FXR-ApoC2 pathway activates UCP1-mediated thermogenesis by promoting the browning of white adipose tissues

FXR, encoded by Nh1r4, is a nuclear receptor crucial in regulating bile acid, lipid, and glucose metabolism. Prior research has indicated that activating FXR in the liver and small intestine may offer protection against obesity and metabolic diseases. This study demonstrates the essential role of the FXR-ApoC2 pathway in promoting the browning of white adipose tissue (WAT). Increased FXR by treatment with the FXR agonist farnesol upregulated beige adipocyte markers, including UCP1, PGC1a, and PRDM16, and increased the FXR target gene, ApoC2, in beige adipocytes and cold-exposed mice. However, these effects were not observed in mature white adipocytes. Remarkably, the knockdown of FXR results in a significantly reduced expression of UCP1, PGC1a, PRDM16, and ApoC2 in beige adipocytes. While studying the interaction between the nuclear receptor RXRa and FXR in transcription regulation, it was found that the knockdown of RXRa did not control the expression of FXR under beige adipogenesis. We further investigated whether the expression of beige-related markers could be altered under ApoC2 overexpression to ascertain the mechanism of action of FXR in relation to ApoC2 regulation. The overexpression of ApoC2 in both preadipocytes and beige adipocytes led to a significant increase in the expression of UCP1 and PGC1a. These results indicate that the FXR-mediated ApoC2 pathway is essential in the browning of WAT by inducing beige adipogenesis from preadipocytes.