The presence of phenylethanolamine-N-methyl transferase in those brain-stem nuclei where methyldopa is thought to act suggested to us that methylepinephrine could be an active metabolite of methyldopa. We assessed the potential of methylepinephrine to be an active metabolite by determining its capacity to compete for ligands which bind to alpha-receptors in rat brain. Thus, the abilities of epinephrine, norepinephrine, methyldopa, (+/-)-methylnorepinephrine and (+/-)-methylepinephrine to compete for alpha 1-([3H]WB-4101) and alpha 2-([3H]clonidine) binding sites in rat brain wee compared. Order of potency at each binding site was: [3H]WB-4101 -- (-)epinephrine = (-)-norepinephrine greater than (+/-)-methylnorepinephrine greater than (+/-)-methylepinephrine much greater than (-)-methyldopa; [3H]clonidine -- (-)-epinephrine greater than (+/-)-methylnorepinephrine greater than (-)-norepinephrine greater than (+/-)-methylepinephrine much greater than (-)-methyldopa. Since it can compete with a specific ligand for alpha 2-receptors, methylepinephrine could be a centrally active metabolite of methyldopa.