Abstract

BackgroundObesity is one of the greatest public health problems and major risk factors for serious metabolic diseases and significantly increases the risk of premature death. The aim of this study was to determine the inhibitory effects of Rubus crataegifolius Bunge (RCB) on adipocyte differentiation in 3 T3-L1 cells and its anti-obesity properties in high fat diet (HFD)-induced obese rats.Methods3 T3-L1 adipocytes and HFD-induced obese rats were treated with RCB, and its effect on gene expression was analyzed using RT-PCR and Western blotting experiments.ResultsRCB treatment significantly inhibited adipocyte differentiation by suppressing the expression of C/EBPβ, C/EBPα, and PPARγ in the 3 T3-L1 adipocytes. Subsequently, the expression of the PPARγ target genes aP2 and fatty acid synthase (FAS) decreased following RCB treatment during adipocyte differentiation. In uncovering the specific mechanism that mediates the effects of RCB, we demonstrated that the insulin-stimulated phosphorylation of Akt strongly decreased and that its downstream substrate phospho-GSK3β was downregulated following RCB treatment in the 3 T3-L1 adipocytes. Moreover, LY294002, an inhibitor of Akt phosphorylation, exerted stronger inhibitory effects on RCB-mediated suppression of adipocyte differentiation, leading to the inhibition of adipocyte differentiation through the downregulation of Akt signaling. An HFD-induced obesity rat model was used to determine the inhibitory effects of RCB on obesity. Body weight gain and fat accumulation in adipose tissue were significantly reduced by the supplementation of RCB. Moreover, RCB treatment caused a significant decrease in adipocyte size, associated with a decrease in epididymal fat weight. The serum total cholesterol (TC) and triglyceride (TG) levels decreased in response to RCB treatment, whereas HDL cholesterol (HDL-C) increased, indicating that RCB attenuated lipid accumulation in adipose tissue in HFD-induced obese rats.ConclusionOur results demonstrate an inhibitory effect of RCB on adipogenesis through the reduction of the adipogenic factors PPARγ, C/EBPα, and phospho-Akt. RCB had a potent anti-obesity effect, reducing body weight gain in HFD-induced obese rats.Electronic supplementary materialThe online version of this article (doi:10.1186/s12986-016-0091-0) contains supplementary material, which is available to authorized users.

Highlights

  • Obesity is one of the greatest public health problems and major risk factors for serious metabolic diseases and significantly increases the risk of premature death

  • Inhibitory effect of Rubus crataegifolius Bunge (RCB) on 3 T3-L1 pre-adipocyte differentiation To examine the effects of RCB on the differentiation of pre-adipocytes into adipocytes, confluent 3 T3-L1 preadipocytes were treated with various concentrations (0, 50, and 150 μg/ml) of RCB extract in the presence or absence of a DMI mixture

  • In the present study, we investigated the anti-obesity effects of RCB on adipocyte differentiation and the associated mechanisms in 3 T3-L1 cells, and we confirmed our findings in a rat model of obesity that was induced with a high fat diet (HFD)

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Summary

Introduction

Obesity is one of the greatest public health problems and major risk factors for serious metabolic diseases and significantly increases the risk of premature death. The excessive accumulation of adipose tissue is caused by increased adipogenesis accompanied by adipocyte differentiation, which converts immature pre-adipocytes into adipocytes. Abnormal fat accumulation and adipocyte differentiation in adipose tissue are associated with the development of obesity [4]. Adipogenesis, the process of adipose cell development, is associated with multiple steps in the regulation of several transcription factors. PPARγ and C/EBPα play important roles as major transcription factors in adipogenesis [5]. These transcription factors are involved in the acceleration of lipogenesis and lipid homeostasis by modulating the expression of target genes, such as adipocyte fatty acid-binding protein 2 (aP2) and fatty acid synthase (FAS) [7]

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