Signaling Crosstalk between PPARγand BMP2 in Mesenchymal Stem Cells

Recent studies have revealed that PPAR γ 's transactivation function is regulated by extracellular signals. In particular, cytokines and Wnt family proteins suppress the ligand-inducible transactivation function of PPAR γ and attenuate adipogenesis/osteoblastogenesis switching in mesenchymal stem cells (MSCs). For example, Wnt5a suppresses PPAR γ transcriptional activity through the NLK/SETDB1/CHD7 pathway. Among these factors, BMP2 strongly induces bone formation, but the effect of BMP2 on PPAR γ function remains unclear. We examined the effect of BMP2 and PPAR γ in ST2 cells and found that PPAR γ activation affected BMP2's signaling pathway through epigenetic regulation. Although BMP2 did not interfere with PPAR γ -mediated adipogenesis, BMP2 increased mRNA expression levels of PPAR γ target genes (such as Fabp4 and Nr1h3 ) when cells were first treated with troglitazone (TRO). Moreover, PPAR γ activation affected BMP2 through enhancement of histone activation markers (acetylated histone H3 and trimethylated Lys4 of histone H3) on the Runx2 promoter. After TRO treatment for three hours, BMP2 enhanced the levels of active histone marks on the promoter of a PPAR γ target gene. These results suggest that the order of treatment with BMP2 and a PPAR γ ligand is critical for adipogenesis and osteoblastogenesis switching in MSCs.