VEGF和CEA在乳腺癌中的表达及与血管生成的关系

为了考察血管内皮生长因子(VEGF)和癌胚抗原(CEA)在乳腺癌中的表达及与血管生成的关系,本研究应用RT-PCR和Western blotting检测了30份乳腺癌组织和癌旁组织中的VEGF和CEA表达,并比较了人乳腺癌腺癌细胞系(MCF-7)和人正常乳腺上皮细胞(MCF10A)中的VEGF和CEA的表达。通过转染含有VEGF sh RNA (sh-VEGF)和CEA shRNA (sh-CEA)的慢病毒来敲低基因表达。将MCF-7和HUVEC的细胞共培养来模拟肿瘤微环境,并通过小管形成测定和细胞侵袭试验来评价VEGF和CEA对血管生成的影响。研究显示,与癌旁组织相比,VEGF和CEA在乳腺癌组织中明显上调(p0.05)。与MCF10A相比,MCF-7细胞中的VEGF和CEA的水平明显升高(p0.05)。VEGF和CEA的异常表达与TNM分期和淋巴结转移相关(p0.05)。敲低VEGF和CEA均可显著抑制MCF-7细胞中Notch1、Dell4和Jagged1的表达(p0.05)。敲低VEGF和CEA均抑制了HUVEC细胞的小管形成能力和侵袭能力(p0.05)。总之,VEGF和CEA在乳腺癌中明显上调,并且与患者的不良预后相关。敲低VEGF和CEA可通过抑制Notch1信号的激活来抑制乳腺癌细胞的侵袭和血管生成。     

一种新的肿瘤血管生成模型

通过脂质体介导 gfp表达质粒转移及G418筛选获得了稳定表达 gfp的小鼠膀胱移行细胞癌细胞株BTT GFP。利用 gfp作为肿瘤细胞的标记 ,结合罗丹明标记的葡聚糖尾静脉注射作血管造影 ,建立了一种新的肿瘤模型 ,具有简便、可靠、无创伤的优点 ,特别是可以通过荧光显微镜动态观察肿瘤转移病灶形成最早期阶段肿瘤细胞生长与肿瘤局部宿主血管的变化。利用新型鼠耳肿瘤模型观察到移植的肿瘤细胞会主动向宿主血管迁移 ,当肿瘤生长至仅 0 .3mm直径大小时即可见血管生成。免疫组织化学染色观察到肿瘤内新生血管SMA及CD31染色阳性 ;肿瘤细胞不仅高水平表达VEGF ,也高水平表达VEGF的受体Flk 1。提示肿瘤局部存在VEGF自分泌与旁分泌通路 ,肿瘤细胞高水平表达VEGF是新生血管生成的主要原因     

尿激酶受体反义RNA抑制人乳腺癌细胞的侵袭作用

将尿激酶受体 u PAR反义 RNA表达质粒 p URAS以脂质体法转染高侵袭性人乳腺癌细胞株 MDA- MB- 2 31 ,G41 8筛选抗性克隆 .Northern印迹法检测 u PAR反义 RNA的表达 ,RT- PCR法检测 u PAR的表达 ,牛奶板法测定细胞培养上清中纤溶活性 .改良 Boyden小室模型和裸小鼠乳房脂肪垫接种试验分别检测肿瘤细胞体外和体内侵袭能力 .反义克隆细胞能表达 u PAR反义RNA,其 u PAR表达水平及培养上清中纤溶活性明显降低 .反义细胞克隆体外侵袭能力比原代细胞 MDA- MB- 2 31和转染载体细胞克隆显著降低 .裸小鼠体内侵袭实验表明 ,反义细胞克隆的成瘤性、生长性和侵袭性均显著受到抑制 .u PAR至少在一部分恶性乳腺癌侵袭行为中发挥重要作用 ,反义 RNA可望成为抗肿瘤侵袭治疗的一种有效手段 .     

shRNA下调MTDH基因抑制人乳腺癌MCF-7细胞HIF-1α及VEGF表达

目的：探讨转移粘附基因（metadherin,MTDH）的表达对人乳腺癌细胞中肿瘤血管生成相关分子标志物缺氧诱导因子-1α（HIF-1α）及血管内皮生长因子（VEGF）表达的影响。方法：将针对MTDH基因的干扰质粒MTDH-shRNA转染乳腺癌MCF-7细胞,RT-PCR及Western blot验证其对MTDH基因的沉默效果;应用Western blot检测转染前后MCF-7细胞中缺氧诱导因子-1α（HIF-1α）及血管内皮生长因子（VEGF）在蛋白水平上的表达变化;MTT实验检测下调MTDH对MCF-7细胞增殖情况的影响。结果：MCF-7细胞转染48小时后,MTDH-shRNA转染组和MTDH-shRNA-neg转染组转染效率约70%。MTDH-shRNA转染组中MTDH在mRNA及蛋白水平上表达明显下调,此外HIF-1α及VEGF蛋白表达明显降低,与对照组比较差异有统计学意义（P〈0.05）。MTDH-shRNA转染组MCF-7细胞增殖明显受到抑制,与对照组比较差异有统计学意义（P〈0.05）。结论：在乳腺癌MCF-7细胞中下调MTDH基因可以抑制HIF-1α、VEGF表达及细胞增殖,提示MTDH基因可能对乳腺癌肿瘤血管生成有促进作用。     

小干扰RNA靶向VEGF基因体内外抑制乳腺癌细胞MCF-7的增殖

 血管生成与肿瘤生长、侵袭、转移密切相关.血管内皮生长因子能特异地促进内皮细胞分裂、增殖及迁移,在肿瘤新生血管生成过程中起着至关重要的作用.通过RNAi抑制VEGF表达的抗血管生成疗法可有效应用于肿瘤治疗.本研究采用化学修饰的siRNA在体内外抑制VEGF基因表达,探讨化学修饰的siRNA介导的RNA干扰技术在乳腺癌基因治疗的可行性和特异性.选用阳离子脂质体Lipofectamine^TM2000作为转染试剂,将针对人VEGF基因的小干扰RNA(small interfering RNA,siRNA)转染人类乳腺细胞株MCF-7和裸鼠移植瘤,在体内外诱导RNAi.采用四甲基偶氮唑蓝（MTT）法,逆转录聚合酶链反应(RT-PCR),蛋白印迹实验等检测siRNA治疗组和对照组VEGF基因表达及细胞增殖变化.体外实验结果显示：靶向VEGF基因siRNA转染乳腺癌MCF-7细胞后,细胞生长抑制率达52.5%;VEGF的mRNA和蛋白表达水平显著降低（P<0.01）;裸鼠体内实验结果显示：siRNA治疗组瘤组织的增长受到明显抑制;RT-PCR结果同时表明治疗组VEGF表达下调.体内外对照组各指标无显著变化.化学修饰的siRNA介导的RNAi在体内外均能成功下调靶基因VEGF的表达,抑制MCF-7细胞增殖,是潜在的肿瘤治疗新方法.     

骆驼蓬脂转移蛋白基因真核表达载体的构建及其体内外抗瘤效应的研究

目的:构建骆驼蓬脂转移蛋白(lipid transfer protein from Peganum harmala,PhLTP)基因真核表达质粒,并探讨其对黑色素瘤B16细胞在体内外的抗肿瘤作用。方法:将PhLTP基因亚克隆至pcDNA3.1上,获得重组质粒pcDNA3.1-PhLTP;用脂质体转染法将重组质粒及空载体外转染B16细胞,MTT检测其对B16细胞生长的影响。建立B16荷瘤小鼠模型,设重组质粒(pcDNA3.1-PhLTP)、空载(pcDNA3.1)、生理盐水和阳性药物(CTX)组,分别处理小鼠后测量各组肿瘤体积并称瘤重,计算抑瘤率。光镜观察鼠脾、肝等组织变化;免疫组织化学法检测各瘤体中PhLTP、血管内皮生长因子(VEGF)及碱性成纤维细胞生长因子(bFGF)的表达。结果:pcDNA3.1-PhLTP转染B16细胞72 h后,细胞增殖能力明显受到抑制(P0.01)。注射pcDNA3.1-PhLTP组的小鼠肿瘤生长速度明显减慢,肿瘤体积小于空载和生理盐水组(P0.05)。显微镜下可见重组质粒组肿瘤细胞有不同程度的点、片状坏死,而肝、肺等无明显病理损伤。重组质粒组肿瘤组织中有PhLTP蛋白的表达,且VEGF和bFGF的阳性表达指数都低于空载和生理盐水组(P0.01)。结论:成功构建了重组表达质粒pcDNA3.1-PhLTP,体内外实验结果显示其能有效地抑制B16细胞的生长,预示了该重组质粒在治疗黑色素瘤中的潜在应用价值。     

SiRNA-VEGF对子宫内膜癌ishikawa细胞增殖及凋亡的影响

目的:研究针对VEGF的RNAi技术对人子宫内膜癌细胞系ishikawa细胞中VEGF的抑制作用及对细胞生长、增殖的影响。方法:设计并合成针对VEGF序列特异性siRNA及阴性对照siRNA,转染ishikawa细胞,分别于转染后12h、24h、48h、72h、7d后提取细胞RNA,应用实时荧光定量PCR检测其对VEGF mRNA表达水平的影响,MTT法检测细胞增殖的情况,于转染后48h收集细胞软琼脂培养检测细胞克隆形成能力。结果:转染针对siRNA-VEGF的ishikawa细胞,于转染后12h、24h、48h、72h VEGF mRNA表达水平明显下降、细胞增殖受到明显的抑制,与对照组相比差异有统计学意义(P<0.05),于转染后7天这种抑制作用消失(P>0.05)。转染后48h实验组细胞克隆形成率低于对照组(P<0.05)。结论:针对VEGF的RNAi技术可有效抑制子宫内膜癌细胞系ishikawa细胞中VEGF基因的表达,抑制细胞生长增殖及细胞集落形成能力,提示VEGF基因在子宫内膜癌的发生、发展中可能具有重要作用,为进一步利用RNAi技术抑制肿瘤生长、血管形成及局部侵袭和远处转移提供研究基础。     

MicroRNA-493抑制乳腺癌MCF7细胞增殖、迁移和成瘤能力

为了研究miR-493对乳腺癌MCF7细胞增殖、迁移和肿瘤形成能力的影响及其可能的机制,该文使用pc DNA3.1(+)/miR-493重组质粒转染MCF7细胞,通过筛选获得高表达miR-493的细胞克隆。通过荧光定量PCR检测miR-493在MCF10A和MCF7及各细胞克隆中的表达;CCK8实验检测miR-493对MCF7细胞增殖能力的影响;Transwell和划痕实验观察miR-493高表达后MCF7细胞迁移和侵袭能力的改变,软琼脂克隆形成实验以及裸鼠实验检测miR-493对MCF7细胞肿瘤形成能力的影响。软件预测miR-493可能的靶基因,并通过荧光定量PCR和Western blot进行验证。该研究证明,miR-493能够有效抑制乳腺癌MCF7细胞的增殖、迁移、浸润和肿瘤形成的能力。     

电穿孔介导质粒DNA肿瘤内转移抑制恶性肿瘤生长与转移

利用携带绿色荧光蛋白（green fluorescent protein, GFP）编码基因的表达质粒,测试电穿孔方法介导目的基因活体组织内转移的效率并优化电击参数.在此基础上采用电穿孔技术直接将编码白介素12（IL-12）、白介素2（IL-2）、粒单细胞克隆刺激因子（GM-CSF）等免疫调节因子或反义血管内皮细胞生长因子121（VEGF₁₂₁）、可溶性血管内皮细胞膜受体（sFlk-1及ExTek）等血管生成抑制因子表达质粒转移至肿瘤局部.实验结果表明电穿孔介导GFP表达质粒肌肉内转移的效率较高,GFP可在肌细胞内持续高水平表达3周以上,而在肿瘤细胞内只能表达4～6 d,但高电压短脉冲电击组肿瘤内GFP阳性细胞数比低电压长脉冲组高2.68倍.多次电击介导IL-12表达质粒转移至肿瘤组织内,可有效地抑制小鼠膀胱癌BTT-gfp、人乳腺癌MCF-7及肝癌SMMC 7721-gfp的生长.MCF-7对血管生成抑制因子基因转移治疗较敏感,单独应用反义VEGF₁₂₁、sFlk-1或ExTek即显示明确的治疗效果.SMMC 7721-gfp单独应用sFlk-1有效.小鼠膀胱癌对单独应用反义VEGF₁₂₁、sFlk-1或ExTek治疗效果不理想,但联合应用sFlk-1和ExTek仍然可以有效地抑制肿瘤生长与转移,甚至使肿瘤缩小或消失.提示电穿孔技术是一项高效、安全、经济的体内基因转移方法.     

人EGFR显性负性突变体抑制胃癌细胞促血管形成能力

目的探讨人表皮生长因子显性负性突变体(dominant negative epidermal growth factor receptor,DNEGFR))对胃癌细胞促血管形成能力的影响及其分子机制,并检测其对裸鼠皮下移植瘤生长的影响。方法选用2株人胃癌细胞,分为如下6组:SGC-7901及NCI-N87细胞未转染组(US组,UN组),SGC-7901及NCI-N87细胞pEGFP-N1质粒转染组(ES组,EN组),SGC-7901及NCI-N87细胞pEGFPN1-DNEGFR质粒转染组(DS组,DN组)。采用人脐静脉内皮细胞(humanumbilical vein endothelial cell,HUVEC)管腔结构形成实验检测体外促血管形成能力,采用酶联免疫吸附测定法(enzyme-linked immunosorbent assay,ELISA)测定细胞培养液中血管内皮生长因子(vascular endothelial growth factor,VEGF)的水平,建立人胃癌细胞裸鼠移植瘤模型,标本微血管密度(microvessel density,MVD)检测体内促血管形成能力,标本体积检测其对裸鼠皮下移植瘤生长的影响。结果转染pEGFPN1-DNEGFR质粒的人胃癌细胞株出现HUVEC管腔结构形成抑制,培养液中VEGF水平降低,MVD计数降低,裸鼠皮下移植瘤体积变小。结论 DNEGFR可能通过下调VEGF分泌抑制胃癌细胞体外及裸鼠体内促血管形成能力,最终抑制裸鼠皮下移植瘤生长。     

三羟异黄酮对HER-2／neu高表达乳腺癌细胞血管生成相关因子表达的影响

三羟异黄酮(genistein)是大豆中的一种非营养成分,其结构与黄酮化合物类似,能竞争性地与雌激素受体结合,故称之为植物雌激素(phytoestmgen)。它具有广泛的生物学作用,如抗肿瘤、抗病毒、抗真菌、抗氧化、抗突变、抗高血压、抗增生等,其中genistein抑制肿瘤的血管生成是当前研究的热点之一。     

三羟异黄酮对HER-2/neu高表达乳腺癌细胞血管生成相关因子表达的影响

三羟异黄酮(genistein)是大豆中的一种非营养成分,其结构与黄酮化合物类似,能竞争性地与雌激素受体结合,故称之为植物雌激素(phytoestrogen)。它具有广泛的生物学作用,如抗肿瘤、抗病毒、抗真菌、抗氧化、抗突变、抗高血压、抗增生等,其中genistein抑制肿瘤的血管生成是当前研究的热点之一。肿瘤的血管生成是肿瘤进一步生长转移的基础,该过程受肿瘤细胞和血管内皮细胞分泌的血管生成相关因     

Vascular endothelial growth factor and Kaposi's sarcoma cells in human skin grafts.

Human cancer cells often produce tumors in animal models that incompletely reproduce the histology of the parental tumor. Kaposi's sarcoma (KS) cells, in particular, have not produced durable angiogenic lesions in animal models that resemble those of KS in humans. We investigated the contribution of transformed KS cells, vascular endothelial growth factor (VEGF), and human skin tissue on tumor development in a human skin graft/mouse model. High levels of serum VEGF (322 pg/ml) were seen in HIV-1-infected persons with KS compared with HIV-1-infected persons without KS (115 pg/ml). Human KS lesions expressed VEGF in the spindle cells. Transformed KS cells expressed the mitogenically active 121-amino acid and 165-amino acid isoforms of VEGF. Tumors induced by KS cells implanted in the SCID mice grew preferentially in human skin grafts rather than in ungrafted murine skin. Tumors induced in the presence of human skin grafts developed numerous lumens expressing alpha(v)beta(3) integrin. KS cells inoculated with neutralizing anti-VEGF antibody did not form tumors. This study supports an important role for VEGF in tumor development and shows how a human tissue can preferentially promote tumor growth.     

应用siRNA技术探讨MCF-7乳腺癌细胞分泌的VEGF对树突状细胞的影响

为探讨MCF-7乳腺癌细胞分泌的血管内皮生长因子（ vascular endothelial growth factor, VEGF）对树突状细胞（dendritic cell, DC）功能及其分化的影响,针对VEGF基因设计siRNA（small interfering RNA, siRNA),采用脂质体转染法以100 nmol/L最佳转染浓度导入MCF-7乳腺癌细胞（siRNA组）,以脂质体Lipofectamine　2000TM转染MCF-7 乳腺癌细胞培养上清培养正常DC作为对照（对照组）,采用ELISA法检测经siRNA 干扰VEGF基因后的MCF-7 乳腺癌细胞分泌的VEGF因子含量, Western 印迹检测VEGF蛋白表达,以探讨siRNA的基因沉默效果;以siRNA组和对照组培养上清分别培养外周血单个核细胞,用流式细胞仪检测所诱导DC表型CD1a、CD80、CD83、CD86和HLA-DR的表达,用MTT法检测转染前后两组DC 诱导的细胞毒性T淋巴细胞（cytotoxic T lymphocyte, CTL）对MCF-7细胞的细胞毒作用.结果显示,MCF-7 乳腺癌细胞培养上清能明显抑制正常DC分化成熟及抗原递呈能力,干扰VEGF基因后MCF-7 乳腺癌细胞培养上清对DC的影响明显降低,CD80、CD83、CD86和HLA-DR的表达较对照组显著升高,而CD1a表达下降（P＜0.01）.转染前后DC 诱导的CTL对MCF-7细胞的杀伤活性有明显差异（P＜0.01）.由此可见,siRNA可靶向抑制MCF-7乳腺癌细胞VEGF的表达,下调VEGF后的MCF-7 细胞上清对DC分化成熟及功能的抑制作用明显降低,从而推测VEGF在肿瘤的发生、发展和免疫抑制方面可能起着重要的作用.     

17beta-estradiol inhibits forskolin-induced vascular endothelial growth factor promoter in MCF-7 breast adenocarcinoma cells.

Vascular endothelial growth factor (VEGF) is a potent angiogenic factor whose expression is induced by the cAMP-dependent signalling pathway in several cell types, and by estrogens in some human breast cancer cells. Here, we investigated the cross-talk between estrogens and cAMP/PKA-dependent signalling pathway in human breast cancer MCF-7 cells. The results show that, in the absence of any CRE and ERE, forskolin induces whereas estrogens have no effect on VEGF promoter. Moreover, estrogens, through estrogen receptors, partly inhibit the forskolin-induced VEGF promoter in MCF-7 human breast cancer cells. Therefore, in breast cancers, estrogens could partly inhibit the effect of ligand-activated G protein-coupled receptors on VEGF expression.     

Newly identified biologically active and proteolysis-resistant VEGF-A isoform VEGF111 is induced by genotoxic agents

Ultraviolet B and genotoxic drugs induce the expression of a vascular endothelial growth factor A (VEGF-A) splice variant (VEGF111) encoded by exons 1–4 and 8 in many cultured cells. Although not detected in a series of normal human and mouse tissue, VEGF111 expression is induced in MCF-7 xenografts in nude mice upon treatment by camptothecin. The skipping of exons that contain proteolytic cleavage sites and extracellular matrix–binding domains makes VEGF111 diffusible and resistant to proteolysis. Recombinant VEGF111 activates VEGF receptor 2 (VEGF-R2) and extracellularly regulated kinase 1/2 in human umbilical vascular endothelial cells and porcine aortic endothelial cells expressing VEGF-R2. The mitogenic and chemotactic activity and VEGF111's ability to promote vascular network formation during embyonic stem cell differentiation are similar to those of VEGF121 and 165. Tumors in nude mice formed by HEK293 cells expressing VEGF111 develop a more widespread network of numerous small vessels in the peritumoral tissue than those expressing other isoforms. Its potent angiogenic activity and remarkable resistance to proteolysis makes VEGF111 a potential adverse factor during chemotherapy but a beneficial therapeutic tool for ischemic diseases.     

Invasive and angiogenic phenotype of MCF-7 human breast tumor cells expressing human cyclooxygenase-2

To evaluate the direct effect of human cyclooxygenase-2 (hCox-2) on human breast tumor cell proliferation, invasion, and angiogenesis, hCox-2 cDNA was transfected into slow growing, non-metastatic MCF-7 human breast tumor cells that express low levels of Cox-2. Two stable transfectant clones, designated MCF-7/hCox-2 clones 8 and 10, had significantly decreased (P < 0.05) doubling time, with two-fold greater number of cells during exponential growth compared to the MCF-7/vector control. Proliferation of both of the MCF-7/hCox-2 clones was significantly inhibited in a time- and dose-dependent manner by celecoxib. The MCF-7/hCox-2 clones 8 and 10 formed larger and greater numbers of colonies in soft agar than the MCF-7/vector control, with a corresponding increased invasion across an artificial Matrigel basement membrane in response to recombinant human epidermal growth factor (hEGF). The MCF-7/hCox-2 clones 8 and 10 had higher mRNA levels of two splice variants of vascular endothelial growth factor (VEGF), V145 and V165. These results demonstrate that hCox-2 directly increases breast tumor cell proliferation, stimulates invasion across a basement membrane, and induces synthesis of specific heparin binding splice variants of VEGF.     

TLK1B mediated phosphorylation of Rad9 regulates its nuclear/cytoplasmic localization and cell cycle checkpoint

Breast cancer is the most frequent malignancy in women and drug resistance is the major obstacle for its successful chemotherapy. In the present study, we analyzed the involvement of an oncofetal gene, sal-like 4 (SALL4), in the tumor proliferation and drug resistance of human breast cancer. Our study showed that SALL4 was up-regulated in the drug resistant breast cancer cell line, MCF-7/ADR, compared to the other five cell lines. We established the lentiviral system expressing short hairpin RNA to knockdown SALL4 in MCF-7/ADR cells. Down-regulation of SALL4 inhibited the proliferation of MCF-7/ADR cells and induced the G1 phase arrest in cell cycle, accompanied by an obvious reduction of the expression of cyclinD1 and CDK4. Besides, down-regulating SALL4 can re-sensitize MCF-7/ADR to doxorubicin hydrochloride (ADMh) and had potent synergy with ADMh in MCF-7/ADR cells. Depletion of SALL4 led to a decrease in IC50 for ADMh and an inhibitory effect on the ability to form colonies in MCF-7/ADR cells. With SALL4 knockdown, ADMh accumulation rate of MCF-7/ADR cells was increased, while the expression of BCRP and c-myc was significantly decreased. Furthermore, silencing SALL4 also suppressed the growth of the xenograft tumors and reversed their resistance to ADMh in vivo. SALL4 knockdown inhibits the growth of the drug resistant breast cancer due to cell cycle arrest and reverses tumor chemo-resistance through down-regulating the membrane transporter, BCPR. Thus, SALL4 has potential as a novel target for the treatment of breast cancer.