2-Fluoro-, 5-fluoro-, and 6-fluoroisoproterenol were synthesized by reduction of the Schiff base formed between the corresponding ring-fluorinated 3,4-bis(benzyloxy)phenethanolamine and acetone, followed by reductive debenzylation in the presence of oxalic acid to yield crystalline neutral oxalates. The apparent beta-adrenergic potencies were determined in the isolated guinea pig atria. 2-Fluoro- and 5-fluoroisoproterenol were equipotent with (+/-)-isoproterenol, while 6-fluoroisoprotenol was virtually inactive. No alpha-adrenergic agonist activity (guinea pig aorta) was shown by any of the fluoroisoproterenols. Displacement of alpha- and beta-specific radioligands from isolated membrane preparations from rat brain by the fluoroisoproterenols were in agreement with the responses of the organ preparations. Thus, the apparent fluorine-induced specificity is due to specificity at the receptor binding site. The effects of fluorine substitution are discussed with regard to the apparent negative influence of the 6-fluoro substituent on the beta-agonist properties of isoproterenol, the lack of any increase in potency due to the 2-fluoro substituent, and the possibility of fluorine-induced changes in the electron density of the aromatic ring as a possible rational for the fluorine-induced specificity of both the fluoroisoproterenols and the fluoronoirepinephrines.