Eight days after bilateral superior cervical ganglionectomy (Gx) of rats, norepinephrine content of medial basal hypothalamus (MBH) decreased significantly by 44-50%. To obtain information on other possible neurochemical sequela of Gx in MBH, we examined the metabolism of dopamine and serotonin in MBH of Gx rats by employing a high pressure liquid chromatography procedure. Eight days after Gx, MBH dopamine levels augmented significantly. Assessment of dopamine metabolism by measuring dihydroxyphenylacetic acid (DOPAC)/dopamine and homovanillic acid (HVA)/dopamine indexes indicated a significant decrease of MBH DOPAC/dopamine ratio after Gx. MBH serotonin levels increased, and 5-hydroxyindoleacetic acid (5-HIAA)/serotonin index decreased significantly in Gx rats. To examine the interaction Gx-induced changes on MBH dopamine and serotonin with the modified hormonal milieu produced by an ectopic pituitary transplant, adult male rats bearing an ectopic pituitary within the pectoral muscles from day 5 of life were submitted to Gx on day 60 of life and were studied 8 days later. MBH dopamine content increased significantly after pituitary grafting, an effect counteracted by a subsequent Gx, while Gx alone augmented MBH dopamine levels. DOPAC and HVA contents augmented in pituitary-grafted animals, an effect counteracted by Gx. Gx increased MBH serotonin content in control but not in pituitary-grafted rats. After pituitary grafting a decrease in MBH 5-HIAA levels was found, an effect reversed by Gx. Pituitary transplants brought about a significant increase of MBH DOPAC/dopamine index, and a significant decrease in 5-HIAA/serotonin index, both effects being counteracted by Gx. Gx of control rats resulted in a significant decrease of MBH 5-HIAA/serotonin index. Analyzed as a main effect in a factorial analysis of variance, Gx decreased MBH DOPAC/dopamine and HVA/dopamine indexes significantly. Plasma prolactin increased in pituitary-grafted rats, an effect further increased by a subsequent Gx. In pituitary-grafted, Gx rats plasma GH levels augmented significantly. The data suggest that superior cervical ganglion removal affects differentially dopamine and indoleamine metabolism in MBH of control and pituitary-grafted rats.