LAUSR

Polycomb repressive complexes (PRCs) are pivotal epigenetic regulators that preserve cell identity by restricting transcription responses to sub-threshold extracellular signals. Their roles in osteoblast function and bone formation remain unclear. Here in aging osteoblasts, we found marked activation of PRC1.1 complex, with KDM2B acting as a chromatin-binding factor and BCOR and PCGF1 enabling histone H2A monoubiquitylation (H2AK119ub1). Osteoblast-specific Kdm2b inactivation significantly enhances bone remodeling under steady-state conditions and in scenarios of bone loss. This enhancement is attributed to H2AK119ub1 downregulation and subsequent Wnt signaling derepression. Furthermore, we developed a small molecule termed iBP, that specifically inhibits the interaction between BCOR and PCGF1, thereby suppressing PRC1.1 activity. Notably, iBP administration promotes bone formation in mouse models of bone loss. Therefore, our findings identify PRC1.1 as a critical epigenetic brake on bone formation and demonstrate that therapeutic targeting of this complex enhances Wnt pathway activation, offering a promising strategy against skeletal deterioration. Here they identify a selective PRC1.1 inhibitor, iBP, that treats bone loss by improving osteoblast function. iBP releases repression of Wnt/β-catenin signaling, enhancing bone formation and repair in aging, trauma, and disease models.