Abstract

Osteoporosis manifests through adipocyte accrual and osteoblast diminution within bone marrow. However, the precise mechanisms driving the shift from osteogenesis to adipogenesis in bone marrow mesenchymal stem cells (BMSCs) remain largely undefined. In this study, we harnessed the power of bioinformatic tools to analyze gene expression patterns of BMSCs during adipogenic differentiation and osteoporosis using the data from Gene Expression Omnibus (GEO) repositories (GSE113253 and GSE35956), complemented by in vitro and in vivo experiments to validate the findings. Five distinct expression profiles of differentially expressed genes across the adipogenic timeline were identified. The initial phase is marked by ribosome biogenesis and rRNA processing, which is followed by the metabolism of organic acids and processing of inorganic ions. In contrast, the terminal phase is characterized by lipid transport, accumulation, and metabolism, alongside inorganic cation metabolism, thereby underscoring unique transcriptional signatures during the early and late stages of adipogenic differentiation. In BMSCs derived from osteoporotic samples, there is a notable decline in cellular proliferation and a diminished osteogenic capacity. Critically, the genes common to both adipogenesis and osteoporosis in BMSCs are predominantly involved in the negative regulation of Wnt signaling and cellular proliferation. Key genes including SOCS1, MYC, CEBPB, FYN, AXIN2, and RXRA are identified and show downregulation in BMSCs from aged mice. Subsequent in vitro experiments have validated the regulatory influence of RXRA on both adipogenic and osteogenic differentiations of BMSCs, highlighting its crucial role as a central modulator in bone formation and the pathophysiology of osteoporosis.

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