Mutant cells varying in the pathways of their responses to hormonal stimulation are useful in defining the subcellular steps in the mechanisms of hormone action. FRTL5, a strain of normal and differentiated cells originally derived from adult rat thyroids, which depends on TSH for growth in vitro, was used to produce five TSH-independent mutants, after chemical mutagenesis and selection in medium lacking TSH. Their characterization and comparison with wild type cells demonstrated full retention of differentiated thyroid function markers such as thyroglobulin production and active iodide transport, and a slower growth rate. Characterization of cAMP metabolism in mutants revealed levels of basal cAMP and adenylate cyclase and phosphodiesterase activities similar to those of wild type cells kept in a nonproliferative state in medium lacking TSH. Adenylate cyclase responsiveness to very low doses of TSH (10(-12) M) was fully retained in all mutant clones, but the TSH-dependent cAMP elevation, although comparable to that reported in wild type cells, was not followed by significant growth stimulation in mutants. These findings demonstrate that the persistence of functional TSH receptors in these cells and that of growth regulation in them is independent of cAMP elevation.