Lysine 2-hydroxyisobutyrylation levels determined adipogenesis and fat accumulation in adipose tissue in pigs

Background Excessive backfat deposition lowering carcass grade is a major concern in the pig industry,especially in most breeds of obese type pigs.The mechanisms involved in adipogenesis and fat accumulation in pigs remain unclear.Lysine 2-hydroxyisobutyrylation(Khib),is a novel protein post-translational modification(PTM),which play an important role in transcription,energy metabolism and metastasis of cancer cells,but its role in adipogenesis and fat accumulation has not been shown.Results In this study,we first analyzed the modification levels of acetylation(Kac),Khib,crotonylation(Kcr)and succinylation(Ksu)of fibro-adipogenic progenitors(FAPs),myogenic precursors(Myo)and mesenchymal stem cells(MSCs)with varied differentiation potential,and found that only Khib modification in FAPs was significantly higher than that in MSCs.Consistently,in parallel with its regulatory enzymes lysine acetyltransferase 5(KAT5)and histone deacetylase 2(HDAC2)protein levels,the Khib levels increased quadratically(P<0.01)during adipogenic differentiation of FAPs.KAT5 knockdown in FAPs inhibited adipogenic differentiation,while HDAC2 knockdown enhanced adipogenic differentiation.We also demonstrated that Khib modification favored to adipogenic differentiation and fat accumulation by comparing Khib levels in FAPs and backfat tissues both derived from obese-type pigs(Laiwu pigs)and lean-type pigs(Duroc pigs),respectively.Accordingly,the expression patterns of KAT5 and HDAC2 matched well to the degree of backfat accumulation in obese-and lean-type pigs.Conclusions From the perspective of protein translational modification,we are the first to reveal the role of Khib in adipogenesis and fat deposition in pigs,and provided new clues for the improvement of fat accumulation and distribution as expected via genetic selection and nutritional strategy in obese-type pigs.

The flavonoid glycoside vaccarin inhibits adipogenesis and stimulates lipolysis via Hedgehog signaling in 3T3-L1 adipocytes

Vaccarin,a flavonoid glycoside isolated from Vaccaria segetalis,is non-toxic to 3T3-L1 cells up to concentrations of 200μM.Accordingly,we investigated the effects of this natural product on adipogenesis and lipolysis in 3T3-L1 adipocytes.Our results revealed that vaccarin significantly inhibited lipid accumulation by suppressing the adipogenesis-related transcription factors peroxisome proliferator-activated receptorγ(PPARγ)and the CCAAT/enhancer-binding proteinα(C/EBPα).Specifically,lipid accumulation decreased by up to 27.7±2.7%when 3T3-L1 adipocytes were treated with a 10μM concentration of vaccarin.Mechanistic studies showed that the compound inhibited adipogenesis through activation of the Hedgehog(Hh)signaling pathway and so restoring Smo and Gli1 expression at an early stage of differentiation.In mature 3T3-L1 cells,vaccarin significantly increased the secretion of glycerol into the surrounding medium and thus indicating that it accelerated the degradation of triglycerides.In addition,vaccarin,was shown to enhance lipolysis through stimulation of the transcription levels of lipoprotein lipase,monoglycerides lipase,adipose triacylglyceride lipase,hormone-sensitive lipase and adipose differentiated-related protein.All told,vaccarin suppressed lipid accumulation and enhanced lipolysis during adipocyte differentiation by restoring Hh signaling.As such,it is a phytochemical capable of halting adipocyte hyperplasia and,thereby,ameliorating the effects of obesity.

RNA-seq analysis reveals the critical role of the novel lnc RNA BIANCR in intramuscular adipogenesis through the ERK1/2 signaling pathway

Background Long non-coding RNAs(lncRNAs)regulate numerous biological processes,including adipogenesis.Research on adipogenesis will assist in the treatment of human metabolic diseases and improve meat quality in livestock,such as the content of intramuscular fat(IMF).However,the significance of lncRNAs in intramuscular adipogenesis remains unclear.This research aimed to reveal the lncRNAs transcriptomic profiles in the process of bovine intramuscular adipogenesis and to identify the lncRNAs involved in the adipogenesis of bovine intramuscular adipocytes.Results In this research,a landscape of lncRNAs was identified with RNA-seq in bovine intramuscular adipocytes at four adipogenesis stages(0 d,3 d,6 d,and 9 d after differentiation).A total of 7035 lncRNAs were detected,including 3396 novel lncRNAs.Based on the results of differential analysis,co-expression analysis,and functional prediction,we focused on the bovine intramuscular adipogenesis-associated long non-coding RNA(BIANCR),a novel lncRNA that may have an important regulatory function.The knockdown of BIANCR inhibited proliferation and promoted apoptosis of intramuscular preadipocytes.Moreover,BIANCR knockdown inhibited intramuscular adipogenesis by regulating the ERK1/2 signaling pathway.Conclusion This study obtained the landscape of lncRNAs during adipogenesis in bovine intramuscular adipocytes.BIANCR plays a crucial role in adipogenesis through the ERK1/2 signaling pathway.The results are noteworthy for improving beef meat quality,molecular breeding,and metabolic disease research.

m^(6)A demethylase FTO regulate CTNNB1 to promote adipogenesis of chicken preadipocyte

Background:N6-methyladenosine(m^(6)A)is an abundant post-transcriptional RNA modification that affects various biological processes.The fat mass and obesity-associated(FTO)protein,a demethylase encoded by the FTO gene,has been found to regulate adipocyte development in an m^(6)A-dependent manner in multiple species.However,the effects of the m^(6)A methylation and FTO demethylation functions on chicken adipogenesis remain unclear.This study aims to explore the association between m^(6)A modification and chicken adipogenesis and the underlying mechanism by which FTO affects chicken preadipocyte development.Results:The association between m^(6)A modification and chicken lipogenesis was assessed by treating chicken pread-ipocytes with different doses of methyl donor betaine and methylation inhibitor cycloleucine.The results showed that betaine significantly increased methylation levels and inhibited lipogenesis,and the inverse effect was found in preadipocytes after cycloleucine treatment.Overexpression of FTO significantly inhibited m^(6)A levels and promoted proliferation and differentiation of chicken preadipocytes.Silencing FTO showed opposite results.Mechanistically,FTO overexpression increased the expression of catenin beta 1(CTNNB1)by improving RNA stability in an m^(6)A-dependent manner,and we proved that FTO could directly target CTNNB1.Furthermore,CTNNB1 may be a positive regulator of adipogenesis in chicken preadipocytes.Conclusions:m^(6)A methylation of RNA was negatively associated with adipogenesis of chicken preadipocytes.FTO could regulate CTNNB1 expression in a demethylation manner to promote lipogenesis.

低氧与DMOG对BMSCs成脂分化影响的对比研究

目的对比低氧培养与常氧下添加二甲基乙二酰基甘氨酸(DMOG)对小鼠骨髓间充质干细胞(BMSCs)成脂分化的影响。方法流式细胞术及细胞的成骨、成脂、成软骨三系分化对骨髓BMSCs进行鉴定;ELISA法观察低氧诱导因子-1α(HIF-1α)在对照组(21%O2)、低氧组(1%低氧培养组)及DMOG干预组(常氧+DMOG培养组)下表达情况;油红O染色法观察BMSCs内脂肪滴形成情况;分别采用Real-time PCR法和Western blot法检测各组成脂相关基因过氧化物酶增殖物激活受体γ(PPAR-γ)和CCAAT/增强子结合蛋白α(C/EBPα)的mRNA和蛋白水平。结果流式细胞术显示骨髓单个核细胞阳性表达CD90、CD44、CD105,阴性表达CD34,且能够向成骨、成软骨、成脂三系分化;与对照组HIF-1α蛋白表达(85.00±1.87)相比,低氧组及DMOG干预组(480.40±6.91、331±7.78)明显上调(P<0.01),其中低氧组HIF-1α蛋白较DMOG干预组HIF-1α蛋白明显上调(P<0.01);与对照组阳性细胞数(51.80±4.15)相比,低氧组和DMOG干预组(27.80±3.11、31.20±2.59)明显减少(P<0.05),低氧组与DMOG干预组阳性细胞数差异无统计学意义(P>0.05)。与对照组相比,低氧组与DMOG干预组PPARγ与C/EBPα的mRNA明显下调,差异具有统计学意义(P<0.01)。与低氧组相比,DMOG干预组PPAR-γ及C/EBPα的mRNA表达明显下调(P<0.05)。与对照组相比,低氧组及DMOG干预组PPAR-γ蛋白表达分别下调了28.3%及39.8%(P<0.01),C/EBPα的蛋白表达分别下调了36.7%及42.5%(P<0.01);与低氧组相比,DMOG干预组PPAR-γ及C/EBPα蛋白表达分别下降了16%及9.1%,差异均有统计学意义(P<0.05)。结论1%物理性低氧和常氧条件下0.5 mmol/L DMOG均能抑制BMSCs成脂分化,1%物理性低氧具有更强的抑制作用。

Identification of porcine fast/slow myogenic exosomes and their regulatory effects on lipid accumulation in intramuscular adipocytes

Background Pork quality is affected by the type of muscle fibers, which is closely related to meat color, tenderness and juiciness. Exosomes are tiny vesicles with a diameter of approximately 30–150 nm that are secreted by cells and taken up by recipient cells to mediate communication. Exosome-mediated muscle-fat tissue crosstalk is a newly discovered mechanism that may have an important effect on intramuscular fat deposition and with that on meat quality. Various of adipose tissue-derived exosomes have been discovered and identified, but the identification and function of muscle exosomes, especially porcine fast/slow myotube exosomes, remain unclear. Here, we first isolated and identified exosomes secreted from porcine extensor digitorum longus(EDL) and soleus(SOL), which represent fast and slow muscle, respectively, and further explored their effects on lipid accumulation in longissimus dorsi adipocytes.Results Porcine SOL-derived exosomes(SOL-EXO) and EDL-derived exosomes(EDL-EXO) were first identified and their average particle sizes were approximately 84 nm with double-membrane disc-shapes as observed via transmission electron microscopy and scanning electron microscopy. Moreover, the intramuscular fat content of the SOL was greater than that of the EDL at 180 days of age, because SOL intramuscular adipocytes had a stronger lipid-accumulating capacity than those of the EDL. Raman spectral analysis revealed that SOL-EXO protein content was much greater than that of EDL-EXO. Proteomic sequencing identified 72 proteins that were significantly differentially expressed between SOL-EXO and EDL-EXO, 31 of which were downregulated and 41 of which were upregulated in SOL-EXO.Conclusions Our findings suggest that muscle-fat tissue interactions occur partly via SOL-EXO promoting adipogenic activity of intramuscular adipocytes.

鸢尾黄素对前脂肪细胞分化的抑制作用

目的探索鸢尾黄素对前脂肪细胞分化的影响及机制。方法CCK8法检测鸢尾黄素对3T3-L1细胞存活率的影响。细胞接触抑制2 d(分化第0天),加入诱导剂和不同浓度鸢尾黄素(0、10、20、40、60μmol/L)处理细胞,对照组不加诱导剂。分化第9天,油红O染色观察脂滴形成,生化试剂盒检测TG、NEFA水平,Western blot法检测PPARγ、C/EBPα、perilipin-1、ADFP、AMPKα、p-AMPKα蛋白表达,RT-qPCR法检测Adiponectin、FABP4、FAS、Acly mRNA表达。结果鸢尾黄素浓度≤60μmol/L时不影响细胞存活率(P>0.05)。与诱导分化组比较,鸢尾黄素给药后,细胞内脂滴形成减少,TG、NEFA水平降低(P<0.01);C/EBPα、PPARγ、perilipin-1、ADFP蛋白表达降低(P<0.01),AMPKα、p-AMPKα蛋白表达升高(P<0.01);Adiponectin、FABP4、FAS、Acly mRNA表达降低(P<0.01)。结论鸢尾黄素具有抑制前脂肪细胞分化为成熟脂肪细胞的作用,其机制可能与C/EBPα、PPARγ、AMPKα和p-AMPKα的调控有关。

Unraveling the relationship between histone methylation and nonalcoholic fatty liver disease

Non-alcoholic fatty liver disease(NAFLD)poses a significant health challenge in modern societies due to shifts in lifestyle and dietary habits.Its complexity stems from genetic predisposition,environmental influences,and metabolic factors.Epigenetic processes govern various cellular functions such as transcription,chromatin structure,and cell division.In NAFLD,these epigenetic tendencies,especially the process of histone methylation,are intricately intertwined with fat accumulation in the liver.Histone methylation is regulated by different enzymes like methyltransferases and demethylases and influences the expression of genes related to adipogenesis.While early-stage NAFLD is reversible,its progression to severe stages becomes almost irreversible.Therefore,early detection and intervention in NAFLD are crucial,and understanding the precise role of histone methylation in the early stages of NAFLD could be vital in halting or potentially reversing the progression of this disease.

E2F转录因子家族在脂肪生成中的调控作用

E2F转录因子(E2F transcription factor,E2Fs)是视网膜母细胞瘤蛋白(Retinoblastoma protein,p Rb,RB或RB1)家族的主要靶蛋白.作为关键的转录因子家族成员,E2Fs在调控下游基因的转录、DNA合成和细胞周期中起到至关重要的作用.近年来,关于脂肪生成的研究显示,E2F家族的多个成员参与脂肪生成调控.综述了E2Fs在脂肪生成中的调控作用,主要包括E2Fs家族成员的结构特征及在脂肪生成中的作用机制.研究发现,E2F-1与E2F-3在哺乳动物中具有促进脂肪分化的功能,E2F-2可能参与牛前脂肪细胞分化过程,具体功能尚不清楚,而E2F-4,E2F-5是脂肪生成的抑制因子,在哺乳动物中起抑制脂肪生成作用,E2F-6,E2F-7,E2F-8在脂肪生成调控中的作用尚不明确.针对E2Fs在脂肪增殖和分化中的调控作用进行综述,探讨E2Fs作为肥胖靶点的治疗策略,为后续预防和治疗肥胖及相关疾病提供理论依据.

鸡前脂肪细胞温度应激相关基因和信号通路的鉴定分析

为探究温度应激如何影响鸡前脂肪细胞的转录组变化,鉴定分析关键基因和信号通路,以鸡永生化前脂肪细胞系ICP1为研究对象,收集分析20℃、37℃和43℃应激处理18 h的细胞转录组数据,并通过实时荧光定量PCR验证3个与脂质代谢相关的差异表达基因。结果显示:(1)与对照组37℃相比,20℃和43℃处理,LncPrdm16两个转录本的表达水平显著上调(P<0.05);而随温度升高,PRDM16两个转录本表达水平显著下调(P<0.05)。此外,20℃处理抑制前脂肪细胞增殖并促进细胞死亡,而43℃处理促进细胞增殖;(2)鉴定组间的显著差异表达基因(DEGs)(P<0.05):1 193个(20℃vs 37℃)、6 271个(20℃vs 43℃)和6 204个(37℃vs43℃)。基因富集分析(GO和KEGG)发现,DEGs主要参与脂质代谢、甘油磷脂代谢和PPAR信号通路(20℃vs 37℃),脱氧核糖核酸代谢、细胞周期过程、细胞大分子生物合成、磷脂酰肌醇信号、过氧化物酶体和脂肪酸降解等过程(20℃vs 43℃),以及磷脂代谢、神经系统、氨基酸代谢、脂肪酸代谢和神经活性配体-受体相互作用等通路(37℃vs 43℃);(3)定量PCR验证了20℃和43℃处理分别显著诱导FABP4和APOA1表达(P<0.05),以及显著抑制FABP4(P<0.01)和PPARα(P<0.05)的表达。综上所述,温度应激会诱导鸡前脂肪细胞中脂肪合成基因的差异表达,为深入研究其分子调控机制和应用于生产实践奠定基础。

Adipogenesis licensing and execution are disparately linked to cell proliferation

Coordination of cell differentiation and proliferation is a key issue in the development process of multi-cellular organisms and stem cells. Here we provide evidence that the establishment of adipocyte differentiation of 3T3-L1 cells requires two processes： the licensing of an adipogenesis gene-expression program within a particular growth-arrest stage, i.e., the contact-inhibition stage, and then the execution of this program in a cell-cycle-independent manner, by which the licensed progenitors are differentiated into adipocytes in the presence of inducing factors. Our results showed that differentiation licensing of 3T3-L1 cells during the contact-inhibition stage involved epigenetic modifications such as DNA methylation and histone modifications, whereas disturbing these epigenetic modifications by DNA methylation inhibitors or RNAi during the contact-inhibition stage significantly reduced adipogenesis efficiency. More importantly, when these licensed 3T3-L1 cells were re-cultured under non-differentiating conditions or treated only with insulin, this adipogenesis commitment could be maintained from one cell generation to the next, whereby the licensed program could be activated in a cell-cycle-independent manner once these cells were subjected to adipo- genesis-inducing conditions. This result suggests that differentiation licensing and differentiation execution can be uncoupled and disparately linked to cell proliferation. Our findings deliver a new concept that cell-fate decision can be subdivided into at least two stages, licensing and execution, which might have different regulatory relationships with cell proliferation. In addition, this new concept may provide a clue for developing new strategies against obesity.

C/EBPα regulates SIRT1 expression during adipogenesis

SIRT1 plays an important role in adipogenesis, but how SIRT1 is regulated in adipogenesis is largely unknown. In this study, we show that both SIRT1 protein and mRNA levels were increased along with CCAAT/enhancer-binding protein a （C/EBPa） during adipocyte differentiation. C/EBPa, but not C/EBPap30, activated SIRT1 promoter in both HeLa cells and 3T3-L1 preadipocytes. Furthermore, C/EBPa upregulated SIRT1 mRNA and protein levels in HeLa cells and increased SIRT1 expression in a p53-independent manner in Soas2 cells. In preadipocytes, ectopic expression of C/EBPa upregulated SIRT1 protein level and knockdown of C/EBPa led to the decrease of SIRTI pro- tein level. Moreover, by promoter deletion analysis, gel shift assay and chromatin immunoprecipitation, we found that C/EBPa bound to the SIRT1 promoter at a consensus C/EBPα binding site. These data demonstrate that C/ EBPα regulates SIRT1 expression during adipogenesis by directly binding to the SIRT1 promoter.

Integrative analysis of miRNA and mRNA profiles reveals that gga-miR-106-5p inhibits adipogenesis by targeting the KLF15 gene in chickens

Background:Excessive abdominal fat deposition in commercial broilers presents an obstacle to profitable meat quality,feed utilization,and reproduction.Abdominal fat deposition depends on the proliferation of preadipocytes and their maturation into adipocytes,which involves a cascade of regulatory molecules.Accumulating evidence has shown that microRNAs(miRNAs)serve as post-transcriptional regulators of adipogenic differentiation in mammals.However,the miRNA-mediated molecular mechanisms underlying abdominal fat deposition in chickens are still poorly understood.This study aimed to investigate the biological functions and regulatory mechanism of miRNAs in chicken abdominal adipogenesis.Results:We established a chicken model of abdominal adipocyte differentiation and analyzed miRNA and mRNA expression in abdominal adipocytes at different stages of differentiation(0,12,48,72,and 120 h).A total of 217 differentially expressed miRNAs(DE-miRNAs)and 3520 differentially expressed genes were identified.Target prediction of DE-miRNAs and functional enrichment analysis revealed that the differentially expressed targets were significantly enriched in lipid metabolism-related signaling pathways,including the PPAR signaling and MAPK signaling pathways.A candidate miRNA,gga-miR-106-5p,exhibited decreased expression during the proliferation and differentiation of abdominal preadipocytes and was downregulated in the abdominal adipose tissues of fat chickens compared to that of lean chickens.gga-miR-106-5p was found to inhibit the proliferation and adipogenic differentiation of chicken abdominal preadipocytes.A dual-luciferase reporter assay suggested that the KLF15 gene,which encodes a transcriptional factor,is a direct target of gga-miR-106-5p.gga-miR-106-5p suppressed the posttranscriptional activity of KLF15,which is an activator of abdominal preadipocyte proliferation and differentiation,as determined with gain-and loss-of-function experiments.Conclusions:gga-miR-106-5p functions as an inhibitor of abdominal adipogenesis by targeting the KLF15 gene in chickens.These findings not only improve our understanding of the specific functions of miRNAs in avian adipogenesis but also provide potential targets for the genetic improvement of excessive abdominal fat deposition in poultry.

Tissue Inhibitor of Metalloprotease-1(TIMP-1)Regulates Adipogenesis of Adipose-derived Stem Cells(ASCs)via the Wnt Signaling Pathway in an MMP-independent Manner

Tissue inhibitor of m etalloprotease-1(TIM P-1)is a tissue inhibitor o f matrix metalloproteinases(MMPs).It however exerts multiple effects on biological processes,such as cell growth,proliferation,differentiation and apoptosis,in an MMP-independent manner.This study aimed to examine the role of TIMP-1 in adipogenesis of adipose-derived stem cells(ASCs)and the underlying mechanism.We knocked down the TIMP-1 gene in ASCs through lentiviral vectors encoding TIMP-1 small interfering RNA(siRNA),and then found that the knockdown of TIMP-1 in ASCs promoted the adipogenic differentiation of stem cells and inhibited the Wnt/β-catenin signaling pathway in ASCs.We also noted that mutant TIMP-1 without the inhibitory activity on MMPs promoted the activation of Wnt/β-catenin pathway as well as the recombinant wild type TIMP-1 did,which indicated that the effect of TIMP-1 on Wnt/β-catenin pathway was MMPindependent.Our study suggested that TIMP-1 negatively regulated the adipogenesis of ASCs via the Wnt/β-catenin signaling pathway in an MMP-independent manner.

Three Important Transcription Factors Related to Lipogenesis and Adipogenesis in Mammal

Lipid metabolism and adipocyte differentiation are reglulated by networking of transcription factors. It is generally known that three factors, peroxisome proliferator-activated receptor y （PPARγ）, CCAAT/element-binding protein a （C/EBPa） and sterol regulatory element binding protein-1 （SREBP1）, play fundamental roles in metabolic pathways. And they are also important in adipocyte differentiation. Expressions of these factors are regulated by some compounds such as fatty acids or some steroid hormones （insulin） which is stimulated by the nutritional level. Furthermore, these factors are related to some metabolic diseases including type II diabetes and obesity, Lots of researches have focused on relationships between the factors and the genetic diseases. Different functions of factors on inducing the adipocyte differentiation are other hot spots according to previous studies. This paper summarized these studies and gave a limpid description of structures and functions of these genes.

Adipogenesis Inhibitory Activity of Hypersampsone P from Hypericum subsessile

Adamantane polycyclic polyprenylated acylphloroglucinols(PPAPs)with caged architecture,a special class of hybrid natural products,is specifically rich in the plant family Guttiferae,especially Hypericum or Garcinia genus.Hypersampsone P is one of Adamantane PPAPs compounds extracted from Hypericum subsessile.Here we have chosen,screened ten PPAPs and identified one of them showed an activity in inhibiting of adipocytes differentiation.Particularly,the compound,hypersamp-sone P,blunted the adipocyte differentiation dose-dependently.Moreover,hypersampsone P down-regulated the expressions of several key regulators for adipogenesis,including PPARγand FABP4.The treatment of cells at the early stage of adipo-genesis by hypersampsone P induced the greatest blunting of adipocyte differentiation and the effect might be involved in the LKB1-AMPK signaling pathway.

Long non-coding RNAMIR22HG inhibits the adipogenesis of human bone marrow mesenchymal stem cells with the involvement of Wnt/β-catenin pathway

Osteoporosis is a frequently occurring bone remodeling disorder worldwide with one characteristic being decreasing bone mineral density and a predisposition to bone fracture,which diminishes patients’quality of life.Several studies showed that imbalance between the osteogenesis and adipogenesis of bone marrow mesenchymal stem cells(BMSCs)took part in the development of osteoporosis.In previous study,we found MIR22HG regulated the osteogenesis of human BMSCs positively.In this study,we found that MIR22HG was decreased during the adipogenesis of human BMSCs and exerted negative effects on adipogenesis with the involvement of Wnt/β-catenin signaling pathway both in vitro and in vivo.Nitazoxanide could inhibit Wnt signaling and relieve MIR22HG’s suppression on adipogenesis.These findings indicated that MIR22HG had great potential in clinical application for osteoporosis treatment and prevention.

Pyrocincholic acid 3β-O-β-D-quinovopyranosyl-28-O-β-Dglucopyranoside suppresses adipogenesis and regulates lipid metabolism in 3T3-L1 adipocytes

Obesity is crucially involved in many metabolic diseases,such as type 2 diabetes,cardiovascular disease and cancer.Regulating the number or size of adipocytes has been suggested to be a potential treatment for obesity.In this study,we investigated the effect of pyrocincholic acid 3β-O-β-D-quinovopyranosyl-28-O-β-D-glucopyranoside(PAQG),a 27-nor-oleanolic acid saponin extracted from Metadina trichotoma,on adipogenesis and lipid metabolism in 3T3-L1 adipocytes.The 3T3-L1 pre-adipocytes were incubated with vehicle or PAQG for 6 days in differentiation process.PAQG significantly reduced the adipogenesis,adiponectin secretion and the expression level of key transcription factors related to adipogenesis,such as PPARc,C/EBPb,C/EBPa,and FABP4.Moreover,PAQG increased the levels of FFA and glycerol in medium and reduced TG level in mature adipocytes.Interestingly,PAQG not only promoted the activation of AMPK and genes involved in fatty oxidation including PDK4 and CPT1a,but also inhibited those genes involved in fatty acid biosynthesis,such as SREBP1c,FAS,ACCa and SCD1.In conclusion,PAQG inhibits the differentiation and regulates lipid metabolism of 3T3-L1 cells via AMPK pathway,suggesting that PAQG may be a novel and promising natural product for the treatment of obesity and hyperlipidemia.

Colocynth (<i>Citrullus colocynthis</i>) Flesh Extract Suppresses Adipogenesis by Down-Regulating Adipogenic Transcription Factors and Their Target Genes in 3T3-L1 Preadipocytes

Citrullus colocynthis, a member of the Cucurbitaceae family, is widely distributed in North Africa. The fruits are recognized for their wide range of medicinal uses and promising pharmaceutical potential. The present study aimed to investigate the anti-obesity effect of the ethanol extract of colocynth flesh (FCEE) in 3T3-L1 cells following treatment at different doses. The viability of 3T3-L1 preadipocytes was analyzed via MTT assay and triglycerides were stained with Oil red O to assess lipid accumulation. Additionally, adipogenesis-related gene expression was quantified via qRT-PCR. FCEE (0 - 150 μg/mL) dose-dependently suppressed intracellular triglyceride accumulation during the adipogenesis by 23% and 66% at 100 and 150 μg/mL, respectively, but did not affect cell viability. Analysis of the time-dependence of the effect of FCEE demonstrated that the greatest anti-adipogenic activity was observed during the early stages of differentiation. FCEE also decreased GPDH activity in a dose-dependent manner, with 98% decrease observed at 150 μg/mL. In addition, at same range of FCEE concentrations, the main transcription factors, including CCAAT/enhancer binding protein α (C/EBPα), peroxisome proliferator activated receptor γ (PPARγ), and sterol regulatory element-binding protein 1c (SREBP-1c), were downregulated by 90%, 89%, and 89%, respectively at 150 μg/mL. As these are the master regulators of adipogenesis. The inhibition of their downstream target genes was also observed. Colocynth may be useful in the treatment of obesity owing to its powerful effects on fat, which result in changes to adipocyte differentiation and fat mobilization.

Effect of Androstenedione on Adipogenesis in Murine C3H10T1/2 Mesenchymal Cells

Clinical trials of weak androgen androstenedione (AD) administered at a high concentration, showed an increase in muscle mass in men like strong androgens testosterone (T) and dihydrotestosterone (DHT), but did not show any inhibitory effect on fat mass unlike strong androgens. This observation prompted us to check the in-vitro effect of AD on adipogenesis using mouse mesenchymal multipotent cells (C3H10T1/2), which can differentiate into both myoblasts and adipocytes. Results indicated that AD inhibited adipogenesis at 10 nM, 100 nM and 1 μM concentrations, but not at 10 μM concentration. AD did not inhibit adipogenesis at 10 μM concentration and also did not inhibitmyogenesis at 10 μM concentration. Addition of bicalutamide, an androgen receptor (AR) antagonist decreased myogenesis and increased adipogenesis, indicating that the effect of AD was mediated through AR. Another weak androgen dehydroepiandrosterone (DHEA) also showed the same pattern of adipogenesis in 10T1/2 cells. AD also showed a similar pattern of adipogenesis in 3T3-L1 preadipocyte cells. Thus, the in-vitro results of AD on adipogenesis correlated with the in-vivo results of AD on fat-mass from clinical trials and suggested a possible difference in biological action between weak androgens (AD, DHEA) and strong androgens (T, DHT) on adipogenesis. Since the biological action of AD was mediated through AR, this physiological difference onadipogenesis could be due to the nature (partial agonist/antagonist) of AD binding to AR.