Abstract
Brown adipose tissue (BAT) and beige adipose tissue dissipate metabolic energy and mediate nonshivering thermogenesis, thereby boosting energy expenditure. Increasing the browning of BAT and beige adipose tissue is expected to be a promising strategy for combatting obesity. Through phenotype screening of C3H10-T1/2 mesenchymal stem cells, diphyllin was identified as a promising molecule in promoting brown adipocyte differentiation. In vitro studies revealed that diphyllin promoted C3H10-T1/2 cell and primary brown/beige preadipocyte differentiation and thermogenesis, which resulted increased energy consumption. We synthesized the compound and evaluated its effect on metabolism in vivo. Chronic experiments revealed that mice fed a high-fat diet (HFD) with 100 mg/kg diphyllin had ameliorated oral glucose tolerance and insulin sensitivity and decreased body weight and fat content ratio. Adaptive thermogenesis in HFD-fed mice under cold stimulation and whole-body energy expenditure were augmented after chronic diphyllin treatment. Diphyllin may be involved in regulating the development of brown and beige adipocytes by inhibiting V-ATPase and reducing intracellular autophagy. This study provides new clues for the discovery of anti-obesity molecules from natural products.
Highlights
Obesity has reached epidemic proportions worldwide and is associated with an increased risk of metabolic, cardiovascular and chronic inflammatory diseases, such as type 2 diabetes, dyslipidemia, nonalcoholic fatty liver disease (NAFLD), hypertension, coronary heart disease and stroke [1]
The mRNA ratios of Fapb4, Ucp1 and Adiponectin in each well were used to evaluate the effect of each chemical, and oil red O staining provided further confirmation
Diphyllin Is Identified as a Natural Inducer From Differentiation Screening of Natural Products on C3H10-T1/2 Cells
Summary
Obesity has reached epidemic proportions worldwide and is associated with an increased risk of metabolic, cardiovascular and chronic inflammatory diseases, such as type 2 diabetes, dyslipidemia, nonalcoholic fatty liver disease (NAFLD), hypertension, coronary heart disease and stroke [1]. The fundamental cause of obesity is the chronic energy imbalance between caloric intake and consumption, where surplus energy is stored in adipose tissue [2]. Dietary and lifestyle modifications can be effective for the treatment of obesity and the prevention of diabetes. These approaches are difficult to maintain in the long term. Efficient ways to increase energy expenditure are urgently needed to combat the escalating occurrence of obesity
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