The present study was aimed to investigate the mechanisms of salidroside (SAL) from Rhodiola wallichiana var. cholaensis on hypoglycemic and oxidative stress responses. The palmitate (PA)-induced GLUTag cells model and the glucosamine-induced insulin resistance model in HepG2 cells were built. SAL led to the up-regulation of the serum glucagon-like peptide 1 (GLP-1) level by facilitating the SCFAs production, the promotion of GLP-1 synthesis by improving p38 MAPK phosphorylation and regulating insulin resistance. Moreover, the production of reactive oxygen species (ROS) and the expression of MAPKs were down-regulated. Furthermore, SAL was found to be able to inhibit PA-induced apoptosis that down-regulates cleaved caspase-3 and Bax expressions, while up-regulating Bcl-2 expression and up-regulates the Bcl-2/Bax ratio in glucosamine induced insulin resistance model. Besides, SAL can also up-regulate the mTOR/p70S6k signaling pathway in the PA-induced GLUTag cells model. Our data demonstrated that SAL could reverse insulin resistance and stimulates the GLP-1 secretion by alleviating ROS-mediated activation of MAPKs signaling pathway and mitigating apoptosis. PRACTICAL APPLICATIONS: Our data showed that SAL could increase the GLP-1 level by stimulating the SCFAs production and p38 phosphorylation and facilitate the IR and GLP-1 synthesis by alleviating ROS-mediated activation of MAPKs signaling pathway and mitigating apoptosis. Furthermore, the SAL has also stimulated the mTOR/p70S6k signaling pathway in PA-induced GLUTag cells model. The results provided a possibility to employ SAL for diabetes treatment.
Keywords: GLP-1; MAPK; insulin resistance; oxidative stress; salidroside.
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