from nominal zero to 10 mM. Therefore, Ca2+ modifies the inactivation process of Na current which is responsible for the rapid rising phase of the S-A node action potential. The duration of the action and the maximum diastolic potential were decreased with an increased in Ca concentration. The observation that the overshoot of the action potential increased by 12 mV for a 10-fold increase in concentration of Ca (within the range of 0.1-5.0 mM) suggests that the inward current of Ca2+ may be responsible for the overshoot of the S-A node action potential.