Studies on rat sympathetic neurons developing in cell culture. III. Cholinergic transmission.

Principal neurons were dissociated from the superior cervical ganglia of newborn rats and grown in culture with several types of non-neuronal cells. As described in the second paper of this series, the neurons in such mixed cultures formed two types of excitatory synapses with each other, electrical and chemical. Evidence is presented here that transmission at the chemical synapses was cholinergic. Four nicotinic ganglionic blocking agents (curare, hexamethonium, tetraethylammonium, and mecamylamine) strongly attenuated or eliminated the excitatory postsynaptic potentials (e.p.s.p.'s) at moderate concentrations; atropine at relatively high concentrations also blocked transmission. Iontophoretic application of acetylcholine (ACh) to the surface of the neurons gave rise to depolarizations that could be made to resemble the e.p.s.p.'s in size and time course; the ACh potentials and the e.p.s.p.'s were then similarly affected by nicotinic blocking agents. The sensitivity to ACh was often distributed nonuniformly on the neuronal surface; it was common to find small, sharply localized regions of high sensitivity. Catecholamines (norepinephrine, epinephrine, and dopamine) had only inhibitory actions; in a few experiments adrenergic blocking agents (phenoxybenzamine, propranolol) were found to have no effect on the e.p.s.p.'s. These observations leave no doubt that the neurons released ACh and had ganglionic, nicotinic ACh receptors on their surfaces. The significance of the fact that a high proportion of the sympathetic neurons in mixed cultures formed cholinergic synapses is discussed.