Berberine promotes the recruitment and activation of brown adipose tissue in mice and humans

Lingyan Wu,Xiaobei Hu,Haowen Jiang,Jia Li,Hongcheng Shi,Mingfeng Xia,Lina Zhang,Jingya Li,Xin Gao,Yiqiu Zhang,Hongmei Yan,Yanan Duan,Yushen Gu

doi:10.1038/s41419-019-1706-y

Abstract

Brown adipose tissue (BAT) dissipates metabolic energy and mediates non-shivering thermogenesis, thereby boosting energy expenditure. Increasing BAT mass and activity is expected to be a promising strategy for combating obesity; however, few medications effectively and safely recruit and activate BAT in humans. Berberine (BBR), a natural compound, is commonly used as a nonprescription drug to treat diarrhea. Here, we reported that 1-month BBR intervention increased BAT mass and activity, reduced body weight, and improved insulin sensitivity in mildly overweight patients with non-alcoholic fatty liver disease. Chronic BBR treatment promoted BAT development by stimulating the expression of brown adipogenic genes, enhanced BAT thermogenesis, and global energy expenditure in diet-induced obese mice and chow-fed lean mice, Consistently, BBR facilitated brown adipocyte differentiation in both mouse and human primary brown preadipocytes. We further found that BBR increased the transcription of PRDM16, a master regulator of brown/beige adipogenesis, by inducing the active DNA demethylation of PRDM16 promoter, which might be driven by the activation of AMPK and production of its downstream tricarboxylic acid cycle intermediate α-Ketoglutarate. Moreover, chronic BBR administration had no impact on the BAT thermogenesis in adipose-specific AMPKa1 and AMPKa2 knockout mice. In summary, we found that BBR intervention promoted recruitment and activation of BAT and AMPK–PRDM16 axis was indispensable for the pro-BAT and pro-energy expenditure properties of BBR. Our findings suggest that BBR may be a promising drug for obesity and related metabolic disorders in humans partially through activating BAT.

Highlights

Brown adipose tissue (BAT) is specialized to combust energy by non-shivering thermogenesis mediated by mitochondrial uncoupling protein 1 (UCP1)[1]
These results indicate that BBR intervention promotes both BAT mass and thermogenesis activity in humans
In the previous clinical studies, we reported that the body weight (BW) of non-alcoholic fatty liver disease (NAFLD) patients were significantly reduced upon chronic BBR intervention, whereas the mechanism of which is still ambiguous

Summary

Introduction

Brown adipose tissue (BAT) is specialized to combust energy by non-shivering thermogenesis mediated by mitochondrial uncoupling protein 1 (UCP1)[1]. Two types of thermogenic adipocytes exist: classical brown adipocytes that are abundant in BAT with high levels of UCP1, and beige/brite adipocytes that are abundant in white. Wu et al Cell Death and Disease (2019)10:468. It has been demonstrated that considerable functional BAT exists in human adults[7,8,9]. The activity of human BAT is negatively correlated with age, BMI, fat mass, and fasting blood glucose (FBG), and positively correlated with resting metabolic rate[8,9,10]. BAT functions to increase energy expenditure and improve glucose metabolism and insulin sensitivity in humans[11]. Pharmacological strategies targeting BAT provide an appealing option for obesity therapy, as few drugs have been identified to effectively and safely recruit or activate BAT in humans

Methods

Results

Conclusion