Modification of voltage-sensitive inactivation of Na+ current by external Ca2+ in the marine dinoflagellateNoctiluca miliaris

Effects of the external Ca²⁺ concentration on the depolarization-induced transient inward Na⁺ current responsible for the Na⁺ spike in the dinoflagellate Noctiluca miliaris were examined. The peak value and the duration of the Na⁺ current increased when lowering the external Ca²⁺ concentration. The threshold potential level for activation and the reversal potential level of the current were not affected by the external Ca²⁺ concentration. The inactivation took place even in a solution containing EGTA with very low (<10^–9M) Ca²⁺ concentration. Voltage dependency of the inactivation was scarcely affected by the external Ca²⁺ concentration. It is concluded that inactivation of Na⁺ channels responsible for the current is dependent on membrane depolarization and that the external Ca²⁺ modulates the inactivation kinetics. Appearance of a Na⁺ spike in a solution with reduced Ca²⁺ concentration is caused by a lowered rate of inactivation of the Na⁺ channels.