Mutations in the tuberous sclerosis 2 (TSC2) gene product have been genetically linked to the pathology of both tuberous sclerosis (TSC) and the gender-specific lung disease, lymphangioleiomyomatosis (LAM). Both diseases are classified as disorders of cellular migration, proliferation, and differentiation. Earlier studies from our laboratory (1) linked TSC2 with steroid/nuclear receptor signaling. Studies presented here provide evidence for calmodulin (CaM) signaling in the propagation of this TSC2 activity. Far Western screening of a lambda phage human brain cDNA library to identify interacting proteins for the TSC2 gene product (tuberin) yielded multiple clones encoding human CaM. Direct binding with 32P-labeled tuberin demonstrated Ca2+-dependent binding to CaM-Sepharose which was lost upon deletion of the C-terminal 72 residues. The sequence (1740)WIARLRHIKRLRQRIC(1755) was identified as one capable of forming a basic amphipathic helix indicative of CaM binding domains in known calmodulin binding proteins. Studies with a synthetic peptide of this sequence demonstrated very tight Ca2+-dependent binding to CaM as judged by tryptophan fluorescence perturbation studies and phosphodiesterase activation by CaM. Deletion mutagenesis studies further suggested that this CaM binding domain is required for tuberin modulation of steroid receptor function and that mutations in this region may be involved in the pathology of TSC and LAM.