CRISPR/Cas9敲除PLIN1基因增强3T3-L1脂肪细胞的脂解作用

应用CRISPR/Cas9技术敲除3T3-L1前脂肪细胞plin1,观察PLIN1缺失对脂肪细胞中脂肪水解的影响并探究可能机制。常规培养3T3-L1前脂肪细胞,电穿孔法转染plin1敲除载体,嘌呤霉素培养基挑选plin1敲除细胞,观察转染及筛选后的细胞存活率。"鸡尾酒"法诱导3T3-L1前脂肪细胞分化,酶法测定甘油和TG含量,油红O染色观察脂滴形态及数目的变化。Western blotting检测PLIN1、PPARγ、Fsp27和脂肪酶的蛋白表达;RT-PCR检测PLIN1和脂肪酶的mRNA表达。对照组细胞诱导分化后,微小脂滴数目较少,单房脂滴数目较多并围绕细胞核呈环型排列。相较于对照组,敲除组细胞诱导分化后微小脂滴数目增加,单房脂滴体积缩小,数目减少;细胞中PLIN1mRNA及蛋白表达被显著抑制(P0.05);甘油水平显著上升(0.0984±0.0076),TG含量显著下降(0.031 0±0.005 3);HSL和ATGL两种脂肪酶的mRNA及蛋白表达均升高(P0.05);PPARγ和Fsp27的表达未有明显变化。上述结果表明plin1敲除后通过暴露脂滴中脂质以及上调脂肪酶等效应增强了3T3-L1脂肪细胞的脂解作用。     

Fsp27基因沉默载体的构建及其对细胞脂解的影响研究

构建脂肪特异性蛋白27(Fat-specific protein of 27,Fsp27)基因沉默载体,研究沉默Fsp27基因表达对3T3-L1细胞脂解的影响,并对其作用机制进行探究。采用RNAi技术,构建Fsp27基因真核干扰载体,下调Fsp27基因的表达。“鸡尾酒”法诱导3T3-L1前脂肪细胞分化为成熟脂肪细胞。脂质体转染脂肪细胞,油红O染色脂滴,酶法测定细胞中甘油及甘油三酯的含量。Western blot法检测细胞中Fsp27、HSL、ATGL和PPARγ的蛋白表达。Western blot结果显示:阳性sh-Fsp27干扰载体均能有效下调Fsp27的表达,且伴随细胞内ATGL和PPARγ的表达量升高(P<0.05),其中sh-Fsp27-2的沉默效果最好;酶学方法检测结果显示:阳性sh-Fsp27干扰组细胞中甘油三酯含量下降,甘油含量升高(P<0.05);油红O染色结果发现:空白对照组与阴性对照组均有大脂滴堆积,阳性sh-Fsp27组小脂滴分布广泛,未见明显的大脂滴。sh-Fsp27-2组基因沉默载体的沉默效果最好,Fsp27基因沉默可以加快3T3-L1细胞的脂解速率,其主要是通过抑制脂滴融合和增强ATGL酶的水解来完成对脂解的调控。     

3T3-L1前体脂肪细胞分化过程中G蛋白偶联受体48的表达研究

目的 观察G蛋白偶联受体48（GPR48）、过氧化物酶体增殖体激活受体g2（PPARγ2）和CCAAT增强子结合蛋白α（C/EBPα）基因在小鼠胚胎成纤维细胞（3T3-L1）前体脂肪细胞诱导分化过程中不同时段表达水平的变化,探讨GPR48在脂肪细胞分化过程的作用。方法 体外培养3T3-L1前体脂肪细胞诱导分化为成熟脂肪细胞,在分化不同时段（第0~14天）,采用Real-timePCR技术检测脂肪细胞中GPR48、PPARγ2和C/EBPα基因信使核糖核酸（mRNA）的表达水平。结果 GPR48基因在3T3-L1前体脂肪细胞诱导分化第2天和第3天表达显著上调,差异均有统计学意义（t=4.12,P=0.015;t=6.21,P=0.003）,分化第6~14天与分化前表达无差异。PPARγ2表达在诱导分化后明显上调,分化第6天达高峰,第10~14天持续处于较高水平并趋于稳定,与诱导前期相比各时段间表达水平差异均有统计学意义（t在4.17~22.65间,P均〈0.01）。C/EBPα表达在诱导分化后明显上调,分化后第3天达高峰,第6~10天持续保持在较高水平,与诱导前期相比各时段表达水平差异均有统计学意义（t在4.38~13.87间,P均〈0.01）,第14天趋于下调,与分化前比较无差异。GPR48基因表达高峰早于PPARγ2和C/EBPα。结论 在3T3-L1脂肪细胞分化过程中PPARγ2和C/EBPα表达变化与脂肪细胞分化、脂质积聚过程相一致。GPR48基因表达高峰早于PPARγ2和C/EBPα,可能参与了脂肪细胞分化的早期过程。     

黄体酮对3T3-L1脂肪前体细胞成脂分化后细胞中UCP2基因表达的影响

目的:观察体外培养条件下3T3-L1脂肪前体细胞诱导分化成的成熟脂肪细胞中解偶联蛋白2(UCP2)mRNA表达水平及黄体酮对其表达的影响。方法:体外培养3T3-L1脂肪细胞,在诱导3T3-L1脂肪细胞分化成熟后,经不同黄体酮浓度10μm/25μM/50μM/75μM/100μM刺激后,抽提总RNA,用RT-PCR检测UCP2 mRNA的表达。结果:黄体酮会促进成熟脂肪细胞中UCP2 mRNA的表达,(P<0.05)其中25μM浓度刺激下UCP2 mRNA表达量最高。结论:体外培养中,黄体酮对成熟脂肪细胞中UCP2 mRNA的表达与调控具有一定的影响。     

水通道蛋白7对蛋白激酶B的影响

该文旨在探讨水通道蛋白7(AQP7)在3T3-L1脂肪细胞不同分化阶段的表达以及其对胰岛素信号通路中蛋白激酶B(PKB)的影响。通过培养3T3-L1前体脂肪细胞,诱导分化为成熟的脂肪细胞,用荧光定量PCR、Western blot、酶学方法分析显示,随3T3-L1脂肪细胞分化过程,AQP7与PKB磷酸化水平同步上升,同时培养基中释放的甘油浓度伴随AQP7的表达平行增加。以TNF-α处理分化成熟的脂肪细胞构建胰岛素抵抗模型,AQP7与PKB磷酸化水平均下降,转染高表达AQP7基因的重组腺病毒载体(Ad-AQP7)之后,随着AQP7表达上调,胰岛素刺激下的PKB磷酸化水平提高,并且葡萄糖代谢能力增强。由此可见,AQP7水平随3T3-L1脂肪细胞分化过程逐渐上升,其高表达可能通过增加PKB磷酸化水平改善胰岛素敏感性,提示AQP7可能成为治疗肥胖的一个重要作用靶点。     

促酰化蛋白(ASP)诱导3T3-L1前脂肪细胞分化

促酰化蛋白 (ASP)代替经典激素“鸡尾酒”诱导法中胰岛素 ,通过形态学观察、油红染色分化百分比测定、脂肪细胞甘油三酯合成率和甘油三酯总量测定 ,并与经典激素“鸡尾酒”法诱导前脂肪细胞分化情况比较 ,探讨ASP是否具有诱导 3T3 L1前脂肪细胞分化作用 .ASP组诱导分化第 6d ,3T3 L1前脂肪细胞变大、变圆 ,出现大量脂肪滴 ,形态由前脂肪细胞向成熟脂肪细胞转变 ;随着诱导分化时间延长 ,胞浆中脂滴进一步积累 .分化 9d时 ,3T3 L1前脂肪细胞分化完全 .油红染色结果显示 ,ASP组分化率很高 (85 % ) ,与胰岛素组分化率 (90 % )相似 ,明显高于IBMX +DEX组 (4 0 % ) .ASP不仅促进 3T3 L1前脂肪细胞形态向成熟脂肪细胞转化 ,同时促进细胞中甘油三酯的合成和积累 .ASP组诱导分化第 3d时 ,脂肪细胞甘油三酯合成率明显高于对照组和IBMX +DEX组 ,但仍低于胰岛素组 ;在分化第 6d和第 9d时 ,ASP组甘油三酯合成率进一步升高 ,与对照组和IBMX +DEX组相比差异有极显著性 ,与胰岛素组相比无显著性差异 .ASP组诱导分化 3d时 ,脂肪细胞中甘油三酯总量明显高于对照组和IBMX +DEX组 ;分化 6d和 9d时 ,甘油三酯总量进一步升高 ,与对照组和IBMX +DEX组相比差异有极显著性 ,而与胰岛素组相比无显著性差异 .结果表明 ,新型脂源性激     

PAT蛋白抑制饥饿诱导的脂滴快速融合

目的:脂滴快速融合是增大脂滴直径的方式之一,但其研究相对少。本研究旨在建立脂滴快速融合的细胞模型,以便对其进行深入的生物学研究。方法:本研究使用大鼠肾成纤维细胞系NRK和小鼠前脂肪细胞系3T3-L1两种细胞系,先用油酸诱导细胞内产生大量脂滴,再使用饥饿缓冲液培养细胞,利用显微镜实时观测技术跟踪脂滴动态变化,建立脂滴快速融合的模型。而后在此模型中,加入自噬抑制剂或者以过表达CCT为阳性对照,过表达PAT蛋白(PLIN1、ADRP和TIP47),来探究它们在调控脂滴快速融合方面的功能。结果:饥饿缓冲液处理约3小时可诱导细胞发生脂滴快速融合,其融合速率很快,从脂滴接触到融合完成可发生在20秒内,显然不同于CIDE蛋白调控的缓慢脂滴融合过程。自噬抑制剂可以抑制自噬,但是并没有显著影响脂滴快速融合,说明饥饿诱导的脂滴快速融合不依赖于自噬。另发现,与过表达GFP相比,过表达定位于脂滴的GFP-CCT、GFP-PLIN1、GFP-ADRP或GFP-TIP47均能显著性抑制快速融合导致的脂滴变大的现象。结论:本研究建立了饥饿缓冲液诱导脂滴发生快速融合的细胞模型,并证明PAT蛋白(PLIN1、ADRP、TIP47)能抑制脂滴快速融合。     

Rheb过表达在前体脂肪细胞株3T3-L1分化中的作用

目的:利用前体脂肪细胞株3T3-L1细胞观察mTOR(mammalian target of rapamycin)信号通路中上游调控因子Rheb(Ras homolog enriched in brain)对其分化的影响。方法:利用高表达Rheb的基因重组质粒转染前体脂肪细胞株,3T3-L1。通过蛋白质免疫印迹实验鉴定质粒成功转染细胞后,诱导该细胞脂肪分化。予以分化第8天的3T3-L1细胞油红染色,并检测细胞内甘油三酯的含量。另外,我们用Western blot方法检测脂肪细胞特异性转录因子PPAR-γ(Peroxisome proliferator-activated receptor-γ)和C/EBP-α(CCAAT-enhancer-binding protein-α)的表达情况来研究Rheb在脂肪细胞分化过程中的作用。结果:我们成功构建了高表达Rheb的3T3-L1细胞株,发现高表达Rheb后可以促进脂滴的生成,油红O染色有显著区别,与对照组相比Rheb高表达组的三酰甘油含量明显升高(P0.05);C/EBP-α和PPAR-γ等脂肪细胞特异性的转录因子蛋白表达量与对照组相比也均有升高(P0.05)。结论:Rheb基因作为mTOR通路上游调控因子,可以促进脂肪细胞的分化。     

黄体酮对3T3-L1脂肪前体细胞成脂分化后细胞中UCP2基因表达的影响

目的：观察体外培养条件下3T3-L1脂肪前体细胞诱导分化成的成熟脂肪细胞中解偶联蛋白2（UCP2）mRNA表达水平及黄体酮对其表达的影响。方法：体外培养3T3-L1脂肪细胞,在诱导3T3．L1脂肪细胞分化成熟后,经不同黄体酮浓度10μm／25μM／50μM／75μM/100μM刺激后,抽提总RNA,用RT—PCR检测UCP2mRNA的表达。结果：黄体酮会促进成熟脂肪细胞中UCP2mRNA的表达,（P〈0．05）其中25μM浓度刺激下UCP2mRNA表达量最高。结论：体外培养中,黄体酮对成熟脂肪细胞中UCP2mRNA的表达与调控具有一定的影响。     

miR-196a-5p对3T3-L1前脂肪细胞增殖和分化的影响效应

目的:探究miR-196a-5p对小鼠前体脂肪细胞增殖、分化的影响及其潜在的分子机制。方法:(1)构建小鼠肥胖模型,RT-PCR检测脂肪组织中miR-196a-5p表达量;(2)鸡尾酒法诱导3T3-L1前脂肪细胞分化,RT-PCR检测分化过程中miR-196a-5p的表达变化;(3)合成miR-196a-5p mimics和inhibitors转染3T3-L1细胞,以CCK8、EdU试剂盒检测miR-196a-5p对3T3-L1前脂肪细胞增殖的影响作用;(4)运用油红O染色、甘油三酯测定评估miR-196a-5p对3T3-L1细胞分化的影响;(5) RT-PCR检测miR-196a-5p对前脂肪细胞增殖、分化相关基因的影响;(6)结合前人文献,运用生物信息软件、萤光素酶报告系统对miR-196a-5p调控脂肪细胞分化的靶基因进行筛选和验证。结果:(1) miR-196a-5p在肥胖小鼠脂肪组织中高表达,在3T3-L1前脂肪细胞分化过程中先升高后下降;(2)与阴性对照组相比,mimics转染抑制了3T3-L1细胞增殖,inhibitors转染促进了3T3-L1细胞增殖;(3)与阴性对照组相比,mimics组积累了大量油红着色的脂滴,甘油三酯含量增多,而inhibitors组的脂滴少而小,甘油三酯含量相对降低;(4)与阴性对照组相比,mimics转染抑制了增殖标志基因Cyclin D1、Cyclin E、CDK2和CDK4表达,促进了分化标志基因PPARγ、C/EBPα、LPL、aP2等的表达,inhibitors转染则表现出与mimics转染相反的作用;(5) miR-196a-5p可显著抑制野生型MAP4K3和MAPK1 3'UTR萤光素酶活性,而突变绑定位点可废除该抑制效应。结论:miR-196a-5p不仅可抑制3T3-L1前脂肪细胞增殖,还可促进其诱导分化、沉积脂滴;miR-196a-5p可能通过靶向调节MAP4K3和MAPK1来介导3T3-L1前脂肪细胞分化。     

(+)-Episesamin inhibits adipogenesis and exerts anti-inflammatory effects in 3T3-L1 (pre)adipocytes by sustained Wnt signaling,down-regulation of PPARγ and induction of iNOS

Obesity and its associated health risks still demand for effective therapeutic strategies. Drugs and compositions derived from Oriental medicine such as green tea polyphenols attract growing attention. Previously, an extract from the Japanese spice bush Lindera obtusiloba (L. obtusiloba) traditionally used for treatment of inflammation and prevention of liver damage was shown to inhibit adipogenesis. Aiming for the active principle of this extract (+)-episesamin was identified, isolated and applied in adipogenic research using 3T3-L1 (pre)adipocytes, an established cell line for studying adipogenesis. With an IC₅₀ of 10 μM (+)-episesamin effectively reduced the growth of 3T3-L1 preadipocytes and decreased hormone-induced 3T3-L1 differentiation as shown by reduced accumulation of intracellular lipid droplets and diminished protein expression of GLUT-4 and vascular endothelial growth factor. Mechanistically, the presence of (+)-episesamin during hormone-induced differentiation provoked a reduced phosphorylation of ERK1/2 and β-catenin along with a reduced protein expression of peroxisome proliferator-activated receptor γ and a strongly increased protein expression of iNOS. Treatment of mature adipocytes with (+)-episesamin resulted in a reduction of intracellular stored lipid droplets and induced the proapoptotic enzymes caspases-3/-7. Besides interfering with adipogenesis, (+)-episesamin showed anti-inflammatory activity by counteracting the lipopolysaccharide- and tumor necrosis factor α-induced secretion of interleukin 6 by 3T3-L1 preadipocytes. In conclusion, (+)-episesamin seems to be the active drug in the L. obtusiloba extract being responsible for the inhibition of adipogenesis and, thus, should be evaluated as a novel potential complementary treatment for obesity.     

Fat-specific protein 27, a novel lipid droplet protein that enhances triglyceride storage

Fat-specific protein (FSP)27/Cidec is most highly expressed in white and brown adipose tissues and increases in abundance by over 50-fold during adipogenesis. However, its function in adipocytes has remained elusive since its discovery over 15 years ago. Here we demonstrate that FSP27/Cidec localizes to lipid droplets in cultured adipocytes and functions to promote lipid accumulation. Ectopically expressed FSP27-GFP surrounds lipid droplets in 3T3-L1 adipocytes and colocalizes with the known lipid droplet protein perilipin. Immunostaining of endogenous FSP27 in 3T3-L1 adipocytes also confirmed its presence on lipid droplets. FSP27-GFP expression also markedly increases lipid droplet size and enhances accumulation of total neutral lipids in 3T3-L1 preadipocytes as well as other cell types such as COS cells. Conversely, RNA interference-based FSP27/Cidec depletion in mature adipocytes significantly stimulates lipolysis and reduces the size of lipid droplets. These data reveal FSP27/Cidec as a novel adipocyte lipid droplet protein that negatively regulates lipolysis and promotes triglyceride accumulation.     

Dynamic regulation of mitochondrial network and oxidative functions during 3T3-L1 fat cell differentiation

Mitochondria have been shown to be impaired in insulin resistance-related diseases but have not been extensively studied during the first steps of adipose cell development. This study was designed to determine the sequence of changes of the mitochondrial network and function during the first days of adipogenesis. 3T3-L1 preadipocytes were differentiated into adipocytes without using glitazone compounds. At days?0, 3, 6, 9, and 12, mitochondrial network imaging, mitochondrial oxygen consumption, membrane potential, and oxidative phosphorylation efficiency were assessed in permeabilized cells. Gene and protein expressions related to fatty acid metabolism and mitochondrial network were also determined. Compared to preadipocytes (day?0), new adipocytes (days?6 and 9) displayed profound changes of their mitochondrial network that underwent fragmentation and redistribution around lipid droplets. Drp1 and mitofusin 2 displayed a progressive increase in their gene expression and protein content during the first 9?days of differentiation. In parallel with the mitochondrial network redistribution, mitochondria switched to uncoupled respiration with a tendency towards decreased membrane potential, with no variation of mtTFA and NRF1 gene expression. The expression of PGC1α and NRF2 genes and genes involved in lipid oxidation (UCP2, CD36, and CPT1) was increased. Reactive oxygen species (ROS) production displayed a nadir at day?6 with a concomitant increase in antioxidant enzyme gene expression. This 3T3-L1-based in vitro model of adipogenesis showed that mitochondria adapted to the increased number of lipid droplets by network redistribution and uncoupling respiration. The timing and regulation of lipid oxidation-associated ROS production appeared to play an important role in these changes.     

MiR-125a-5p抑制3T3-L1前体脂肪细胞分化

MicroRNAs(miRNAs) 是一类在脂肪组织发育中发挥重要作用的小非编码RNA. 为探明miR-125a-5p在3T3-L1前体脂肪细胞中的作用,采用实时qPCR检测了miR-125a-5p在小鼠各组织及3T3-L1前体脂肪细胞分化过程中的表达|使用经化学修饰的miR-125a-5p模拟物agomir及抑制剂antagomir转染3T3-L1前体脂肪细胞,采用实时qPCR 和 Western印迹检测成脂标志基因Pparγ和aP2的表达,油红O染色观察脂肪细胞脂质积累. 结果显示,miR-125-5p在小鼠脂肪组织中高丰度表达,在3T3-L1前体脂肪细胞分化过程中表达下降.过表达miR-125a-5p,与对照组相比,成脂标志基因Pparγ和aP2在mRNA和蛋白质水平均明显下降|油红O染色及定量结果显示脂质积累减少. 抑制剂处理结果显示,Pparγ和aP2在mRNA和蛋白质水平均有不同程度上升,但油红O染色及定量结果差异不显著. 以上结果表明,miR-125a-5p在脂肪细胞分化中发挥负调控作用.     

Coculture with BJ fibroblast cells inhibits the adipogenesis and lipogenesis in 3T3-L1 cells

Mouse or human fibroblasts are commonly used as feeder cells to prevent differentiation in stem or primary cell culture. In the present study, we addressed whether fibroblasts can affect the differentiation of adipocytes. We found that the differentiation of 3T3-L1 preadipocytes was strongly suppressed when the cells were cocultured with human fibroblast (BJ) cells. BrdU incorporation analysis indicated that mitotic clonal expansion, an early event required for 3T3-L1 cell adipogenesis, was not affected by BJ cells. The 3T3-L1 cell expression levels of peroxisome proliferator-activated receptor γ2, CCAAT/enhancer-binding protein alpha (C/EBPα), sterol regulatory element binding protein-1c, and Krüppel-like factor 15, but not those of C/EBPβ or C/EBPδ, were decreased by coculture with BJ cells. When mature 3T3-L1 adipocytes were cocultured with BJ cells, their lipid contents were significantly reduced, with decreased fatty acid synthase expression and increased phosphorylated form of acetyl-CoA carboxylase 1. Our data indicate that coculture with BJ fibroblast cells inhibits the adipogenesis of 3T3-L1 preadipocytes and decreases the lipogenesis of mature 3T3-L1 adipocytes.     

Aortic carboxypeptidase-like protein is regulated by transforming growth factor beta in 3T3-L1 preadipocytes

Adipogenesis is characterized by early remodeling of the extracellular matrix, allowing preadipocytes to adopt a more spherical shape and optimize lipid accumulation as they mature. Aortic carboxypeptidase-like protein (ACLP), found in collagen-rich tissues including adipose tissue, is expressed in 3T3-L1 and 3T3-F442A preadipocytes, and is downregulated during adipogenesis. We now report that ACLP is found in medium conditioned by 3T3-L1 preadipocytes. Transforming growth factor (TGF) beta, a known modulator of fibrillar matrix protein production, increased ACLP expression by 2.4+/-0.4-fold (mean+/-SE; n=3) in 3T3-L1 preadipocytes, through a mechanism that requires p42/44 MAPK activity. Addition of TGFbeta to differentiation medium, which inhibits adipogenesis, raised ACLP levels in 3T3-L1 cells. However, sustained expression of ACLP in stable clones of 3T3-L1 or 3T3-F442A preadipocytes did not interfere with adipogenesis.     

Phoenixin-14 stimulates differentiation of 3T3-L1 preadipocytes via cAMP/Epac-dependent mechanism

Phoenixin-14 (PNX) is a newly discovered peptide produced by proteolytic cleavage of the small integral membrane protein 20 (Smim20). Previous studies showed that PNX is involved in controlling reproduction, pain, anxiety and memory. Furthermore, in humans, PNX positively correlates with BMI suggesting a potential role of PNX in controlling fat accumulation in obesity. Since the influence of PNX on adipose tissue formation has not been so far demonstrated, we investigated the effects of PNX on proliferation and differentiation of preadipocytes using 3T3-L1 and rat primary preadipocytes. We detected Smim20 and Gpr173 mRNA in 3T3-L1 preadipocytes as well as in rat primary preadipocytes. Furthermore, we found that PNX peptide is produced and secreted from 3T3-L1 and rat primary adipocytes. PNX increased 3T3-L1 preadipocytes proliferation and viability. PNX stimulated the expression of adipogenic genes (Pparγ, C/ebpβ and Fabp4) in 3T3-L1 adipocytes. 3T3-L1 preadipocytes differentiated in the presence of PNX had increased lipid content. Stimulation of cell proliferation and differentiation by PNX was also confirmed in rat preadipocytes. PNX failed to induce AKT phosphorylation, however, PNX increased cAMP levels in 3T3-L1 cells. Suppression of Epac signalling attenuated PNX-induced Pparγ expression without affecting cell proliferation. Our data show that PNX stimulates differentiation of 3T3-L1 and rat primary preadipocytes into mature adipocytes via cAMP/Epac-dependent pathway. In conclusion our data shows that phoenixin promotes white adipogenesis, thereby may be involved in controlling body mass regulation.     

The adipokine Chemerin induces lipolysis and adipogenesis in bovine intramuscular adipocytes

The adipokine Chemerin is reported to regulate adipogenesis and glucose homeostasis in vivo and in 3T3-L1 cells. Our team is focused on the role of Chemerin in metabolism and intramuscular adipocyte differentiation because intramuscular fat is the basic material for the formation of marbling in livestock and poultry meat. In this study, bovine intramuscular mature adipocytes were cultured in medium with Chemerin, and the process of lipolysis of mature adipocytes and the adipogenesis of de-differentiated preadipocytes were investigated. The results showed that Chemerin induced significant lipolytic metabolism in intramuscular mature adipocytes, indicated by increased levels of glycerol, FFA, and up-regulated expression of the lipolysis critical factors HSL, LPL, and leptin. Meanwhile, the expressions of adipogenic key factors PPARγ, C/EBPα, and A-FABP were decreased by Chemerin during lipolysis or dedifferentiation in mature adipocytes. The de-differentiated preadipocytes could re-differentiate into mature adipocytes. Intriguingly, the formation of cells’ lipid droplets was promoted by Chemerin during preadipocyte differentiation. In addition, mRNA and protein expressions of PPARγ, C/EBPα, and A-FABP were up-regulated by Chemerin during preadipocytes differentiation. These results suggest that Chemerin promotes lipolysis in mature adipocytes and induces adipogenesis during preadipocyte re-differentiation, further indicating a dual role for Chemerin in the deposition of intramuscular fat in ruminant animals.

     

The anti-obesity effect of quercetin is mediated by the AMPK and MAPK signaling pathways

Quercetin is the most abundant flavonoid and is assumed to have protective roles against the pathogenesis of multiple diseases associated with oxidative stress. In the present study, we investigated the molecular mechanisms by which quercetin affects adipogenesis and apoptosis in 3T3-L1 cells. The exposure of 3T3-L1 preadipocytes to quercetin resulted in attenuated adipogenesis and decreased expression of adipogenesis-related factors and enzymes. Moreover, quercetin exposure up-regulated the levels of phosphorylated adenosine monophosphate-activated protein kinase (AMPK) and its substrate, acetyl-CoA carboxylase (ACC). Treatment of 3T3-L1 adipocytes with quercetin resulted in the induction of apoptosis and a concomitant decrease in ERK and JNK phosphorylation. Taken together, these data indicate that quercetin exerts anti-adipogenesis activity by activating the AMPK signal pathway in 3T3-L1 preadipocytes, while the quercetin-induced apoptosis of mature adipocytes was mediated by modulation of the ERK and JNK pathways, which play pivotal roles during apoptosis.