CENTRAL DOPAMINERGIC ORIGIN OF BROMOCRIPTINE INDUCED TACHYCARDIA IN NORMOTENSIVE RATS

Objectives: This study was undertaken to investigate the mechanism of the tachycardic effect of bromocriptine, a specific dopamine D-2 receptor agonist, which is not abolished, as previously reported, by intravenous domperidone, a selective dopamine D-2 antagonist unable to cross the blood brain barrier. Two hypotheses were tested: (1) that the increase in heart rate after intravenous treatment with bromocriptine could be related to central dopamine receptor.stimulation and (2) that it could be induced by a release of adrenaline from the adrenal medulla. Methods: Changes in mean aortic pressure and heart rate, induced by treatment with 150 mug.kg-1 bromocriptine intravenously, were measured in conscious or anaesthetised normal or adrenalectomised rats submitted to various pretreatments. Results: In conscious intact rats, intravenous bromocriptine decreased mean aortic pressure (-11 (SEM 1) mm Hg) and increased heart rate (62(12)) beats.min-1). Both effects were prevented by intravenous pretreatment (0.3 mg.kg-1) with dopamine D-2 receptor antagonists able to cross the blood brain barrier, such as haloperidol, sulpiride, and metoclopramide. In anaesthetised rats, domperidone (50 and 20 mug-kg-1) given via a lateral cerebral ventricle abolished the bromocriptine induced tachycardia without affecting the hypotensive response. Both effects were unchanged after bilateral adrenalectomy but were completely abolished by intravenous haloperidol pretreatment (0.3 mg-kg-1) in conscious adrenalectomised rats. Conclusions: These results suggest that in anaesthetised and conscious normotensive rats, the bromocriptine induced tachycardia is not related to a release of adrenaline from the adrenal medulla but could be elicited by central dopamine D-2 receptor stimulation through a possible increase in cardiac sympathetic tone.