The dopamine receptor of the rat mammotroph in cell culture as a model for drug action

Abstract

Dopamine can act directly on pituitary cells to inhibit prolactin release. This action can be blocked by dopamine receptor blocking drugs such as haloperidol, sulpiride and other neuroleptic agents. Comparison of the properties of the mammotroph dopamine receptor with the adenylate cyclase linked dopamine receptor of the limbic forebrain reveals some obvious differences. For example, dopamine receptor stimulants such as S-584 and lergotrile mesylate are inactive in stimulating the adenylate cyclase preparations but are potent in inhibiting pituitary prolactin secretion. Such inhibition of prolactin secretion can be reversed by haloperidol or sulpiride. In contrast to these observations, sulpiride does not block dopamine stimulation of cAMP formation. In addition, dopamine, apomorphine or lergotrile mesylate have no effect on a pituitary adenylate cyclase preparation and dopamine fails to elevate cAMP in the intact cells in culture. Despite the similarity between these two dopamine sensitive systems with respect to a number of agonists and antagonists, the exceptions described suggest that the pituitary system with further study may offer some greater reliability as a predictive test for clinically useful agents. These results also suggest that the receptors for dopamine, like that for norepinephrine, are of two types, only one of which is coupled to adenylate cyclase.