β-Hydroxybutyrate suppresses lipid accumulation in aged liver through GPR109A-mediated signaling

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Abstract

Dietary interventions such as prolonged calorie restriction (CR) and intermittent fasting provide health benefits including a reduction in the inflammatory burden and regulation of energy metabolism. During CR, β-hydroxybutyrate (BHB) level is elevated in the serum. BHB is a ligand of GPR109A, which inhibits lipolysis and exerts anti-inflammatory effects on cells. During aging, comorbidities related to dyslipidemia are significantly associated with fatty liver. However, the underlying mechanisms of BHB in hepatic ER stress and dyslipidemia are unclear and remain to be elucidated. Here, we used aged rats that were administered with BHB and compared the modulatory effects of BHB through the GPR109A/AMPK pathway on the hepatic endoplasmic reticulum (ER) stress and lipid accumulation to CR rats. BHB caused suppression of hepatic ER stress and lipid accumulation through GPR109A/AMPK pathway in the aged rats. Aged rats of both treatment groups showed reduced cAMP level and PKA phosphorylation. Furthermore, AMPK-Ser173 phosphorylation via PKA was decreased, whereas AMPK-Thr172 phosphorylation was increased by BHB and CR. Further supporting evidence was provided in HepG2 cells that BHB inhibited ER stress and lipid accumulation induced by palmitate. These results suggest that BHB activates GPR109A and regulates the activation of AMPK. These findings were further confirmed by GPR109A-siRNA transfection in vitro. In addition, BHB treatment elevated the protein levels of AMPK leading to significant inhibition of hepatic steatosis, whereas AMPK-siRNA treatment abolished these effects. Taken together, these findings suggest that BHB could be a effective molecule that mimics CR in ameliorating age-related hepatic lipid accumulation via GPR109A signaling pathway.

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Kyoung Lee, A., Kim, D. H., Bang, E. J., Choi, Y. J., & Chung, H. Y. (2020). β-Hydroxybutyrate suppresses lipid accumulation in aged liver through GPR109A-mediated signaling. Aging and Disease, 11(4), 777–790. https://doi.org/10.14336/AD.2019.0926

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