人Sema4C重组腺病毒载体的构建及其在小鼠成肌细胞系C2C12中的表达

利用Ad5腺病毒载体系统构建人Sema4C基因重组腺病毒表达载体并在成肌细胞系C2C12中表达,并初步探讨Sema4C基因在成肌发育过程中的可能作用。利用脂质体介导重组腺病毒载体转染HEK293细胞,包装出完整的腺病毒;将重组腺病毒载体感染C2C12成肌细胞后,利用激光共聚焦显微镜观察发现12h即有绿色荧光表达,24h后绿色荧光蛋白表达最强;流式细胞仪检测病毒的感染效率几乎达100%。WB检测结果表明感染重组腺病毒载体组C2C12细胞Sema4C蛋白的表达量明显高于空载体对照组（P<0.01）。为了进一步观察Sema4C基因对C2C12细胞增殖分化的影响,流式细胞仪检测了病毒感染48h后C2C12细胞的增殖指数,并对感染后诱导分化的C2C12细胞的分化情况进行了观察。我们的结果首次表明,过表达外源性人Sema4C基因不仅能使C2C12细胞的G0/G1期比例增加,细胞的增殖指数下降,同时在分化培养条件下还能促进C2C12细胞肌管的形成。     

低氧抑制C2C12细胞的体外分化

目的:研究低氧环境对C2C12细胞分化的影响,为探讨肌肉的发生和骨骼肌的损伤修复机理提供理论依据.方法:培养C2C12细胞,分别在常氧和低氧(3%O2)条件下诱导分化.免疫细胞化学方法检测成肌细胞终末分化的标志蛋白MI-IC(肌球蛋白重链)的表达;Western blot检测MHC以及MRFs(成肌调控因子)的表达.结果:在常氧条件下诱导分化的C2C12细胞融合形成肌管并表达MHC蛋白,而在低氧条件下培养的C2C12细胞几乎很少融合形成肌管并表达MHC蛋白;同时低氧下调了C2C12细胞中MRFs的表达.结论:低氧抑制了C2C12细胞的体外分化.     

SATB2促进BMP9诱导C2C12细胞的成骨分化

目的:研究特异AT序列结合蛋白2(Special AT-rich sequence-binding protein 2,SATB2)在骨形态发生蛋白9(bone morphogenetic proteins 9,BMP9)诱导的间充质干细胞(mesenchymal stem cells,MSCs)C2C12成骨分化中的作用。方法:首先用Ad-BMP9感染C2C12细胞,RT-PCR检测SATB2在基因水平上的表达变化,Western blot检测SATB2在蛋白水平上的变化;构建过表达SATB2重组腺病毒Ad-SATB2,感染C2C12细胞后,Western blot验证Ad-SATB2表达情况;用AdSATB2处理BMP9诱导的C2C12细胞,碱性磷酸酶(ALP)活性和染色检测成骨早期ALP的变化,茜素红S染色检测成骨晚期指标钙盐沉积的变化。结果:Ad-BMP9处理C2C12细胞后,比对照组SATB2在基因水平和蛋白水平上表达量上调;Ad-SATB2可以在细胞中成功表达SATB2蛋白;用Ad-SATB2处理BMP9诱导的C2C12细胞后,ALP以及钙盐的沉积与对照比较均上调。结论:SATB2可以促进BMP9诱导的间充质干细胞C2C12的成骨分化。     

过表达miR-155抑制C2C12成肌分化

为明确miR-155在C2C12成肌分化中的作用及分子机制,本研究构建了miR-155过表达腺病毒载体,运用过表达miR-155的腺病毒感染C2C12,并诱导其成肌分化。通过形态学观察,成肌标志基因mRNA和蛋白表达水平的检测,以及双荧光素酶报告基因系统对预测的miR-155靶基因(TCF4)的验证,结果表明,C2C12细胞分化中,过表达miR-155明显降低了肌管的形成,成肌标志基因MyoG和MyHC的mRNA表达量极显著地下降(P0.01),而MyoD差异不显著(P0.05),成肌标志基因蛋白检测结果与mRNA检测结果一致;进一步研究显示miR-155与预测的TCF4基因的3'UTR 3个靶点(1487-1493,1516-1522,4532-4583)中的1个(4532-4538)结合,并发现过表达miR-155显著降低了TCF4的mRNA水平(P0.05)。表明miR-155可能通过靶向TCF4抑制C2C12成肌分化。     

过表达miR-155抑制BMP9诱导间充质干细胞C3H10T1/2成骨分化

目的:研究过表达miR-155对BMP9诱导间充质干细胞C3H10T1/2成骨分化的影响。方法:(1)用重组腺病毒Ad-BMP9(BMP9)诱导C3H10T1/2细胞成骨分化,定量PCR(qPCR)检测miR-155的表达,RT-PCR检测Runx2和ALP的表达。(2)miR-155和BMP9共同处理C3H10T1/2细胞,qPCR检测miR-155的表达,ALP活性和染色检测早期成骨能力。(3)miR-155和BMP9共同处理C3H10T1/2细胞,诱导分化14d茜素红S染色检测晚期成骨能力。(4)miR-155和BMP9共同处理C3H10T1/2细胞,qPCR检测成骨分化相关基因Runx2、OSX、COL1A1、ALP、OCN和OPN的表达。(5)miR-155和BMP9共同处理C3H10T1/2细胞,Western blot检测p-Smad1/5/8、OCN和OPN蛋白水平的表达。(6)qPCR和Western blot分别检测HIF1α和VEGF的mRNA表达水平和蛋白质表达水平。(7)应用荧光素酶报告基因对miR-155的靶基因进行筛选和验证。结果:在BMP9诱导C3H10T1/2细胞成骨分化过程中,过表达miR-155降低ALP活性及染色;减少钙盐沉积;成骨分化相关基因Runx2、OSX、COL1A1、ALP、OCN和OPN表达降低;抑制p-Smad1/5/8、OCN和OPN蛋白水平的表达;HIF1α和VEGF的mRNA和蛋白表达水平减少。在对靶基因的检测中,过表达miR-155可以抑制HIF1α蛋白水平的表达,但对其mRNA水平无明显影响。结论:miR-155过表达减弱BMP9诱导间充质干细胞C3H10T1/2成骨分化,可能是通过抑制Smad/BMP信号通路发挥作用,也有可能是通过抑制靶基因HIF1α的表达来发挥作用。     

SDF-1/CXCR4在BMP9介导C2C12细胞成骨分化过程中的作用研究

为了观察SDF-1/CXCR4信号轴在BMP9促C2C12细胞成骨分化过程中的作用,通过重组腺病毒过表达BMP9,检测对C2C12细胞中SDF-1及受体CXCR4 mRNA和蛋白表达水平的影响;同时利用重组腺病毒或中和抗体干扰SDF-1/CXCR4,与BMP9先后作用于C2C12细胞,通过定量测定碱性磷酸酶(ALP)、染色测定ALP表达、免疫细胞化学测定骨钙蛋白(OCN)表达、茜素红S染色测定钙盐沉积、Real-time PCR检测成骨相关转录因子Runx2和Osx的表达、Western blot检测成骨分化信号通路MAPK和Smad的变化。结果显示,BMP9能明显抑制C2C12细胞中SDF-1、CXCR4的表达(P<0.01),且具有剂量和时间依赖性;预先干扰SDF-1/CXCR4能明显影响由BMP9介导的早、中期成骨标志物ALP、OCN及早期转录因子Runx2、Osx的表达(P<0.01)和MAPK、Smad信号通路相关蛋白的变化(P<0.05);外源性SDF-1并不能影响晚期成骨标志物钙盐沉积。提示SDF-1/CXCR4信号轴在由BMP9介导的C2C12细胞成骨分化早、中期过程中发挥重要作用。     

干扰Sema7A抑制C2C12成肌细胞的增殖和分化

为研究脑信号蛋白家族（Semaphorins）成员Sema7A对成肌细胞增殖和分化的影响,本文设计并合成了Sema7A基因的小干扰RNA（small interfering RNA,siRNA）,用此siRNA转染C2C12成肌细胞．通过Hoechst核染和流式细胞术检测细胞增殖情况,免疫荧光检测肌管的形成情况,real-time qPCR和Western印迹技术检测成肌标记基因的变化.结果显示,干扰Sema7A后,C2C12成肌细胞增殖减慢,处在G2和S期的细胞所占的比例明显下降,而G1期细胞的比例升高．免疫荧光检测结果显示,干扰Sema7A后,肌管的直径及MyHC+细胞所占比例均显著降低．Real-time qPCR和Western印迹结果也显示,肌肉分化标志基因MyoD、MyoG、MyHC的mRNA及蛋白质表达均下降．进一步检测Sema7A受体下游信号通路发现,干扰Sema7A后,其下游信号分子PI3K和AKT的磷酸化水平被下调．以上结果表明,Sema7A可以调节C2C12成肌细胞的增殖和分化,可能是通过其受体作用于PI3K/AKT信号通路实现的,这为进一步研究Sema7A在骨骼肌发育中的作用提供实验基础.     

过表达Runx2促进C2C12细胞成骨分化

利用Tet-on(Tetracycline-on)基因表达系统,通过强力霉素(doxycycline,DOX)诱导Runx2基因在C2C12细胞中的表达,探究Runx2促成骨分化功能,为其分子机制的研究提供一个理想的实验平台.先后将调控质粒pTet-on和反应质粒pTRE-Flag-Runx2转染入C2C12细胞,并用G418和潮霉素分别进行2轮筛选,运用实时荧光定量PCR选择对强力霉素诱导敏感的细胞克隆.用不同浓度DOX诱导C2C12/Tet/pTRE-Flag-Runx2细胞,蛋白免疫印迹检测Runx2的表达,确定DOX的最佳诱导浓度与时间,并检测C2C12细胞的成骨分化能力.结果表明,诱导细胞最佳DOX浓度为10μg/ml;最佳诱导时间为12h;诱导后Runx2基因高表达,C2C12细胞向成骨方向分化(P0.05).成功建立Tet调控Runx2基因表达C2C12细胞系,为进一步研究Runx2基因功能分子机制提供理想的细胞模型.     

敲减DTX4表达抑制C2C12细胞成肌分化

DTX4（Deltex 4 homolog）蛋白属于Deltex家族成员|Deltex家族是Notch信号通路的调节因子. 已知Notch信号通路在成肌分化中发挥重要作用. 然而,DTX4是否参与调控肌肉发育尚未有报道. 本研究探索DTX4对成肌分化的影响及作用机制. 实时定量PCR和蛋白质印迹分析揭示,伴随小鼠C2C12成肌细胞（myoblast）分化为肌管（myotube）过程,成肌分化标志蛋白肌球蛋白重链（myosin heavy-chain,MyHC）、肌细胞生成素(myogenin)表达逐渐升高,DTX4 mRNA及蛋白质表达水平也逐渐升高. 通过顺序专一的siRNA敲减DTX4表达后,C2C12成肌细胞肌管面积和肌管融合指数明显减少|MyHC、肌细胞生成素蛋白表达水平明显降低|但ERK信号通路未见明显变化.上述结果表明,敲减DTX4表达抑制C2C12细胞成肌分化.我们的结果提示,DTX4可能参与C2C12细胞成肌分化.     

C2C12 细胞胰岛素增敏的机制

目的:观察口服葡萄糖负荷对小鼠小肠组织网膜素基因表达的影响及网膜素对C2C12肌管细胞胰岛素敏感性的影响,并进一步探讨其机制。方法:半定量逆转录聚合酶链反应(RT-PCR)技术检测小鼠小肠组织网膜素mRNA的表达;葡萄糖转运实验观察网膜素对C2C12肌管细胞胰岛素敏感性的影响;Western blot检测Akt(Ser473)的磷酸化水平。结果:口服葡萄糖负荷30min后小鼠小肠组织网膜素基因表达显著减低(P<0.05),而60min后恢复至负荷前水平;葡萄糖转运实验发现:网膜素作用10min对C2C12肌管细胞基础葡萄糖转运无影响,但显著增加了胰岛素刺激的葡萄糖转运(P<0.05);Western Blot发现:网膜素和AICAR均显著增加了C2C12肌管细胞Ak(tSer473)的磷酸化水平(P<0.05)。结论:网膜素作为一种胃肠激素还受到葡萄糖负荷的调节,在C2C12肌管细胞,网膜素可通过增加Akt的磷酸化发挥胰岛素增敏作用。     

同源重组法制备口蹄疫病毒多基因重组腺病毒

通过细菌内同源重组的方法成功构建了含有O型口蹄疫病毒P1—2A和3C蛋白酶基因和3D基因的重组腺病毒表达载体。首先将P1—2A、3C和3D基因亚克隆连接到穿梭质粒pShuttle—CMV上,再将重组穿梭质粒用PmeI线性化后电转化携带有腺病毒骨架载体pAdeasy—1的大肠杆菌BJ5183感受态菌,经细菌内同源重组产生pAdcmv—p12x3c和pAdcmy—p12x3cd重组腺病毒质粒,经序列测定证实目的基因已正确的插入到腺病毒骨架载体中。重组腺病毒质粒经PacI线性化后转染HEK293细胞,转染1w内细胞出现典型病变。取转染细胞裂解液上清连续传代至第4代时,细胞于24～48h内即病变完全,收取接毒后24h细胞进行。PCR和RT—PCR检测,表明目的基因已整合到腺病毒基因组内,且在mRNA水平上有表达。取第4、6、8和10代病毒,用蛋白酶K处理后可扩增出目的基因,证明此重组病毒可稳定存在。本研究为FMDV腺病毒活载体疫苗的研究奠定了基础。     

干扰Sirt2促进C2C12成肌细胞分化

Sirt2是组蛋白去乙酰化酶(HDAC III)家族成员之一, 对细胞周期、自噬、脂肪细胞分化、神经细胞存活等生物学过程的调节发挥重要作用. 目前,Sirt2在肌肉发育过程中的研究尚未见报道.本文通过构建Sirt2慢病毒干扰载体,侵染C2C12成肌细胞,并用细胞免疫荧光化学、real-time PCR 和Western印迹方法,检测其对成肌分化标志基因及相关信号通路因子的影响. 结果显示,干扰质粒shRNA 663处理C2C12细胞后,Sirt2 mRNA及蛋白质表达水平与对照相比显著下调(P<0.01);C2C12细胞分化第4 d,MyoD,MyoG,MyHC mRNA及蛋白质表达均显著增加(P<0.01); PI3K,AKT,FoxO1磷酸化水平明显升高. 结果表明,Sirt2可通过PI3K/AKT/FOXO1信号通路来促进成肌细胞分化,是肌生成的一个潜在调节因子.     

TIEG1 negatively controls the myoblast pool indispensable for fusion during myogenic differentiation of C2C12 cells

The transforming growth factor (TGF)-β inducible early gene (TIEG)-1 is implicated in the control of cell proliferation, differentiation, and apoptosis in some cell types. Since TIEG1 functioning may be associated with TGF-β, a suppressor of myogenesis, TIEG1 is also likely to be involved in myogenesis. Therefore, we investigated the function of TIEG1 during myogenic differentiation in vitro using the murine myoblasts cell line, C2C12. TIEG1 expression increased during differentiation of C2C12 cells. Constitutive expression of TIEG1 reduced survival and decreased myotube formation. Conversely, knocking down TIEG1 expression increased the number of viable cells during differentiation, and accelerated myoblast fusion into multinucleated myotubes. However, expression of the myogenic differentiation marker, myogenin, remained unaffected by TIEG1 knockdown. The mechanism underlying these events was investigated by focusing on the regulation of myoblast numbers after induction of differentiation. The knockdown of TIEG1 led to changes in cell cycle status and inhibition of apoptosis during the initial stages of differentiation. Microarray and real-time PCR analyses showed that the regulators of cell cycle progression were highly expressed in TIEG1 knockdown cells. Therefore, TIEG1 is a negative regulator of the myoblast pool that causes inhibition of myotube formation during myogenic differentiation.     

Targeted down-regulation of caveolin-3 is sufficient to inhibit myotube formation in differentiating C2C12 myoblasts. Transient activation of p38 mitogen-activated protein kinase is required for induction of caveolin-3 expression and subsequent myotube formation.

Caveolin-3 is the principal structural protein of caveolae membrane domains in striated muscle cells. Caveolin-3 mRNA and protein expression are dramatically induced during the differentiation of C2C12 skeletal myoblasts, coincident with myoblast fusion. In these myotubes, caveolin-3 localizes to the sarcolemma (muscle cell plasma membrane), where it associates with the dystrophin-glycoprotein complex. However, it remains unknown what role caveolin-3 plays in myoblast differentiation and myotube formation. Here, we employ an antisense approach to derive stable C2C12 myoblasts that fail to express the caveolin-3 protein. We show that C2C12 cells harboring caveolin-3 antisense undergo differentiation and express normal amounts of four muscle-specific marker proteins. However, C2C12 cells harboring caveolin-3 antisense fail to undergo myoblast fusion and, therefore, do not form myotubes. Interestingly, treatment with specific p38 mitogen-activated protein kinase inhibitors blocks both myotube formation and caveolin-3 expression, but does not affect the expression of other muscle-specific proteins. In addition, we find that three human rhabdomyosarcoma cell lines do not express caveolin-3 and fail to undergo myoblast fusion. Taken together, these results support the idea that caveolin-3 expression is required for myoblast fusion and myotube formation, and suggest that p38 is an upstream regulator of caveolin-3 expression.     

Notch Pathway Activation Contributes to Inhibition of C2C12 Myoblast Differentiation by Ethanol

The loss of muscle mass in alcoholic myopathy may reflect alcohol inhibition of myogenic cell differentiation into myotubes. Here, using a high content imaging system we show that ethanol inhibits C2C12 myoblast differentiation by reducing myogenic fusion, creating smaller and less complex myotubes compared with controls. Ethanol administration during C2C12 differentiation reduced MyoD and myogenin expression, and microarray analysis identified ethanol activation of the Notch signaling pathway target genes Hes1 and Hey1. A reporter plasmid regulated by the Hes1 proximal promoter was activated by alcohol treatment in C2C12 cells. Treatment of differentiating C2C12 cells with a gamma secretase inhibitor (GSI) abrogated induction of Hes1. On a morphological level GSI treatment completely rescued myogenic fusion defects and partially restored other myotube parameters in response to alcohol. We conclude that alcohol inhibits C2C12 myoblast differentiation and the inhibition of myogenic fusion is mediated by Notch pathway activation.     

Expression of bone morphogenetic protein-2 via adenoviral vector in C2C12 myoblasts induces differentiation into the osteoblast lineage.

To examine the effectiveness of a gene transfer of bone morphogenetic protein (BMP)-2 into C2C12 myoblasts, we constructed a human BMP-2-expressing replication-deficient adenoviral vector, AxCAOBMP-2. C2C12 cells were infected in vitro with either this viral vector or an Escherichia coli LacZ gene-expressing control adenovirus vector. An efficient gene transfer to the C2C12 cells was confirmed with the LacZ gene-expressing vector by X-gal staining. Abundant BMP-2 expression in C2C12 cells infected with this viral vector was confirmed by immunofluorescence and Western blot analysis. C2C12 cells transferred with the BMP-2 gene by this vector produced alkaline phosphatase in the cells and also produced and secreted osteocalcin in the culture medium, demonstrating that a gene transfer of BMP-2 into C2C12 cells in vitro could convert these cells from myoblast to osteoblast lineage.     

Pax7基因在C 2C12细胞内的表达及诱导失活(简报)

配对框(Paired box)首先是在果蝇的分节基因中发现的一段DNA保守序列,编码能与DNA特异结合的一个蛋白质结构域。这些序列在进化中有一定的保守性,在许多种生物基因组内存在,其中包括小鼠和人。至今为止,在小鼠中分离到九个含配对框的Pax基因,按基因发现时序,分别定名为Pax 1至Pax 9。Pax 7是其中的一个成员,它不但含有配对框,还含有八肽结构(Octapeptide)和