siRNA沉默SIRT1基因对宫颈癌细胞HeLa增殖和凋亡的影响

化学合成靶向SIRT1基因的小干扰RNA,脂质体法转染人宫颈癌细胞株HeLa,观察小干扰RNA沉默SIRT1基因对HeLa增殖及细胞凋亡的影响。在优化siRNA SIRT1转染条件的基础上,应用RT-PCR和Western blot分别检测各组SIRT1 mRNA、SIRT1蛋白及凋亡相关蛋白的表达;CCK-8法检测细胞增殖抑制率;Hoechst荧光染色法和流式细胞仪检测细胞凋亡。结果表明,siRNA SIRT1转染细胞组SIRT1 mRNA水平和蛋白表达量明显低于对照组;siRNA SIRT1转染组细胞增殖受抑制,细胞凋亡率明显增加;凋亡相关蛋白P53、P21表达上调,Survivin表达下调。上述结果表明:siRNA SIRT1诱导的HeLa细胞凋亡与P53、P21、Survivin通路关系密切,但siRNA SIRT1诱导HeLa细胞凋亡的详尽机制有待进一步研究。     

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。     

小干扰RNA对庚型肝炎病毒基因在人Huh-7细胞中表达的抑制作用

RNA干扰(RNAi)是由小干扰RNA(siRNA)引发的生物细胞内同源基因的转录后基因沉默现象, 是近年来兴起的一项研究生物基因调控与功能的崭新技术. 庚型肝炎病毒(HGV)是一单正链RNA病毒, 复制时不与宿主细胞基因组整合, 尤其适合用于RNAi的研究. 构建了含HGV完整结构基因并携带筛选标志潮霉素基因的真核表达载体pVAX.EH, 转染Huh-7细胞后, 筛选获得稳定表达HGV 结构蛋白的Huh-7细胞株(Huh-7-EH). RT-PCR和Western blot检测证实, HGV结构基因能在Huh-7-EH细胞中转录、表达, 并能进行剪切和翻译后修饰. 以体外转录法制备了2对靶向HGV E2基因的siRNA(1-E2 siRNA和2-E2 siRNA), 将其导入Huh-7-EH细胞中, 采用Western blot和克隆形成实验证实, HGV 1-E2 siRNA和2-E2 siRNA均能特异性抑制HGV结 构蛋白的表达, 抑制作用可维持1周以上. 其中2-E2 siRNA的抑制作用更强, 转染后对Huh-7-EH细胞潮霉素抗性克隆形成的抑制率达到了99%. Huh-7-EH细胞转染siRNA后对潮霉素敏感, 说 明HGV E2 siRNA不仅使HGV E2区的mRNA降解, 还可使融合在HGV E2区下游的潮霉素mRNA降解. 综上所述, 本实验建立的稳定表达HGV结构蛋白的Huh-7-EH细胞株, 能作为用于研究HGV复制和RNAi的细胞模型; HGV结构基因区的siRNA可同时抑制HGV结构蛋白及其下游的潮霉素基因的表达, 证明RNAi在真核细胞Huh-7-EH内可能存在放大作用.     

siRNA沉默HPV18-E7基因表达对人宫颈癌HeLa细胞凋亡和增殖的影响

研究小干扰RNA(siRNA)沉默18型人乳头瘤病毒(Human papillomavirus 18,HPV18)E7基因对人宫颈癌HeLa细胞凋亡和增殖的影响。培养人宫颈癌HeLa细胞株,构建靶向E7基因的两条siRNA,转染HeLa细胞株(实验组:分为siE7-1组和siE7-2组),以不做任何处理的HeLa细胞作为空白对照组(NC),转染无功能siRNA的HeLa细胞作为阴性对照组(Scramble,SCR)。转染48h后,采用实时荧光定量PCR(RT-PCR)检测转染E7siRNA后HeLa细胞mRNA含量变化;采用蛋白免疫印迹法(Western blot)检测E7蛋白表达量变化;流式细胞术Flow cytometry(FCM)检测HeLa细胞凋亡情况;克隆形成和CCK-8检测HeLa细胞生长增殖情况。与NC组相比,siE7-1组和siE7-2组E7基因mRNA表达明显下调,差异有统计学意义(P0.01);转染48h后,与NC组相比,siE7-1和siE7-2实验组HeLa细胞内HPV18-E7蛋白表达水平明显下降(P0.05);转染48h后,siE7-1组和siE7-2组的细胞凋亡率分别为17.78%和36.44%,与NC组相比明显增多,差异有统计学意义(P0.01),细胞凋亡结果提示siRNA沉默E7促进HeLa细胞凋亡;CCK-8实验结果显示siE7-1组和siE7-2组细胞生长增殖抑制,差异有统计学意义(P0.01);克隆形成实验结果与CCK-8实验结果一致,siE7-1组和siE7-2组HeLa细胞形成的克隆数明显少于NC组,细胞生长增殖抑制(P0.01)。研究结果表明,沉默E7基因促进人宫颈癌HeLa细胞凋亡,抑制增殖,为宫颈癌治疗提供潜在靶点。     

应用DNA芯片鉴定HPV18 E6-siRNA诱导HeLa 细胞凋亡的分子机制

高危型人乳头瘤病毒（human papillomavirus,HPV）的E6基因在宫颈癌的发生中起关键作用,特异siRNA能有效抑制宫颈癌HeLa 细胞内HPV18 E6基因的表达,诱导肿瘤细胞凋亡.为进一步探讨HPV18 E6-siRNA诱导HeLa 细胞凋亡的分子机制,针对HPV18-E6基因设计siRNA序列,利用人源U6启动子为模板,经PCR表达框架法体外扩增,转染宫颈癌HeLa细胞抑制HPV18 -E6基因表达,从而诱导肿瘤细胞凋亡.对转染前后HeLa细胞总RNA样品进行荧光标记后,与Agilent Human 1A寡核苷酸芯片杂交、扫描、数据分析及标准化处理,确定表达差异的基因并经荧光定量PCR对部分基因进行验证,结合PANTHER数据分析系统,将这些基因按照生物学功能进行归类,查阅GenBank数据库及相关文献,对其结果进行深入分析及讨论.在检测的18 716个基因和EST中,共筛出差异表达基因359个,其中307个基因表达上调,52个基因表达下调,主要包括细胞周期相关基因CCNG1、p21;凋亡相关基因CASP4、CASP6、IGFBP3、DFFA;泛素蛋白酶解途径相关基因E6-AP、UBE2C;角化细胞分化相关基因KRT4、KRT6E、KRT18;抑癌基因RECK、VHL等.研究结果表明,HPV18 -E6基因抑制引起的细胞凋亡效应主要是通过P53信号途径和泛素蛋白酶解信号途径调节细胞周期相关基因和凋亡相关基因的表达,从而抑制HeLa细胞增殖、促进细胞凋亡.同时,抑癌基因的激活,角化细胞分化和免疫相关基因的表达上调,都说明了E6抑制后肿瘤细胞恶性转化程度的下降.     

HPV16 E6对HeLa细胞中Rap1GAP蛋白水平下调的研究

目的探讨HPV16E6对细胞中Rap1GAP蛋白水平的影响,为阐明宫颈癌发生发展的分子机制提供实验依据。本研究组前期实验显示,宫颈癌石蜡切片组织中Rap1GAP蛋白水平下降,且与高危型HPV16/18感染相关。本文将进一步探讨HPV16 E6是否导致Rap1GAP蛋白下调的原因。方法通过将HPV16 E6基因插入pGEX-KG的BamHI和Hind Ⅲ酶切位点构建GST标记的HPVE6质粒,采用脂质体转染法将其转染入HeLa细胞中,Westernblot方法观察GST-tagged-HPV16 E6在HeLa细胞中的表达,并观察其对HeLa细胞中内源性Rap1GAP蛋白水平的影响。结果测序表明成功构建GST标记的HPV16E6质粒;Western blot检测表明HPV16E6在HeLa细胞中成功表达;并且发现HeLa细胞中过表达HPV16 E6后,Rap1GAP蛋白相对含量(0.602±0.205)明显低于未转染组(1.130±0.163),差异具有统计学意义(P0.05)。结论HPV16 E6下调Rap1GAP蛋白水平。     

人乳头瘤病毒l6型E6-E7融合蛋白真核表达载体的构建与鉴定

目的构建人乳头瘤病毒l6型(HPV16)E6-E7融合蛋白真核表达载体,为研究其基因疫苗免疫活性奠定实验基础。方法 PCR扩增HPV16 E6-E7基因片段,将其连接到真核表达载体pcDNA3.1(+),构建真核表达载体pcDNA3.1(+)/HPV16 E6-E7,双酶切及测序鉴定。将质粒转染HeLa细胞,RT-PCR鉴定E6-E7基因在HeLa细胞中的表达。提取质粒免疫小鼠,利用免疫组化方法检测在其肌肉组织中的表达。结果成功构建了真核表达载体pcDNA3.1(+)/HPV16 E6-E7;在转染pcDNA3.1(+)/HPV16 E6-E7的细胞中检测到HPV16 E6-E7基因。在免疫该质粒的小鼠肌肉组织中可以检测到该质粒的蛋白表达。结论成功的构建的了真核表达载体pcDNA3.1(+)/HPV16 E6-E7,该载体能在HeLa细胞内以及小鼠骨骼肌细胞内有效表达。     

靶向VEGF小干扰RNA协同5-FU诱导人乳腺癌细胞MCF-7凋亡机制的研究

探讨慢病毒介导的靶向VEGF小干扰RNA联合应用化疗药物5 FU诱导人乳腺癌细胞MCF-7凋亡的机制。以携带VEGF siRNA的慢病毒载体感染MCF-7细胞,应用RT-PCR和Western blot分别检测各组VEGF mRNA、VEGF蛋白及凋亡相关蛋白的表达,流式细胞术检测细胞凋亡。结果表明,慢病毒VEGF siRNA干扰组细胞VEGF mRNA和蛋白表达水平明显低于对照组,凋亡相关蛋白P53及P21表达上调,而SIRT1、Bcl-2及Survivin表达下调。流式细胞术检测显示慢病毒干扰组及5-FU组细胞凋亡率显著升高,联合治疗组的协同作用更为明显。上述结果表明：慢病毒介导的RNA干扰能明显抑制MCF-7细胞VEGF的表达,通过下调SIRTI蛋白的表达,导致P53蛋白表达上调,并调控其下游P21、bcl-2和Survivin的表达,从而诱导MCF-7细胞的凋亡,并且提高了MCF-7对5-FU的敏感性。     

siRNA对肝纤维化的抑制作用

目的：研究肝星状细胞（use）中smad2特异性小干扰RNA（siRNA）对I型胶原表达的抑制作用,探讨抗肝纤维化的基因治疗新方法。方法：设计合成靶向Smad2基因的siRNA,将筛选成功的siRNA瞬时转染入体外培养的肝星状细胞（HSC）,并给予转化生长因子p（TGF．B）刺激,应用RT—PCR和Westernblot技术检测对照组与实验组I型胶原mRNA水平和蛋白水平表达差异,研究siRNA对I型胶原表达的抑制作用。结果：siRNA能明显降低肝星状细胞中Smad2的RNA和蛋白的表达水平,证实筛选的siRNA有效,能特异性抑制Smad2的基因表达;TGF-β刺激肝星状细胞后,与对照组比较,siRNA转染组细胞外基质（ECM）成分I型胶原的表达水平明显降低（P〈0．05）。结论：siRNA能够抑制TGFβ对肝星状细胞的激活,阻断TGFB—Smads传导通路,使I型胶原分泌下调,有效抑制TGFB诱导的肝纤维化。     

KDR靶向RNA干扰对MCF一7细胞凋亡的影响

目的：研究KDR靶向RNA干扰对MCF-7细胞凋亡的影响,探讨其可能的机制。方法：采用阳离子脂质体Lipofecta．mine2000TM作为转染试剂将人KDR基因的siRNA转染人类乳腺细胞株MCF-7,诱RNAi,采用Hoechst33258染色和半定量RT—PCR检测Caspase-3、survivin的mRNA表达及细胞凋亡变化;比色法检测Caspase．3的活性;利用免疫组织化学方法检测survivin的表达,并用图像分析仪分析蛋白表达强度。结果：靶向KDR的siRNA转染MCF-7后,Caspase-3的mRNA表达上调,survivin基因mRNA及蛋白表达水平下调（P〈0．05）。结论：KDRsiRNA通过减少乳腺癌细胞survivin的表达,增加Caspase．3表达来促进肿瘤细胞凋亡,发挥其抗肿瘤作用。     

Apoptosis induced by an antagonist peptide against HPV16 E7 in vitro and in vivo via restoration of p53

Human papilloma virus type 16 (HPV16) E7 is a viral oncoprotein that is believed to play a major role in cervical neoplasia. A novel antagonist peptide against HPV16 E7 was previously selected by phage display screening and the selected peptide was found to have anti-tumor efficacy against HPV16-positive cervical carcinoma through induction of cell cycle arrest. In the current study, to further elucidate the mechanisms of the antagonist peptide, the effects of the peptide on apoptosis are investigated by RT-PCR, Western blotting, MTT assay, TUNEL staining, Annexin V apoptosis assay, flow cytometry, and animal experiments. The antagonist peptide showed obvious anti-tumor efficacy through apoptosis induction, both in HPV16-positive cervical cancer cell lines and tumor xenografts. Our results also revealed that the peptide induced accumulation of cellular p53 and p21, and led to HPV16 E7 protein degradation. In the case of mRNA levels, it resulted in unaltered p53 and HPV16 E7 expression, but increased expression of p21. In contrast, the induction of apoptosis and p53 reactivation effects by the selected peptide were abolished after E7 knocked down with siRNA. These results demonstrate that the selected peptide can induce E7 degradation and lead to marked apoptosis in HPV16-related cancer cells by activating cellular p53 and its target genes, such as p21. Furthermore, the evident therapeutic efficacy obtained from the subcutaneous tumor model experiments in nude mice suggests a therapeutic potential for HPV16-related cancers of the selected peptide. Therefore, this specific peptide may be used to create specific biotherapies for the treatment of HPV 16-positive cervical cancers.     

RNA interference against HPV16 E7 oncogene leads to viral E6 and E7 suppression in cervical cancer cells and apoptosis via upregulation of Rb and p53

The simultaneous expression of human papillomavirus type 16 (HPV16) E6 and E7 oncogenes is pivotal for malignant transformation and maintenance of malignant phenotypes. Silencing these oncogenes is considered to be applicable in molecular therapies of human cervical cancer. However, it remains to be determined whether HPV16 E6 and E7 could be both silenced to obtain most efficient antitumor activity by using RNA interference (RNAi) technology. Herein, we designed a small interfering RNA (siRNA) targeting HPV16-E7 region to degrade either E6, or truncated E6 (E6*) and E7 mRNAs and to simultaneously knockdown both E6 and E7 expression. Firstly, the sequence targeting HPV16-E7 region was inserted into the shRNA packing vector pSIREN-DNR, yielding pSIREN-16E7 to stably express corresponding shRNA. HPV16-transformed SiHa and CaSki cells were used as a model system; RT-PCR, Western Blotting, MTT assay, TUNEL staining, Annexin V apoptosis assay and flow cytometry were applied to examine the effects of pSIREN-16E7. Our results indicated that HPV16-E7 specific shRNA (16E7-shRNA) induced selective degradation of E6 and E7 mRNAs and proteins. E6 silencing induced accumulation of cellular p53 and p21. In contrast, E7 silencing induced hypophosphorylation of retinoblastoma (Rb) protein. The loss of E6 and E7 reduced cell growth and ultimately resulted in massive apoptotic cell death selectively in HPV-positive cancer cells, compared with the HPV-negative ones. We demonstrated that 16E7-shRNA can induce simultaneous E6 and E7 suppression and lead to striking apoptosis in HPV16-related cancer cells by activating cellular p53, p21 and Rb. Therefore, RNAi using E7 shRNA may have the gene-specific therapy potential for HPV16-related cancers.     

Adenoviral p53 effects and cell-specific E7 protein-protein interactions of human cervical cancer cells

We investigated the time-course tumor growth suppression effects of recombinant adenovirus expressing p53 on human cervical cancer cells and cell-specific E7 protein-protein interactions in cell lysates using surface plasmon resonance (SPR) biosensor. Six HPV-infected human cervical cancer cell lines (HPV 16-positive cells, CaSki and SiHa cells; HPV 18-positive cells, HeLa and HeLaS3 cells; and HPV negative C33A and HT3 cells) were used. After infection with AdCMVp53, the cell-specific growth inhibition was studied in vitro and in vivo. Also, we produced the recombinant E7 oncoprotein of HPV 16 type and tested chip-based protein-protein interactions with each cell lysate. For each cervical cancer cell, differential cell growth inhibitions were shown via cell count assay and MTT assay. Note that the same trend in suppression levels was shown in CaSki, HeLa and in SiHa, HeLaS3, respectively. In contrast, infection with AdCMVLacZ showed increased cell growth in a manner similar to the negative control group. The levels of p53 protein were notably expressed in CaSki and HeLa more than in SiHa and HeLaS3 for 4 days. In contrast, p53 expression was continually maintained in C33A and HT3 for 6 days. After transfection AdCMVp53 into CaSki- and SiHa-xenografted nude mice, the size of tumor was remarkably decreased in SiHa cells as compared to AdCMVLacZ transfection. The SPR sensor surface was successfully modified with the recombinant E7 oncoprotein and showed cell-specific interactions between E7 and its target proteins from cell lysates. The anti-tumor effects were accomplished via differential role of p53-specific apoptotic cell death, which is dependent upon the cervical cancer cell line. Also, a molecular level understanding of cell-dependent protein interaction effects of recombinant E7 was shown.     

Role of E-cadherin in the induction of apoptosis of HPV16-positive CaSki cervical cancer cells during multicellular tumor spheroid formation

Multicellular tumor spheroids (MCTS) are three dimensional cell culture systems induced by suspension culture. MCTS are widely used in cancer research because of their similarity to solid tumors. CaSki cells are derived from a metastatic cervical cancer containing human papillomavirus 16 (HPV16). Cell death of CaSki cells in MCTS has been previously reported, and our model is used to better characterize the mechanisms of cell death of HPV16-positive keratinocytes. In this study, we found that apoptosis of CaSki cells was induced by suspension culture along with the formation of MCTS after 24 h of incubation. In suspended CaSki cells, monoclonal antibodies blocking E-cadherin function inhibited MCTS formation and suppressed suspension-induced apoptosis in a dose-dependent manner. Western blot for E-cadherin detected upregulation of the authentic 120 kDa band from MCTS of CaSki cells as well as a shorter 100 kDa band. Addition of EGF, whose receptor is known to form a complex with E-cadherin, abrogated apoptosis of suspended CaSki cells in a dose-dependent manner. These findings suggest that E-cadherin-dependent cell–cell contact, directly or indirectly, mediates the signal to undergo apoptosis of CaSki cells during MCTS formation, and thus provides new information on the role of E-cadherin in cervical cancer cell apoptosis.     

E6AP-dependent degradation of DLG4/PSD95 by high-risk human papillomavirus type 18 E6 protein

In most cervical cancers, DNAs of high-risk mucosotropic human papillomaviruses (HPVs), such as types 16 and 18, are maintained so as to express two viral proteins, E6 and E7, suggesting that they play important roles in carcinogenesis. The carboxy-terminal PDZ domain-binding motif of the E6 proteins is in fact essential for transformation of rodent cells and induction of hyperplasia in E6-transgenic mouse skin. To date, seven PDZ domain-containing proteins, including DLG1/hDLG, which is a human homologue of the Drosophila discs large tumor suppressor (Dlg), have been identified as targets of high-risk HPV E6 proteins. Here, we describe DLG4/PSD95, another human homologue of Dlg, as a novel E6 target. DLG4 was found to be expressed in normal human cells, including cervical keratinocytes, but only to a limited extent in both HPV-positive and HPV-negative cervical cancer cell lines. Expression of HPV18 E6 in HCK1T decreased DLG4 levels more strongly than did HPV16 E6, the carboxy-terminal motif of the proteins being critical for binding and degradation of DLG4 in vitro. DLG4 levels were restored by expression of either E6AP-specific short hairpin RNA or bovine papillomavirus type 1 E2 in HeLa but not CaSki or SiHa cells, reflecting downregulation of DLG4 mRNA as opposed to protein by an HPV-independent mechanism in HPV16-positive cancer lines. The tumorigenicity of CaSki cells was strongly inhibited by forced expression of DLG4, while growth in culture was not inhibited at all. These results suggest that DLG4 may function as a tumor suppressor in the development of HPV-associated cancers.     

Suppression in vivo of human papillomavirus type 18 E6-E7 gene expression in nontumorigenic HeLa X fibroblast hybrid cells.

The E6 and E7 genes of the cancer-associated human papillomavirus (HPV) types 16 (HPV16) and 18 (HPV18) can induce cell immortalization in vitro in normal human keratinocytes. This, however, is not associated with tumorigenicity in vivo. On the other hand, tumorigenicity of HPV18-positive HeLa cervical carcinoma cells can be suppressed by fusion of HeLa cells with normal human keratinocytes or fibroblasts. We have addressed the question of whether suppression of tumorigenicity in HeLa x fibroblast hybrid cells might be due to a reduced ability of these cells to express the HPV18 E6-E7 genes in vivo. Nontumorigenic hybrid cells and tumorigenic hybrid segregants were transplanted as organotypical cultures or injected subcutaneously into immunocompromised mice and were analyzed for HPV18 E6-E7 gene expression by RNA-RNA in situ hybridization. The tumorigenic hybrid cells showed a continuous and invasive growth that was associated with high levels of HPV18 E6-E7 mRNAs at all time points examined. In contrast, the nontumorigenic hybrid cells stopped cell proliferation approximately 3 days after transplantation. At this time they expressed the E6-E7 genes at low levels, whereas at day 2 high expression levels were observed. However, the mRNA levels of the cytoskeletal genes beta-actin and vimentin remained high for at least 14 days, demonstrating that inhibition of growth and of HPV18 E6-E7 gene expression was not due to cell death. These results suggest that growth inhibition of the nontumorigenic HeLa x fibroblast hybrid cells in vivo might be caused by suppression of HPV18 E6-E7 gene expression and are compatible with the idea of an intracellular surveillance mechanism for HPV gene expression existing in nontumorigenic cells.