Parathyroid hormone receptor directly interacts with dishevelled to regulate beta-Catenin signaling and osteoclastogenesis.

Bone growth and remodeling depend upon the opposing rates of bone formation and resorption. These functions are regulated by intrinsic seven transmembrane-spanning receptors, the parathyroid hormone receptor (PTH1R) and frizzled (FZD), through their respective ligands, parathyroid hormone (PTH) and Wnt. FZD activation of canonical beta-catenin signaling requires the adapter protein Dishevelled (Dvl). We identified a Dvl-binding motif in the PTH1R. Here, we report that the PTH1R activates the beta-catenin pathway by directly recruiting Dvl, independent of Wnt or LRP5/6. PTH1R coimmunoprecipitated with Dvl. Deleting the carboxyl-terminal PTH1R PDZ-recognition domain did not abrogate PTH1R-Dvl interactions; nor did truncating the receptor at position 480. However, further deletion eliminating the putative Dvl recognition domain abolished PTH1R interactions with Dvl. PTH activated beta-catenin in a time- and concentration-dependent manner and translocated beta-catenin to the nucleus. beta-Catenin activation was inhibited by Dvl2 dominant negatives and by short hairpin RNA sequences targeted against Dvl2. PTH-induced osteoclastogenesis was also inhibited by Dvl2 dominant negative mutants. These findings demonstrate that G protein-coupled receptors other than FZD directly activate beta-catenin signaling, thereby mimicking many of the functions of the canonical Wnt-FZD pathway. The distinct modes whereby FZD and PTH1R activate beta-catenin control convergent or divergent effects on osteoblast differentiation, and osteoclastogenesis may arise from PTH1R-induced second messenger phosphorylation.