LRP16对乳腺癌MCF-7细胞增殖的影响

用Northern印迹方法检测雌二醇 (17β E2 )对LRP16mRNA表达的时间及剂量依赖性调控作用 .构建LRP16基因启动子序列调控的萤光素酶报告子 (pS0 ) ,并与雌激素受体α和 β(ERα和ERβ)表达载体共转染COS 7和MCF 7细胞后测定萤光素酶活性 .将LRP16基因的表达载体转染MCF 7细胞 ,测定过表达LRP16对细胞的生长特性的影响 .17β E2 使MCF 7细胞中LRP16mRNA表达水平增加 ,增加幅度未显示出 17β E2 培养时间和剂量的依赖性 .pS0 与ERα表达载体共转染细胞的相对萤光素酶活性较非共转染组 (对照组 )及pS0 ERβ表载体共转染组升高 5～ 10倍 .LRP16基因过表达促进MCF 7细胞的增殖 .研究表明 ,雌激素可能通过ERα上调乳腺癌MCF 7细胞LRP16基因的表达并促进细胞增殖     

LRP16通过调控E-钙粘合素的表达促进MCF-7细胞的侵袭生长

LRP16在原代乳腺癌组织中表达水平与雌激素受体α（ERα）表达状态以及腋窝淋巴结侵袭数目密切相关.为研究LRP16基因对乳腺癌MCF-7细胞侵袭生长的影响,并探讨涉及的分子机制,采用基质胶黏附实验与Transwell方法,检测内源性LRP16表达抑制MCF-7细胞的体外黏附、侵袭生长与迁移特征.结果表明,抑制LRP16在MCF-7细胞中的表达,降低了细胞的体外黏附、侵袭与迁移能力;采用FVB小鼠进行的实验性转移试验结果显示,抑制LRP16显著降低了MCF-7细胞的肺转移结节数目;为探索可能的分子机制,采用Western印迹方法,检测了LRP16对乳腺癌转移相关分子MMP-2, MMP-9, CD44和E-钙黏着蛋白表达的影响,结果在LRP16抑制的MCF-7细胞中只有E-钙黏着蛋白蛋白表达上调.进一步的Northern印迹与免疫组化实验结果表明,抑制LRP16可上调MCF-7细胞中E 钙黏着蛋白基因的mRNA与蛋白表达水平;共转染与双荧光素酶方法检测LRP16对E-钙黏着蛋白基因启动子的表达调控效应,结果显示,LRP16抑制E 钙黏着蛋白基因基因5′-近端启动子的转录激活,该抑制效应选择性存在于内源性ERα阳性细胞,并且依赖于雌激素的存在;染色质免疫共沉淀方法（ChIP）检测ERα与E-钙黏着蛋白基因启动子的相互作用,结果显示,在LRP16基因表达缺陷的MCF-7细胞中,ERα抗体沉淀到E-钙黏着蛋白基因启动子的DNA序列;上述研究结果表明,抑制LRP16基因表达,削弱了激素依赖型乳腺癌细胞的侵袭生长能力,其分子机制涉及了LRP16通过ERα介导对E-钙黏着蛋白基因基因转录激活的调控.     

LRP16与 ERα相互作用增强ERα介导的转录活性

LRP16是一个雌激素（E2）通过受体α（ERα）诱导表达的靶基因,LRP16不仅促进人乳腺癌MCF-7细胞的增殖,而且促进细胞的侵袭生长,但对LRP16作用的分子机制尚不清楚.首先,检测到LRP16表达缺陷明显削弱了MCF-7细胞对E2的反应性增殖能力;采用Northern 印迹与Western印迹法,进一步检测到抑制LRP16表达,明显损害了ERα靶基因对E2诱导上调的反应性,这些基因包括了cyclin D1, c-myc, c-fos,MTA3, pS2和维甲酸受体α基因（RARα）等;以上结果提示,LRP16参与了ERα介导的信号途径.将ERα模式启动子报告基因3×ERE-TATA-luc,ERα以及LRP16表达载体共转染MCF-7与HeLa细胞.结果发现,LRP16增强了ERα对报告基因的转录激活,并呈现对LRP16的剂量依赖性;进而采用GST-pull down以及免疫共沉淀方法证实了LRP16与ERα之间的直接相互作用,该作用不依赖于E2的存在,但可被E2增强;采用哺乳动物双杂交方法进一步证实了ERα与LRP16相互作用位点存在于A/B区的激活功能域-１（AF1）.以上结果表明,LRP16是ERα的一个共激活因子,通过相互作用,LRP16增强了ERα介导转录活性.该研究为LRP16促进ERα阳性乳腺癌细胞增殖与侵袭生长提供了合理的分子解释.     

RNA干扰技术抑制Polo-like激酶1表达对A549细胞的影响

Polo-like激酶1(Plk1)是参与细胞周期调控的重要分子,已在多种肿瘤中检测到Plk1的高表达,并发现与肿瘤细胞的增殖和预后密切关联.为明确Plk1在肺癌细胞系A549细胞增殖和周期运行中的作用,采用RNA干扰技术,构建能产生siRNA的质粒载体psiRNA-hH1-Plk1并导入A549细胞中.采用RT-PCR检测Plk1mRNA表达的变化,Western印迹检测Plk1、细胞周期蛋白B1、p53蛋白的表达变化,流式细胞术分析细胞周期变化和凋亡;免疫荧光染色检测α微管蛋白的表达.以此观察RNA干扰能否有效抑制Plk1的表达水平,以及抑制后对A549细胞生长的影响.结果表明,psiRNA-hH1-Plk1质粒能特异性地抑制Plk1基因的表达并使其活性下降,细胞周期蛋白B1及p53蛋白的表达水平升高,微管聚集障碍或形成单极的纺锤体,A549细胞增殖减慢,出现G2/M期阻滞并存在细胞凋亡.针对Plk1基因的RNA干扰有望用于肿瘤的基因治疗.     

腺病毒载体介导的HPV16E7基因沉默及其对宫颈癌CaSki细胞的影响

目的:构建利用RNA干扰技术沉默HPV16E7基因的腺病毒载体,并探讨其对人宫颈癌细胞系CaSki细胞增殖的影响,以及腺病毒载体在宫颈癌基因治疗中的可行性。方法:利用腺病毒载体介导的RNA干扰对CaSki细胞中HPV16E7蛋白的表达进行抑制。显微镜观察细胞病变情况。MTT实验用来检测腺病毒载体感染的CaSki细胞的增殖情况。结果:成功构建了用以介导CaSki细胞中HPV16E7基因沉默的腺病毒载体。腺病毒感染后的CaSki细胞发生典型病理变化,HPV16E7基因表达受到明显抑制,细胞分裂明显减慢。结论:腺病毒载体介导的RNA干扰能够特异性的沉默HPV16E7基因,抑制CaSki细胞的增殖,为腺病毒载体用于宫颈癌基因治疗的可行性提供了依据。     

抗酶1基因转染对HeLa细胞增殖及细胞周期的抑制作用

研究抗酶(antizyme)1对人宫颈癌HeLa细胞增殖与细胞周期的影响,并分析抗酶1对细胞周期蛋白D1(cyclin D1)的表达影响.采用定点突变技术,将抗酶1的frameshift位点缺失,随后将突变基因重组至真核表达载体pEGFP-N1中,鉴定后转染HeLa细胞.通过MTT法检测细胞增殖变化,流式细胞术分析抗酶1对细胞周期的影响.RT-PCR和Western印迹检测抗酶1转染对细胞周期蛋白 D1基因表达的影响.酶切结果显示,抗酶1突变基因成功克隆至pEGFP-N1中.成功转染HeLa细胞后,检测结果显示,抗酶1能够减慢HeLa细胞增殖速度,并使细胞停滞于G₀/G₁期,细胞周期蛋白D1基因的表达同时受到抑制.实验说明,抗酶1基因能够抑制HeLa细胞增殖,通过降低细胞周期蛋白D1的表达阻滞细胞周期.     

雌激素受体α短发夹RNA慢病毒载体的构建及其对乳腺癌干细胞的影响

目的:构建特异抑制雌激素受体α(ERα)基因的短发夹RNA(sh RNA)慢病毒表达载体,检测其对ERα的干扰效果,并探讨其对MCF7细胞中乳腺癌干细胞含量的影响。方法:以人的ERα核酸序列为靶标,根据sh RNA设计原则设计并化学合成特异的sh RNA序列,经退火处理后与p SIH-H1质粒连接,转化大肠杆菌DH5α后挑取单克隆并测序;将该克隆进行病毒包装并感染乳腺癌MCF7细胞,用嘌呤霉素进行筛选,最终得到稳定克隆;收取细胞,用Western印迹和q RT-PCR检测ERα在m RNA及蛋白水平上的变化,流式细胞术检测敲低ERα能否影响MCF7乳腺癌干细胞的含量。结果:经测序分析表明目标sh RNA序列成功插入载体,q RT-PCR检测稳定克隆,发现该sh RNA能有效抑制目的基因的m RNA转录水平,同时Western印迹检测发现内源性ERα量明显下降;流式细胞术检测发现ERα敲低的MCF7稳定克隆中雌激素诱导的乳腺癌干细胞含量上升的现象被明显抑制。结论:设计并构建的抑制ERα的sh RNA能够有效抑制ERα的表达,并下调MCF7细胞中乳腺癌干细胞的含量,为研究ERα在乳腺癌干细胞中的功能及机制奠定了实验基础。     

LRP16短发夹RNA慢病毒载体的构建及LRP16稳定抑制细胞的建立

目的:构建靶向LRP16基因的短发夹RNA(shRNA)慢病毒表达载体,鉴定其在HeLa细胞中对LRP16的抑制效果。方法:构建pWPT-U6-LRP16shRNA-CMV-GFP慢病毒载体,通过病毒感染、细胞筛选、Western印迹等步骤,获得LRP16基因稳定抑制的细胞株。结果:构建了具有LRP16干扰效果的慢病毒载体,感染HeLa细胞后获得了稳定沉默LRP16及对照的细胞株;经克隆筛选,在荧光显微镜下观察到近似100%感染细胞发出绿色荧光;Western印迹证实pWPT-U6-L374-CMV-GFP和pWPT-U6-L668-CMV-GFP均可显著抑制HeLa细胞株中LRP16蛋白的表达,其中pWPT-Gsi-L374-GFP的抑制效果更好。结论:构建了靶向人LRP16基因shRNA慢病毒载体及LRP16稳定抑制的HeLa细胞系。     

siRNA-cyclin D1对乳腺癌MCF-7细胞增殖的抑制作用

研究小干扰RNA(small interfering RNA,siRNA)对乳腺癌MCF-7细胞株cyclin D1表达的抑制及对细胞增殖的影响。化学合成针对cyclin D1基因的siRNA,转染MCF-7细胞株;分别应用荧光定量PCR和免疫印迹测定cyclin D1 mRNA和蛋白的表达,CCK-8测定细胞的增殖活性,流式细胞仪检测细胞周期,软琼脂培养检测细胞克隆形成能力。在实验中,10、50、100 nmol/L siRNA-cyclin D1分别使MCF-7细胞cyclin D1 mRNA表达降低了57．85%、63．22%和68．02%,蛋白表达降低了51．13%、62．09%、77．68%。转染siRNA-cyclin D1后,细胞增殖受到抑制,细胞周期阻滞于G1期,软琼脂克隆形成率降低。结果提示siRNA可以有效抑制MCF-7细胞株中cyclin D1的表达,使细胞周期阻滞于G1期,从而抑制细胞增殖。     

LRP16短发夹RNA慢病毒载体的构建及LRP16稳定抑制细胞的建立简

目的：构建靶向LRPl6基因的短发夹RNA（shRNA）慢病毒表达载体,鉴定其在HeLa细胞中对LRP16的抑制效果。方法：构建pWPT-U6-LRPl6shRNA-CMV-GFP慢病毒载体,通过病毒感染、细胞筛选、Western印迹等步骤,获得LRP16基因稳定抑制的细胞株。结果：构建了具有LRP16干扰效果的慢病毒载体,感染HeLa细胞后获得了稳定沉默LRP16及对照的细胞株;经克隆筛选,在荧光显微镜下观察到近似100％感染细胞发出绿色荧光;Western印迹证实pWPT-U6-L374-CMV-GFP和pWPT-U6-L668-CMV-GFP均可显著抑制HeLa细胞株中LRP16蛋白的表达,其中pWPT-Gsi-L374-GFP的抑制效果更好。结论：构建了靶向人LRP16基因shRNA慢病毒载体及LRP16稳定抑制的HeLa细胞系。     

siRNA对乳腺癌细胞Cyclin E表达和生长抑制作用

研究siRNA对乳腺癌MCF-7细胞株cyclin E表达的抑制及对细胞生长的影响。化学合成针对cyclin E基因的小干扰RNA（siRNA）,转染MCF-7细胞株;分别应用荧光定量PCR和免疫印迹测定cyclin E mRNA和蛋白质的表达,CCK-8测定细胞的增殖活性,流式细胞仪检测细胞周期,软琼脂培养检测细胞克隆形成能力。10、50、100nmol／L siRNA-cyclin E分别使MCF-7细胞cyclin E基因表达降低了24．7％、62．5％和71．0％,蛋白质表达降低了40．8％、66．5％和71．3％。转染siRNA-cyclin E后,G1期细胞增多,S期减少,增殖受到抑制,软琼脂克隆形成率降低。结果提示,在MCF-7细胞株中,导入针对cyclin E的siRNA,可有效抑制cyclin E的表达,进而使细胞增殖减缓,逆转其恶性表型。     

Furanodienone inhibits cell proliferation and survival by suppressing ERα signaling in human breast cancer MCF-7 cells

Estrogen receptor alpha (ERα) plays an important role in the development and progression of breast cancer and thus the attenuation of ERα activities is a promising treatment strategy. Furanodienone is one of the main bioactive chemical components of Rhizoma Curcumae which is commonly used in Chinese medicine for the treatment of cancer. In this study, we investigated the effects of furanodienone on human breast cancer MCF‐7, T47D, and MDA‐MB‐231 cells. Our results showed that furanodienone could inhibit MCF‐7, T47D, and MDA‐MB‐231 cells proliferation in a dose (10–160 µM) dependent manner. ERα‐negative MDA‐MB‐231 cells were less sensitive to furanodienone than ERα‐positive MCF‐7 and T47D cells. Furanodienone could effectively block 17β‐estradiol (E2)‐stimulated MCF‐7 cell proliferation and cell cycle progression and induce apoptosis evidenced by the flow cytometric detection of sub‐G1 DNA content and the appearance of apoptotic nuclei after DAPI staining. Furanodienone specifically down‐regulated ERα protein and mRNA expression levels without altering ERβ expression. Furanodienone treatment inhibited E2‐stimulation of estrogen response element (ERE)‐driven reporter plasmid activity and ablated E2‐targeted gene (e.g., c‐Myc, Bcl‐2, and cyclin D1) expression which resulted in the inhibition of cell cycle progression and cell proliferation, and in the induction of apoptosis. Knockdown of ERα in MCF‐7 cells by ERα‐specific siRNA decreased the cell growth inhibitory effect of furanodienone. These findings suggest that effects of furanodienone on MCF‐7 cells are mediated, at least in part, by inhibiting ERα signaling. J. Cell. Biochem. 112: 217–224, 2011. © 2010 Wiley‐Liss, Inc.     

Inhibition of cyclin D1 gene transcription by Brg-1

The evolutionarily conserved SWI-SNF chromatin remodeling complex regulates cellular proliferation. A catalytic subunit, BRG-1, is frequently down regulated, silenced or mutated in malignant cells, however, the mechanism by which BRG-1 may function as a tumor suppressor or block breast cancer cellular proliferation is not understood. The cyclin D1 gene is a collaborative oncogene overexpressed in greater than 50% of human breast cancers. Herein, BRG-1 inhibited DNA synthesis and cyclin D1 expression in human MCF-7 breast cancer epithelial cells. The cyclin D1 promoter AP-1 and CRE sites were required for repression by BRG-1 in promoter assays. BRG-1 deficient cells abolished and siRNA to BRG-1 reduced, formation of the BRG-1 chromatin complex. The endogenous cyclin D1 promoter AP-1 site bound BRG-1. Estradiol treatment of MCF7 cells induced recruitment of BRG-1 to the endogenous hpS2 gene promoter. Estradiol, which induced cyclin D1 abundance, was associated with a reduction in recruitment of the co-repressors HP1α/HDAC1 to the endogenous cyclin D1 promoter AP-1/BRG-1 binding sites. These studies suggest the endogenous cyclin D1 promoter BRG-1 binding site functions as a molecular scaffold in the context of local chromatin upon which coactivators and corepressors are recruited to regulate cyclin D1.     

Impact of cyclin E overexpression on Smad3 activity in breast cancer cell lines

Smad3, a component of the TGFβ signaling pathway, contributes to G1 arrest in breast cancer cells. Overexpression of the cell cycle mitogen, cyclin E, is associated with poor prognosis in breast cancer, and cyclin E/CDK2 mediated phosphorylation of Smad3 has been linked with inhibition of Smad3 activity. We hypothesized that the biological aggressiveness of cyclin E overexpressing breast cancer cells would be associated with CDK2 phosphorylation and inhibition of the tumor suppressant action of Smad3. Expression constructs containing empty vector, wild type (WT) Smad3, or Smad3 with CDK phosphorylation site mutations were co-transfected with a Smad3-responsive reporter construct into parental, vector control (A1), or cyclin E overexpressing (EL1) MCF7 cells. Smad3 function was evaluated by luciferase reporter assay and mRNA analysis. The impact of a Cdk2 inhibitor and cdk2 siRNA on Smad3 activity was also assessed. Cells expressing Smad3 containing mutations of the CDK phosphorylation sites had higher p15 and p21 and lower c-myc mRNA levels, as well as higher Smad3-responsive reporter activity, compared with controls or cells expressing WT Smad3. Transfection of cdk2 siRNA resulted in a significant increase in Smad3-responsive reporter activity compared with control siRNA; reporter activity was also increased after the treatment with a Cdk2 inhibitor. Thus, cyclin E-mediated inhibition of Smad3 is regulated by CDK2 phosphorylation of the Smad3 protein in MCF7 cells. Inhibition of CDK2 may lead to restoration of Smad3 tumor suppressor activity in breast cancer cells, and may represent a potential treatment approach for cyclin E overexpressing breast cancers.     

Impact of cyclin E overexpression on Smad3 activity in breast cancer cell lines

Smad3, a component of the TGFβ signaling pathway, contributes to G₁ arrest in breast cancer cells. Overexpression of the cell cycle mitogen, cyclin E, is associated with poor prognosis in breast cancer, and cyclin E/CDK2 mediated phosphorylation of Smad3 has been linked with inhibition of Smad3 activity. We hypothesized that the biological aggressiveness of cyclin E overexpressing breast cancer cells would be associated with CDK2 phosphorylation and inhibition of the tumor suppressant action of Smad3. Expression constructs containing empty vector, wild-type (WT) Smad3 or Smad3 with CDK phosphorylation site mutations were co-transfected with a Smad3-responsive reporter construct into parental, vector control (A1) or cyclin E overexpressing (EL1) MCF7 cells. Smad3 function was evaluated by luciferase reporter assay and mRNA analysis. The impact of a Cdk2 inhibitor and cdk2 siRNA on Smad3 activity was also assessed. Cells expressing Smad3 containing mutations of the CDK phosphorylation sites had higher p15 and p21 and lower c-myc mRNA levels, as well as higher Smad3-responsive reporter activity, compared with controls or cells expressing WT Smad3. Transfection of cdk2 siRNA resulted in a significant increase in Smad3-responsive reporter activity compared with control siRNA; reporter activity was also increased after the treatment with a Cdk2 inhibitor. Thus, cyclin E-mediated inhibition of Smad3 is regulated by CDK2 phosphorylation of the Smad3 protein in MCF7 cells. Inhibition of CDK2 may lead to restoration of Smad3 tumor suppressor activity in breast cancer cells, and may represent a potential treatment approach for cyclin E overexpressing breast cancers.Key words: Smad3, breast cancer, cyclin E, CDK2, TGFβ