Proper differentiation of bone marrow stromal cells (BMSCs) into adipocytes is crucial for maintaining skeletal homeostasis. However, the underlying regulatory mechanisms remain incompletely understood, posing a challenge for the treatment of age-related osteopenia and osteoporosis. Here, through comprehensive gene expression analysis during BMSC differentiation into adipocytes, we identified the forkhead transcription factor Foxk2 as a key regulator of this process. Foxk2 expression was significantly higher in the inguinal and epididymal white adipose tissues of db/db mice compared to non-obese db/m controls and was induced in BMSCs, C3H/10 T1/2, and ST2 cells following adipogenic stimulation. Overexpression of Foxk2 promoted adipogenic differentiation of C3H/10 T1/2, ST2, and BMSCs, accompanied by increased expression of lipogenic factors. Conversely, Foxk2 silencing inhibited adipogenic differentiation. Moreover, Foxk2 also facilitated lipogenesis of C3H/10 T1/2 and ST2 cells. Adipogenic stimuli triggered the nuclear translocation of Foxk2 through PI3-kinase and mTOR signalling pathways. Once in the nucleus, Foxk2 is directly bound to the promoters of Pparγ1 and Pparγ2, thereby enhancing their transcriptional activity. Notably, PPARγ1 and PPARγ2 reciprocally augmented the transcriptional activity of the Foxk2 promoter, indicating the presence of a Foxk2-PPARγ positive feedback loop that drives adipogenesis.
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| http://dx.doi.org/10.1111/jcmm.70332 | DOI Listing |
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