Cyclic guanosine 3':5'-monophosphate accumulation and 45Ca-uptake by rat superior cervical ganglia during preganglionic stimulation.

Repetitive preganglionic nerve stimulation increases cyclic guanosine 3':5'-monophosphate (cGMP) content in rat superior cervical ganglia by a mechanism requiring Ca++ but resistant to blockade by cholinergic receptor antagonists. Similarly, 45Ca-uptake during prolonged preganglionic nerve stimulation is unaffected by hexamethonium or atropine. These findings indicate that nerve stimulation increases cGMP accumulation and 45Ca-uptake by a noncholinergic mechanism Substance P, met-enkephalin and luteinizing hormone-releasing factor have little or no effect on cGMP content. By contrast, bethanechol causes a 3-fold increase in cGMP content and postganglionic cell firing. Thus, as reported by others, muscarinic receptor activation increases ganglionic cGMP[. 4-Aminopyridine causes an increase in cGMP of resting ganglia that requires Ca++ and the nerve terminal is blocked by tetrodotoxin but unaffected by atropine or hexamethonium. Ouabain also increases ganglionic cGMP content by a process that requires Ca++ and the nerve terminals. Like preganglionic nerve stimulation, 4-aminopyridine and ouabain cause cGMP accumulation in the nerve terminals or in the ganglion cells as a consequence of releasing a noncholinergic transmitter. The uptake of Ca++ by ganglion cells is not an adequate stimulus for cGMP accumulation because the nicotinic receptor agonist dimethylphenylpiperazinium increases 45Ca-uptake but has no effect on cGMP formation in ganglia.