Interactions between dissociated rat sympathetic neurons and skeletal muscle cells developing in cell culture I. Cholinergic transmission

Sympathetic neurons, dissociated from superior cervical ganglia of newborn rats, and skeletal muscle cells were grown together in mass cultures containing many neurons (ca. 1000–3000) and myotubes, and in microcultures containing only one to three neurons and one or a few myotubes. When these neurons grow under the influence of certain nonneuronal cells many of them acquire cholinergic functions; in the absence of this influence they remain adrenergic. In the present study, the influence of the skeletal muscle cells was so effective that under certain conditions more than 75% of the neurons expressed cholinergic function as judged by their ability to form excitatory cholinergic synapses with myotubes (from rat and chick) and with each other. Stimulation of single neurons often gave rise in the myotubes to simple (direct) postsynaptic potentials (ejp's) and/or complex responses comprising a burst of ejp's that evoked one or more spikes; it appeared that these complex responses involved the activation of interneuronal pathways. In microcultures, a single neuron often made cholinergic synapses with itself (“autapse”) and/or with another neuron as well as with one or more myotubes. The nicotinic blocking agents, tubocurare (dTC), α-bungarotoxin (α-BuTx), and hexamethonium (C6), attenuated or abolished the ejp's at moderate concentrations; the muscarinic blocker, atropine, was effective only at high concentrations. At several neuron-myotube junctions, the acetylcholine (ACh) receptors had dTC sensitivity similar to adult extrajunctional receptors; however, when different junctions were pooled the average dTC sensitivity was intermediate between that of adult end plate and extrajunctional receptors. The junctional C6 sensitivity was much higher than expected from the action of the drug at the adult mammalian end plate. As in other studies, chemical transmission from neuron to neuron was also nicotinic cholinergic, but the nicotinic receptors on the myotubes were pharmacologically distinct from those on the neurons.