The use of pharmacological inhibitors of protein kinases represents a potentially powerful tool in dissecting the regulatory features of intracellular signaling pathways. However, although the in vitro potency, selectivity, and efficacy of numerous kinase inhibitors have been characterized, little is known regarding the usefulness of these compounds as inhibitors in intact cells. In attempting to characterize the role of protein kinase A (PKA) in regulating thebeta-2 adrenergic receptor (AR) in human airway cells, we observed a seemingly profound capacity of the isoquinoline H-89, a potent and widely used PKA inhibitor, to attenuate agonist-mediated desensitization of the beta-2 AR. Although additional experiments identified H-89 as an effective inhibitor of intracellular PKA, extended analysis of the compound determined the principal effect of H-89 was via its action as a beta-2 AR antagonist. Pretreatment with or the acute addition of H-89 significantly attenuated isoproterenol-stimulated cAMP accumulation. In cells pretreated with H-89 and then washed extensively, the subsequent dose-dependent response to isoproterenol suggestedbeta-2 AR antagonism by retained H-89. Competition binding of [¹²⁵I]iodopindolol establishedK _i values of ∼180 nM and 350 nM for H-89 antagonism of beta-2 AR and beta-1 AR, respectively. Additional receptor binding studies suggest selectivity of H-89 for the beta-2 AR and beta-1 AR, although a weak antagonism (K _i values of ∼10 μM or greater) of other G protein-coupled receptors was observed. Results from additional pharmacological and biochemical analyses of various protein kinase inhibitors further established the need for careful characterization of pharmacological inhibitors when used in intact cell models.