Opposite Function of ERα and ERβ in Controlling 17β-Estradiol-mediated Osteogenesis in Osteoblasts

Abstract

Estrogen receptor plays critical roles in osteogenesis but the underlying mechanism remains unclear. In order to determine the effect of ERα and ERβ on several critical factors in regulating osteogenesis in human osteoblasts. Cell based assy, RT-PCR and immunoblot analyses were used in the research. Both RT-PCR and immunoblot showed that gene expression of OPG, MBP2, TGF-β, RUNX2, IGF-1 was significantly reduced while expression of RANKL was drastically increased after shRNA-based depletion of ERα in MG-63 osteoblasts. Surprisingly, 17β-estradiol (E2) treatment led to remarkably reduced RANKL compared with that in E2 untreated cells. In contrast, ERβ plays an opposite role in regulating gene expression of OPG, MBP2, TGF-β, RUNX2, IGF-1 and RANKL. However, double depletion of ERα and ERβ could not rescue the gene expression of these factors in vitro. Our results provide a novel mechanism of estrogen receptor in controlling osteogenesis in human cells as well as a potential clinic therapeutic target in human osteoporosis.

Keywords: Estrogen receptor; Osteoblasts; Osteogenesis; Signaling pathway.