Immunohistochemical identification of lung cells responsive to beta-stimulation with a rise in cAMP.

To identify specific lung cells possessing functional beta-adrenergic receptors, we developed an immunoperoxidase-staining procedure capable of in situ localization of cells responding to beta-agonist stimulation with a rise in adenosine 3',5'-cyclic monophosphate (cAMP). Isoproterenol was instilled into the airways of excised intact guinea pig lungs for 5 min and resulted in a six to eightfold rise in cAMP. Immediately thereafter, the lungs were washed in and fixed with 10% buffered Formalin. Sections were then stained using immunoperoxidase techniques and monoclonal antibodies directed against cAMP. We found that isoproterenol-stimulated lungs had widespread increased staining for immunoreactive cAMP. The specific cells consistently demonstrating marked increases in staining were airway epithelial cells, airway smooth muscle cells, alveolar and parenchymal macrophages, and alveolar lining cells, including both type I and type II cells, and capillary endothelial cells. Of all tissues, the airway epithelium was the most intensely stained area for beta-agonist-induced immunoreactive cAMP. The techniques employed herein should make possible the in situ localization of cells responding to any stimuli capable of increasing cAMP, thereby allowing the specific identification of cells possessing functional adenylate cyclase-linked receptors.