Potentiation of a transient outward current by Na+ influx in crayfish neurones

Abstract

1. In voltage-clamped “motor-giant” neurones of the crayfishOrconectes limosus a depolarizing voltage step clicits a transient inward current carried by Na⁺ which is followed by an early and a delayed outward current. 2. The early outward current is reduced if the Na⁺ current is suppressed by tetrodotoxin or the removal of external Na⁺. It is also abolished if the K⁺ channel blocking agents tetraethylammonium and 3,4-diaminopyridine are applied to the neurone. 3. The outward current was not depressed if Li⁺ was substituted for Na⁺ in the external solution or if the Na−K pump was inhibited by ouabain or the removal of external K⁺. 4. Ionophoretic injections of EGTA did not depress the early outward current. 5. Short ionophoretic injections of Na⁺ into the neurone increased the outward current elicited by a depolarization but did not affect the leakage current. 6. It is suggested that the influx of Na⁺ leads to a transient increment of the Na⁺ concentration near K⁺ channels and that internal Na⁺ ions exert an activating or modulating effect on K⁺ channels.