Abstract

1 The effect of K-depolarization on the uptake of low and high concentrations of [3H]-choline by isolated superior sympathetic ganglia of the rat has been studied. 2 In unstimulated ganglia, the uptake of [3H]-choline (0.1 microM) ('high affinity uptake') was unaffected by denervation or by hemicholinium-3 (HC-3), suggesting uptake by structures other than cholinergic nerve terminals. 3 K-depolarization of the ganglia increased [3H]-choline accumulation by the high affinity uptake process but in contrast the 'low affinity' accumulation of [3H]-choline (100 microM) was decreased. 4 The K-activated, 'high affinity' component of choline uptake was highly sodium-dependent, inhibited by HC-3, and was abolished by denervation. 5 In incubation conditions designed to prevent transmitter release (Ca-free medium and high-Mg medium), the K-activated uptake of [3H]-choline was abolished. 6 It is concluded that in unstimulated ganglia, there is little choline uptake by nerve terminals. However, when the terminals are depolarized, choline uptake is increased by the activation of a sodium-dependent, HC-3-sensitive transport process. The activation of this uptake process is apparently associated with the release of acetylcholine from the terminals, or by changes in ionic fluxes, and not by the depolarization per se.

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