Abstract
Sonic hedgehog (Shh) signaling regulates patterning, proliferation, and stem cell self-renewal in many organs. Smoothened (Smo) plays a key role in transducing Shh signaling into the nucleus by activating a glioma family of transcription factors; however, the cellular and molecular mechanisms underlying the role of sustained Smo activation in postnatal development are still unclear. In this study, we explored the effects of Shh signaling on bone development using a conditional knock-in mouse model that expresses a constitutively activated form of Smo (SmoM2) upon osteocalcin (OCN)-Cre-mediated recombination (SmoM2; OCN-Cre mice). We also evaluated the expression pattern of bone formation-related factors in primary calvarial cultures of mutant and control mice. The SmoM2; OCN-Cre mutant showed growth retardation and reduction of bone mineral density compared to control mice. Constitutively activated SmoM2 also repressed mRNA expression of Runx2, osterix, type I collagen, and osteocalcin. Further, sustained SmoM2 induction suppressed mineralization in calvarial primary osteoblasts cultures, whereas such induction did not affect cell proliferation in the mutant cultures as compared with SmoM2 only control cultures. These results suggest that sustained Smo activation inhibits postnatal development of bone by suppressing gene expression of bone formation regulatory factors in mice.