Control of siRNA expression using the Cre–loxP recombination system

Gene silencing mediated by RNA interference (RNAi) was first discovered in Caenorhabditis elegans, and was subsequently recognized in various other organisms. In mammalian cells, RNAi can be induced by small interfering RNAs (siRNAs). In earlier studies, our group developed a vector-based system for expression of siRNA under control of a polymerase III promoter, the U6 promoter, which can induce RNAi in living cells. We here describe a system for controlling the U6 promoter-driven expression of siRNA using the Cre–loxP recombination system. We constructed a ‘Cre-On’ siRNA expression vector which could be switched on upon excision catalyzed by Cre recombinase, which was delivered to cells directly from the medium as a fusion protein. An examination of the effectiveness of RNAi against a reporter gene revealed that addition of TAT-NLS-Cre (where NLS is a nuclear localization signal and TAT is a peptide of 11 amino acids derived from HIV) to the medium resulted in plasmid recombination, generation of siRNA and suppression of reporter activity. This system should allow us to induce RNAi in a spatially, temporally, cell type-specifically or tissue-specifically controlled manner and potentiate the improved application of RNAi in both an experimental and a therapeutic context.     

Knockdown of human p53 gene expression in 293-T cells by retroviral vector-mediated short hairpin RNA

RNA interference （RNAi） is an evolutionarily conserved process of gene silencing in multiple organisms, which has become a powerful tool for investigating gene function by reverse genetics. Recently, many groups have reported to use synthesized oligonucleotides or siRNA encoding plasmids to induce RNAi in mammalian cells by transfection, but this is still limited in its application, especially when it is necessary to generate long-term gene silencing in vivo. To circumvent this problem, retrovirus- or lentivirus-delivered RNAi has been developed. Here, we described two retroviral systems for delivering short hairpin RNA （shRNA） transcribed from the H1 promoter. The results showed that retroviral vector-mediated RNAi can substantially downregulate the expression of human p53 in 293-T cells. Furthermore, the retroviral vectormediated RNAi in our transduction system can stably inactivate the p53 gene for a long time. Compared to shRNAs transcribed from the U6 promoter, HI-driven shRNA also dramatically reduced the expression of p53. The p53 downregulation efficiencies of H1- and U6-driven shRNAs were almost identical. The results indicate that retroviral vector-delivered RNAi would be a useful tool in functional genomics and gene therapy.     

Schistosoma mansoni U6 gene promoter-driven short hairpin RNA induces RNA interference in human fibrosarcoma cells and schistosomules

RNA interference (RNAi) mediated by short hairpin-RNA (shRNA) expressing plasmids can induce specific and long-term knockdown of specific mRNAs in eukaryotic cells. To develop a vector-based RNAi model for Schistosoma mansoni, the schistosome U6 gene promoter was employed to drive expression of shRNA targeting reporter firefly luciferase. An upstream region of a U6 gene predicted to contain the promoter was amplified from genomic DNA of S. mansoni. A shRNA construct driven by the predicted U6 promoter targeting luciferase was assembled and cloned into plasmid pXL-Bac II, the construct termed pXL-BacII_SmU6-shLuc. Luciferase expression in transgenic fibrosarcoma HT-1080 cells was significantly reduced 96 h following transduction with plasmid pXL-BacII_SmU6-shLuc, which encodes luciferase mRNA-specific shRNA. In a similar fashion, schistosomules of S. mansoni were transformed with the SmU6-shLuc or control constructs. Firefly luciferase mRNA was introduced into transformed schistosomules after which luciferase activity was analyzed. Significantly less activity was present in schistosomules transfected with pXL-BacII_SmU6-shLuc compared with controls. The findings revealed that the putative S. mansoni U6 gene promoter of 270 bp in length was active in human cells and schistosomes. Given that the U6 gene promoter drove expression of shRNA from an episome, the findings also indicate the potential of this putative RNA polymerase III dependent promoter as a component regulatory element in vector-based RNAi for functional genomics of schistosomes.     

应用载体介导的RNAi技术抑制HCMV的UL49基因表达

为了研究RNA干涉抑制HCMV UL49基因的作用,以pLXSN(U6启动子)为模板通过两步PCR的方法扩增含U6启动子的siRNA表达片段,并通过TA克隆将siRNA表达片段克隆到pMD18-T载体构建成siRNA表达质粒,同时以人巨细胞病毒AD169病毒株基因组为模板PCR扩增UL49基因,将其克隆到pEGFP-N1构建融合质粒pEGFP-UL49。通过脂质体介导将siRNA表达质粒和pEGFP-UL49质粒共转染人宫颈癌细胞系HeLa,在荧光显微镜下观察RNA干涉结果。通过这种方法得到具有介导RNA干涉的siRNA片段,为UL49基因沉默研究提供技术基础。     

Promoter choice affects the potency of HIV-1 specific RNA interference

RNA interference (RNAi) is mediated by small interfering (si) RNAs that target and degrade mRNA in a sequence-specific manner. Cellular expression of siRNA can be achieved by the use of expression cassettes driven by RNA polymerase III (pol III) promoters. Here, we demonstrate that a modified tRNA^met-derived (MTD) promoter effectively drives the cellular expression of HIV-1-specific siRNA. We observed up to 56% greater inhibition of virus production when the MTD promoter was used to drive the expression of short hairpin (sh) RNA targeting the HIV-1 transactivator protein tat compared to cassettes containing other pol III promoters such as H1, U6+1 and U6+27. We conclude that the MTD promoter is ideally suited to drive intracellular expression of HIV-1 specific siRNA and may serve as an important component of future RNAi vector delivery systems.     

Screening of siRNA target sequences by using fragmentized DNA

BACKGROUND: RNA interference (RNAi) has become a powerful tool in silencing target genes in various organisms. In mammals, RNAi can be induced by using short interfering RNA (siRNA). The efficacy of inducing RNAi in mammalian cells by using siRNA depends very much on the selection of the target sequences. METHODS: We developed an siRNA target sequence selection system by first constructing parallel-type siRNA expression vector libraries carrying siRNA expression fragments originating from fragmentized target genes, and then using a group selection system. For a model system, we constructed parallel-type siRNA expression vector libraries against DsRed and GFP reporter genes. RESULTS: We carried out the first screening of groups containing more than 100 random siRNA expression plasmids in total for each target gene, and successfully obtained target sequences with very strong efficacy. Furthermore, we also obtained some clones that express dsRNAs of various lengths that might induce cytotoxicity. CONCLUSIONS: This system should allow us to perform screening for powerful target sequences, by including all possible target sequences for any gene, even without knowing the whole sequence of the target gene in advance. At the same time, target sequences that should be avoided due to cytotoxicity can be identified.     

parp10基因RNA干扰有效靶点的筛选及验证

目的：合成并筛选有效抑制parp10表达的siRNA。方法：根据parp10 cDNA序列,设计并合成prap10基因潜在的RNA干扰（RNAi）片段,将合成的寡核苷酸序列构建到pEGFP-C1H1U6载体中;通过双萤光素酶试验、Western blotting筛选有效的干扰序列;进一步用G418对A549细胞进行耐受度筛选,确定最低耐受度;用G418溶液对转染RNAi重组质粒的A549细胞进行筛选,通过RT-PCR鉴定干扰效果。结果：针对617bp处所构建的RNAi载体能够抑制PARP10的表达,用浓度为400μg/mL G418的McCoy′s 5A培养基筛选转染后的细胞,获得了能够表达绿色荧光标签蛋白的A549细胞株,经RT-PCR检测发现,PARP10表达受到抑制。结论：获得了能够有效抑制PARP10表达的特异性小干扰RNA（siRNA）,为进一步研究其生物学功能提供了条件。     

Short-hairpin RNA-mediated gene expression interference in Trichoplusia ni cells

RNA interference (RNAi) is rapidly becoming a valuable tool in biological studies, as it allows the selective and transient knockdown of protein expression. The short-interfering RNAs (siRNAs) transiently silence gene expression. By contrast, the expressed short-hairpin RNAs induce long-term, stable knockdown of their target gene. Trichoplusia ni (T. ni) cells are widely used for mammalian cell-derived glycoprotein expression using the baculovirus system. However, a suitable shRNA expression system has not been developed yet. We investigated the potency of shRNA-mediated gene expression inhibition using human and Drosophila U6 promoters in T. ni cells. Luciferase, EGFP, and beta-N-acetylglucosaminidase (GlcNAcase) were employed as targets to investigate knockdown of specific genes in T. ni cells. Introduction of the shRNA expression vector under the control of human U6 or Drosophila U6 promoter into T. ni cells exhibited the reduced level of luciferase, EGFP, and beta-N-acetylglucosaminidase compared with that of untransfected cells. The shRNA was expressed and processed to siRNA in our vector-transfected T. ni cells. GlcNAcase mRNA levels were down-regulated in T. ni cells transfected with shRNA vectors-targeted GlcNAcase as compared with the control vector-treated cells. It implied that our shRNA expression vectors using human and Drosophila U6 promoters were applied in T. ni cells for the specific gene knockdown.     

Transcriptional targeting of small interfering RNAs into cancer cells

Small interfering RNAs (siRNAs) are widely used for analyzing gene function and have the potential to be developed into human therapeutics. However, persistent siRNA expression in normal cells may cause toxic side effects. Therefore, the therapeutic applications of RNAi in cancer require either the specific delivery of synthetic siRNAs into cancer cells or the control of siRNA expression. Accordingly, we have developed a cancer-specific vector that expresses siRNAs from the human survivin promoter. A plasmid vector expressing siRNAs under this promoter enabled efficient gene silencing of gene expression in different cancer cell lines. The levels of inhibition were comparable to that obtained with the constitutively active U6 promoter. By contrast to U6 promoter, no significant gene silencing was obtained with the Survivin promoter in normal mammary epithelial cells. Collectively, these data indicate that the survivin promoter is suitable for directing siRNA expression in cancer cells, but not normal cells.     

慢病毒介导的RNA干涉对乳腺癌SKBR3细胞HER2受体的下调及生长抑制

大约30％的乳腺癌中有表皮生长因子受体家族蛋白HER2的过表达,此类癌症的预后差,恶性程度高。RNA干涉（RNAi）是最近发展起来能特异性抑制哺乳动物细胞中基因表达的新技术。本文在以往获得的能够产生良好基因沉默效应的小干涉RNA（siRNA）的基础上,构建了U6和H1双启动子siRNA表达载体,并转染HER2高表达乳腺癌SKBR3细胞定量测定了其HER2下调效应。随后,siRNA表达盒经LR重组反应被克隆入慢病毒载体中,在成功包装成病毒后,感染SKBR3并经荧光定量PCR、蛋白印迹杂交和流式细胞仪一系列实验证明慢病毒介导的RNAi确实能有效地下调肿瘤抗原HER2的表达。细胞长期增殖实验表明经慢病毒处理后细胞生长得到抑制。我们的研究为进一步阐明HER2与癌症恶化的关系以及发展新的基因治疗药物提供了工具和可能。     

A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly

RNA interference (RNAi) denotes sequence-specific mRNA degradation induced by short interfering double-stranded RNA (siRNA) and has become a revolutionary tool for functional annotation of mammalian genes, as well as for development of novel therapeutics. The practical applications of RNAi are usually achieved by expressing short hairpin RNAs (shRNAs) or siRNAs in cells. However, a major technical challenge is to simultaneously express multiple siRNAs to silence one or more genes. We previously developed pSOS system, in which siRNA duplexes are made from oligo templates driven by opposing U6 and H1 promoters. While effective, it is not equipped to express multiple siRNAs in a single vector. Gibson DNA Assembly (GDA) is an in vitro recombination system that has the capacity to assemble multiple overlapping DNA molecules in a single isothermal step. Here, we developed a GDA-based pSOK assembly system for constructing single vectors that express multiple siRNA sites. The assembly fragments were generated by PCR amplifications from the U6-H1 template vector pB2B. GDA assembly specificity was conferred by the overlapping unique siRNA sequences of insert fragments. To prove the technical feasibility, we constructed pSOK vectors that contain four siRNA sites and three siRNA sites targeting human and mouse β-catenin, respectively. The assembly reactions were efficient, and candidate clones were readily identified by PCR screening. Multiple β-catenin siRNAs effectively silenced endogenous β-catenin expression, inhibited Wnt3A-induced β-catenin/Tcf4 reporter activity and expression of Wnt/β-catenin downstream genes. Silencing β-catenin in mesenchymal stem cells inhibited Wnt3A-induced early osteogenic differentiation and significantly diminished synergistic osteogenic activity between BMP9 and Wnt3A in vitro and in vivo. These findings demonstrate that the GDA-based pSOK system has been proven simplistic, effective and versatile for simultaneous expression of multiple siRNAs. Thus, the reported pSOK system should be a valuable tool for gene function studies and development of novel therapeutics.     

Conditional RNA interference achieved by Oct-1 POU/rtTA fusion protein activator and a modified TRE-mouse U6 promoter

RNA interference (RNAi) is a powerful technique and is widely used to down-regulate expression of specific genes in cultured cells and in vivo. In this paper, we report our development of a new tetracycline-inducible RNAi expression using a modified TRE-mouse U6 promoter in which the distal sequence element (DSE) was replaced by the tetracycline-responsive element (TRE). The modified TRE-mouse U6 promoter can be activated by a Tet-on version tetracycline-regulated artificial activator rTetOct which was constructed by fusing the rtTA DNA binding domain with the Oct-1 POU activation domain. This rTetOct/TRE-U6 system was successfully applied to conditionally and reversibly down-regulate the expression of endogenous p53 gene in MCF7 cells, and the expression of beta-defensin gene (mBin1b) either transiently expressed in COS7 cells or stably expressed in CHO cells.     

小环载体介导的siRNA 稳定抑制乙肝病毒的复制和表达

【目的】尝试构建表达小干扰RNA(small interfering RNA,siRNA)的小环载体,并初步鉴定其对乙肝病毒(hepatitis B virus,HBV)复制及其基因表达的抑制作用。【方法】设计并合成靶向HBV S区的siRNA,将其克隆到小环载体pMC.BESPX-MCS2上,测序正确后将重组体pMC-H1-siHBS-U6转化入感受态E.coliZYCY10P3S2T,然后在培养基中加入L-阿拉伯糖,诱导其降解细菌骨架,获取只含有目的基因表达盒的小环RNA干扰载体pmc-H1-siHBS-U6。将小环RNA干扰载体与HBV真核表达质粒pHBV1.3共转染Huh-7细胞,分别在转染后1-7天,ELISA法检测Huh-7细胞上清中的HBsAg、HBeAg,并且通过Real-time RT-PCR法分析干扰RNA对HBV DNA及mRNA的抑制效果。【结果】成功构建了靶向HBV S基因的siRNA小环表达载体pmc-H1-siHBS-U6。该载体能显著抑制Huh-7细胞HBsAg和HBeAg分泌,并且其抑制效果能够维持2-3周时间。Real-time PCR证实HBV的DNA与mRNA水平分别降低了71%和80%,而对照siRNA及空载体则无此作用。【结论】成功构建了靶向HBV的小环RNA干扰载体,并且其能稳定、高效、特异地抑制HBV基因的表达与复制,该研究不仅对探索HBV的基因治疗提供了重要线索,而且为RNA干扰的应用提供了新的运载体系。