Dopamine actions in vitro on enzyme and electrolyte secretion from normal and sympathectomized rat parotid glands.

1. Adult rats were denervated unilaterally by removal of the left superior cervical ganglion or chemically denervated with 6-hydroxydopamine or reserpine. Two weeks later the parotid glands were used for in vitro secretory studies and their catecholamines and major metabolites were measured. 2. Noradrenaline concentrations were reduced 2 weeks after surgical sympathectomy and reserpine pre-treatment 18 h previously, whereas 6-hydroxydopamine pre-treatment for 3 days reduced both noradrenaline and dopamine concentrations. 3. Dopamine caused a prominent amylase release from incubated control glands. However, a subsensitivity for dopamine-induced amylase release was recorded on the denervated side. 4. Dopamine caused a prominent potassium efflux measured as 86Rb+ efflux from control glands, but was without effect in denervated glands. This is in contrast to noradrenaline-induced 86Rb+ efflux which was equally effective in both denervated and control glands. 5. Dopamine caused [3H]noradrenaline efflux in control glands, but was without effect in surgically denervated glands and in glands pre-treated with reserpine or 6-hydroxydopamine. 6. It is concluded that dopamine-induced potassium release is caused by a presynaptic action on noradrenergic nerves, whereas dopamine-induced amylase release has a presynaptic and a postsynaptic component. The results suggest a specific action of dopamine in salivary glands, with different effects on enzyme release and ionic fluxes.