Effects of repeated tiapride administration on anterior pituitary dopamine receptors and prolactin release in the rat

Abstract

The substituted benzamides tiapride and sulpiride, and the classic neuroleptic haloperidol, were studied in the rat to assess their interaction with the anterior pituitary (AP) dopamine (DA) receptors both in vitro ([3H]spiperone binding) and in vivo prolactin-PRL-release). Tiapride weakly inhibited [3H]spiperone binding in both pituitary and striatal membranes with affinity 5-7 times lower than sulpiride and 400-300 times lower than haloperidol. All three drugs were more potent in displacing [3H]spiperone from striatum than from AP. In vivo, tiapride produced weak and transient stimulation of PRL release reaching a full effect at 2 mg/kg i.p. Similar doses of sulpiride produced longer-lasting effects. Haloperidol was more potent than both benzamides. In prolonged treatments (15 or 60 days), tiapride, given twice daily at 0.5 mg/kg i.p., did not modify [3H]spiperone binding in either AP or striatum, nor did it induce significant changes of basal PRL levels. The challenge with a low threshold dose of TIA (0.2 mg/kg ip) produced similar increases of PRL release in the group either treated with TIA or saline. The data indicate that the benzamides examined have low potency for interaction with DA receptors in pituitary and striatum. In particular, tiapride displayed weaker affinity for AP-DA receptors than the other drugs and induced only slight stimulation of PRL levels. Results from repeated tiapride administration indicate that the drug, at a clinically relevant dose, is unable to modify either kinetic characteristics of DA receptors in the pituitary or plasma PRL levels.