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Biochanin A induces a brown‐fat phenotype via improvement of mitochondrial biogenesis and activation of<scp>AMPK</scp>signaling in murine<scp>C3H10T1</scp>/2 mesenchymal stem cells

Md. Shamim Rahman, Khan Mohammad Imran, Monir Hossain, Tae‐Jin Lee, Yong‐Sik Kim

2020Phytotherapy Research17 citationsDOI

Abstract

In this study, we investigated the effect of Biochanin A (BioA), an O-methylated isoflavone on the brown-fat phenotype formation and on the associated thermogenic program including mitochondrial biogenesis and lipolysis in C3H10T1/2 MSCs. Our data demonstrates that Treatment with BioA in an adipogenic differentiation cocktail induced formation of brown-fat-like adipocytes from C3H10T1/2 MSCs without treatment with a known browning inducer (rosiglitazone or T3) at an early stage of differentiation. The formation of brown-fat-like adipocytes by BioA treatment was evidenced by upregulation of key thermogenic markers: Ucp1, Pgc1α, Prdm16, and Pparγ. BioA also increased the expression of beige (Cd137 and Fgf21) and brown (Elovl3 and Zic1)-specific markers. Additionally, BioA treatment promoted mitochondrial biogenesis, judging by the upregulation of genes; Cox8b, Cidea, Dio2, Sirt1, Opa1, and Fis1. BioA treatment increased the amount of mitochondrial DNA and its encoded proteins: oxidative phosphorylation complexes (I-V); this change was associated with high oxygen consumption by C3H10T1/2 MSCs. A small-interfering-RNA-induced gene knockdown and experiments with dorsomorphin-driven competitive inhibition revealed that BioA exerts the thermogenic action via activation of AMPK signaling. Our study shows the mechanism of BioA-induced promotion of a brown-fat phenotype. Nonetheless, clinical research is necessary to validate BioA as a brown-fat-like signature inducer.

Topics & Concepts

PRDM16Mitochondrial biogenesisFIS1Biochanin AAMPKCell biologyBiologyDownregulation and upregulationChemistryMitochondrionBrown adipose tissueBiochemistryGenisteinPhosphorylationAdipose tissueProtein kinase AGenemitochondrial fusionMitochondrial DNAEndocrinologyDaidzeinAdipose Tissue and MetabolismLipid metabolism and biosynthesisAdipokines, Inflammation, and Metabolic Diseases