D Kim1, M-S Lee, K Jo, K-E Lee, J-K Hwang. 1. Department of Biotechnology, College of Life Science and Biotechnology, Yonsei University, Seongsanno, Seodaemun-gu, Seoul, Korea.
Abstract
AIM: AMP-activated protein kinase (AMPK) activators have shown potential as therapeutic agents for metabolic disorders. This study was conducted to evaluate therapeutic potential of panduratin (PAN) A, a natural AMPK stimulator, with activation of PPARα/δ for the treatment of obesity. METHODS: We used the novel AMPK activator PAN A, a natural compound isolated from Boesenbergia pandurata rhizomes, to investigate the regulation of LKB1-dependent AMPK-PPARα/δ signalling by western blot, reporter gene assay and small interfering RNA knockdown analysis. In addition, the antiobesity effects of PAN A were evaluated in C57BL/6J mice with high-fat diet (HFD)-induced obesity. RESULTS: PAN A stimulated AMPK signalling, induced nuclear translocation of the AMPKα2 subunit and activated PPARα/δ; LKB1, a kinase that lies upstream of AMPK, mediated these effects. PAN A stimulated the direct binding of the AMPKα2 subunit to PPARα/δ, but PPARδ activation required direct interaction with PPARγ coactivator 1α (PGC-1α). Further, PAN A (50 mg/kg/day) reduced weight gain, fat mass, fatty liver and improved serum lipid profiles in obese mice. Additionally, PAN A reduced ectopic fat accumulation and increased the proportion of slow-twitch myofibres and mitochondria content in skeletal muscle, thereby increasing running endurance. CONCLUSIONS: PAN A, an LKB1-dependent AMPK stimulator, activated PPARα/δ and attenuated HFD-induced obesity and dysregulation of lipid metabolism. Our findings suggest that PAN A is a potent AMPK activator and show a novel molecular mechanism for the treatment of metabolic disorders.
AIM: AMP-activated protein kinase (AMPK) activators have shown potential as therapeutic agents for metabolic disorders. This study was conducted to evaluate therapeutic potential of panduratin (PAN) A, a natural AMPK stimulator, with activation of PPARα/δ for the treatment of obesity. METHODS: We used the novel AMPK activator PAN A, a natural compound isolated from Boesenbergia pandurata rhizomes, to investigate the regulation of LKB1-dependent AMPK-PPARα/δ signalling by western blot, reporter gene assay and small interfering RNA knockdown analysis. In addition, the antiobesity effects of PAN A were evaluated in C57BL/6J mice with high-fat diet (HFD)-induced obesity. RESULTS: PAN A stimulated AMPK signalling, induced nuclear translocation of the AMPKα2 subunit and activated PPARα/δ; LKB1, a kinase that lies upstream of AMPK, mediated these effects. PAN A stimulated the direct binding of the AMPKα2 subunit to PPARα/δ, but PPARδ activation required direct interaction with PPARγ coactivator 1α (PGC-1α). Further, PAN A (50 mg/kg/day) reduced weight gain, fat mass, fatty liver and improved serum lipid profiles in obesemice. Additionally, PAN A reduced ectopic fat accumulation and increased the proportion of slow-twitch myofibres and mitochondria content in skeletal muscle, thereby increasing running endurance. CONCLUSIONS: PAN A, an LKB1-dependent AMPK stimulator, activated PPARα/δ and attenuated HFD-induced obesity and dysregulation of lipid metabolism. Our findings suggest that PAN A is a potent AMPK activator and show a novel molecular mechanism for the treatment of metabolic disorders.
Authors: Jin-Ho Koh; Chad R Hancock; Dong-Ho Han; John O Holloszy; K Sreekumaran Nair; Surendra Dasari Journal: Am J Physiol Endocrinol Metab Date: 2019-03-19 Impact factor: 4.310