Biochanin A ameliorated oleate‐induced steatosis in HepG2 cells by activating the SIRT3/AMPK/ULK‐1 signaling pathway

Biochanin A (Bio-A), an isoflavone abundant in chickpeas, possesses hypoglycemic, hypolipidemic, and anti-inflammatory effects. However, whether Bio-A has antihepatosteatosis effect remains unclear. This study aimed to evaluate the antihepatosteatosis effect of Bio-A on oleate (OA)-treated hepatocytes, and explore the underlying mechanism. When incubated with OA for 24 h, HepG2 cells were treated with various concentrations of Bio-A for 24 h to obtain an optimal antihepatosteatosis dose. HepG2 cells were treated with the AMP-activated protein kinase (AMPK) inhibitor Compound C, or the sirtuin-3 (SIRT3) inhibitor 3-TYP, and incubated with 50 μM Bio-A. The results indicated that 12.6% of lipid content, particularly 11.0% of triglyceride content, and the expression of adipocyte differentiation-related protein were significantly decreased in Bio-A-treated hepatosteatosis cells, followed by an increase in the expression of Beclin 1, phosphorylation of Unc-51-like kinase 1 (ULK-1), the microtubule-associated protein 1 light chain 3 (LC3)-II/LC3-I ratio, and a decrease in expression of p62. The results indicated that Bio-A upregulated autophagosome formation and autophagy flux. In addition, Bio-A increased SIRT3 expression and AMPK phosphorylation in OA-treated HepG2 cells. Blockade of AMPK and SIRT3 blocked the antihepatosteatosis effect and ULK-1 activation by Bio-A. AMPK inhibition did not eliminate the activation of SIRT3 by Bio-A. AutoDock analysis demonstrated that interaction might exist between Bio-A and SIRT3. In conclusion, Bio-A reduced fat accumulation in OA-treated HepG2 cells by activating SIRT3/AMPK/ULK-1-mediated autophagy. The findings provide a theoretical basis for the effect of Bio-A on hepatic steatosis-related diseases. Practical applications This study highlights the antihepatosteatosis effects of biochanin A (Bio-A) on oleate (OA)-treated hepatocytes. Bio-A, one of the isoflavones in Cicer arietinum Linn., possesses multiple bioactivities such as antiobesity, anti-inflammation, and hypoglycemic and hypolipidemic effects. This study provides a new application of Bio-A to treat hepatic steatosis, and revealed the underlying mechanism of Bio-A involved in the activation of the SIRT3/AMPK/ULK-1-mediated autophagy. The findings provide a theoretical basis for the application of Bio-A to hepatic steatosis-related diseases.