Estrogen receptors (ERs) play vital roles in the function and remodeling of bone. Their cellular mechanisms can broadly be categorized into those involving direct DNA binding (classical) or indirect DNA binding (non-classical). The generation of non-classical ER knock-in (ERa-/NERKI) mice provides a unique opportunity to define these pathways in bone. We previously demonstrated that ERa-/NERKI mice exhibit an osteoporotic phenotype; however, the mechanism(s) for this remain unresolved. Gene expression analyses of cortical bone from ERa-/NERKI mice revealed suppression of lymphoid enhancer factor-1 (Lef1), a classic Wnt-responsive transcription factor that associates with beta-catenin. Since Wnt signaling is generally considered bone anabolic, this observation leads to the hypothesis that NERKI-induced suppression of Wnt signaling may contribute to the low bone mass phenotype. We generated ERa-/NERKI mice crossed with the Wnt-responsive TOPGAL transgenic mouse model and observed significantly less beta-galactosidase activity in ERa-/NERKI mice, confirming suppression of Wnt activity in vivo. Adenoviral expression of the NERKI receptor using an in vitro cell system resulted in the induction of several secreted antagonists of Wnt signaling. Furthermore, expression of NERKI abrogated Wnt10b-dependent Wnt activation using a lentiviral-mediated reporter assay. Finally, expression of NERKI destabilized beta-catenin cellular protein levels and disrupted ER/beta-catenin interactions. Collectively, these data suggest the osteoporotic phenotype of ERa-/NERKI mice may involve the suppression of Lef1-mediated Wnt signaling through both the stimulation of secreted Wnt inhibitors and/or disruption of normal beta-catenin function. J. Cell. Biochem. 113: 22482255, 2012.

• 出版日期2012-7