Suppression of hepatitis C virus replicon by RNA interference directed against the NS3 and NS5B regions of the viral genome

RNA interference (RNAi) is a phenomenon in which small interfering RNA (siRNA), an RNA duplex 21 to 23 nucleotides (nt) long, or short hairpin RNA (shRNA) resembling siRNA, mediates degradation of the target RNA molecule in a sequence-specific manner. RNAi is now expected to be a useful therapeutic strategy for hepatitis C virus (HCV) infection. In the present study we compared the efficacy of a number of shRNAs directed against different target regions of the HCV genome, such as 5'-untranslated region (5'UTR) (nt 286 to 304), Core (nt 371 to 389), NS3-1 (nt 2052 to 2060), NS3-2 (nt 2104 to 2122), and NS5B (nt 7326 to 7344), all of which except for NS5B are conserved among most, if not all, HCV subtype 1b (HCV-1b) isolates in Japan. We utilized two methods to express shRNAs, one utilizing an expression plasmid (pAVU6+27) and the other utilizing a recombinant lentivirus harboring the pAVU6+27-derived expression cassette. Although 5'UTR has been considered to be the most suitable region for therapeutic siRNA and/or shRNA because of its extremely high degree of sequence conservation, we observed only a faint suppression of an HCV subgenomic replicon by shRNA against 5'UTR. In both plasmid-and lentivirus-mediated expression systems, shRNAs against NS3-1 and NS5B suppressed most efficiently the replication of the HCV replicon without suppressing host cellular gene expression. Synthetic siRNA against NS3-1 also inhibited replication of the HCV replicon in a dose-dependent manner. Taken together, the present results imply the possibility that the recombinant lentivirus expressing shRNA against NS3-1 would be a useful tool to inhibit HCV-1b infection.     

绿色荧光蛋白标记的TGF-β1shRNA真核表达载体的构建及鉴定

目的：构建小鼠转化生长因子β1（TGF-β1）短发夹RNA（shRNA）真核表达载体,探讨TGF-β1在血管发育中的调控作用。方法：根据GenBank小鼠TGF-β1mRNA序列,设计合成三对短链寡核苷酸,退火后形成双链DNA并克隆至入门载体DEN_mH1c。将插入目的基因片段的入门载体与带有绿色荧光蛋白（GFP）标签的shRNA真核表达载体pDS_hpEy进行LR重组反应,完成三个TGF-β1shRNA表达载体的构建,分别命名为pDS_Ta,pDS_Tb和pDS_Tc。经测序确认后,转染小鼠成纤维细胞（NIH／3T3）,筛选稳定表达的细胞克隆,以RT-PCR及Westem blot方法检测转染后TGF-β1mRNA和蛋白表达。结果：RT-PCR和Western blot显示pDS_Tc可明显下调NIH／313细胞TGF-β1的mRNA和蛋白表达,mRNA下调约为70％,蛋白表达减少约65％。结论：GFP标签TGF-β1shRNA表达载体能够阻断TGF-β1基因表达,可作为研究TGF-β1调控血管发育机制的一个工具,为阐明TGF-β1信号传导通路奠定基础。     

RNAi-induced targeted silencing of developmental control genes during chicken embryogenesis

The RNA interference technique is a powerful tool to understand gene function. Intriguingly, RNA interference cannot only be used for cells in vitro, but also in living organisms. Here, we have adapted the method for use in the chick embryo. However, this technique is limited by the uncertainty in predicting the RNAi transfection efficiency and site in the embryo. Hence, we elaborated a modified vector system, pEGFP-shRNA, which can coexpress enhanced green fluorescent protein (EGFP) and short hairpin RNA (shRNA) simultaneously to facilitate analysis of gene silencing in chicken embryos. We tested the silencing of two highly conserved genes (cAxin2, cParaxis), which play crucial roles in chicken embryonic developmental processes. For each target gene, four to five small DNA inserts, each of them encoding one shRNA, were selected and cloned individually to the vector downstream of the Pol III promoter (either human H1 or U6 promoter), which shared with highly conserved motifs in human and chicken. The pEGFP-shRNA constructs were electroporated into the neural tube or somites. After subsequent re-incubation of 24 h, the EGFP expression, with green fluorescent signal, indicated the transfected regions in the neural tube or somites. The EGFP expressing embryos were further submitted into the process of in situ hybridization for examination of the silencing effects. The results show that the EGFP signal in transfected areas correlated with the silencing of the target genes (cAxin2, cParaxis). The cAxin2 expression was inhibited by shRNAs of either targeting the RGS domain or the DAX domain coding region. The cParaxis mRNA level in transgenic somites and the related migratory myogenic population was also reduced. The results suggest that our novel dual expression EGFP-shRNA system opens a new possibility to study gene function in a convenient and efficient way.     

靶向白介素-1α基因沉默的Hela229稳定细胞系的构建

目的：构建针对IL-1α基因的shRNA表达载体,筛选能够抑制Hela229细胞内源性IL-1α表达的shRNA,建立无内源性IL-1d表达的Hela229稳定细胞系.方法：根据shRNA的设计原则,以IL-1 αcDNA oligo为模板设计一段21 bp核苷酸目标序列,构建成siRNA的DNA模板并克隆到shRNA表达载体pRNAT-U6.1/Neo中,获得靶向抑制IL-1α基因的重组shRNA质粒,转染Hela229细胞,经G418筛选后获得单克隆稳定细胞株,用ELISA方法在蛋白水平上检测IL-1α基因的沉默效果.结果：经酶切鉴定和测序分析确定IL-1 α-shRNA重组质粒构建正确,ELISA筛选出能够显著抑制内源性IL-1α表达的shRNA,获得沉默内源性IL-1 α表达的单克隆稳定的Hela229细胞株.结论：靶向IL-1α基因的重组shRNA表达质粒可显著抑制Hela229细胞内源性IL-1α的表达,成功构建靶向IL-1α基因沉默的Hela229稳定细胞系.     

A systematic analysis of the effect of target RNA structure on RNA interference

RNAi efficiency is influenced by local RNA structure of the target sequence. We studied this structure-based resistance in detail by targeting a perfect RNA hairpin and subsequently destabilized its tight structure by mutation, thereby gradually exposing the target sequence. Although the tightest RNA hairpins were completely resistant to RNAi, we observed an inverse correlation between the overall target hairpin stability and RNAi efficiency within a specific thermodynamic stability (ΔG) range. Increased RNAi efficiency was shown to be caused by improved binding of the siRNA to the destabilized target RNA hairpins. The mutational effects vary for different target regions. We find an accessible target 3′ end to be most important for RNAi-mediated inhibition. However, these 3′ end effects cannot be reproduced in siRNA-target RNA-binding studies in vitro, indicating the important role of RISC components in the in vivo RNAi reaction. The results provide a more detailed insight into the impact of target RNA structure on RNAi and we discuss several possible implications. With respect to lentiviral-mediated delivery of shRNA expression cassettes, we present a ΔG window to destabilize the shRNA insert for vector improvement, while avoiding RNAi-mediated self-targeting during lentiviral vector production.     

Properties of gene knockdown system by vector‐based siRNA in zebrafish

RNA interference (RNAi) has emerged as a powerful tool to silence specific genes. Vector‐based RNAi systems have been developed to downregulate targeted genes in a spatially and temporally regulated fashion both in vitro and in vivo. The zebrafish (Danio rerio) is a model animal that has been examined based on a wide variety of biological techniques, including embryonic manipulations, forward and reverse genetics, and molecular biology. However, a heritable and tissue‐specific knockdown of gene expression has not yet been developed in zebrafish. We examined two types of vector, which produce small interfering RNA (siRNA), the direct effector in RNAi system; microRNA (miRNA) process mimicking vectors with a promoter for RNA polymerase II and short hairpin RNA (shRNA) expressing vector through a promoter for RNA polymerase III. Though gene‐silencing phenotypes were not observed in the miRNA process mimicking vectors, the transgenic embryos of the second vector (Tg(zU6‐shGFP)), shRNA expressing vector for enhanced green fluorescence protein, revealed knockdown of the targeted gene. Interestingly, only the embryos from Tg(zU6‐shGFP) female but not from the male fish showed the downregulation. Comparison of the quantity of siRNA produced by each vector indicates that the vectors tested here induced siRNA, but at low levels barely sufficient to silence the targeted gene.     

Sequence analysis and functional study of thymidylate synthase from zebrafish, Danio rerio

The thymidylate synthase (TS), an important target for many anticancer drugs, has been cloned from different species. But the cDNA property and function of TS in zebrafish are not well documented. In order to use zebrafish as an animal model for screening novel anticancer agents, we isolated TS cDNA from zebrafish and compared its sequence with those from other species. The open reading frame (ORF) of zebrafish TS cDNA sequence was 954 nucleotides, encoding a 318-amino acid protein with a calculated molecular mass of 36.15 kDa. The deduced amino acid sequence of zebrafish TS was similar to those from other organisms, including rat, mouse and humans. The zebrafish TS protein was expressed in Escherichia coli and purified to homogeneity. The purified zebrafish TS showed maximal activity at 28 degrees C with similar K(m) value to human TS. Western immunoblot assay confirmed that TS was expressed in all the developmental stages of zebrafish with a high level of expression at the 1-4 cell stages. To study the function of TS in zebrafish embryo development, a short hairpin RNA (shRNA) expression vector, pSilencer 4.1-CMV/TS, was constructed which targeted the protein-coding region of zebrafish TS mRNA. Significant change in the development of tail and epiboly was found in zebrafish embryos microinjected pSilencer4.1-CMV/TS siRNA expression vector.     

Short-hairpin RNAs delivered by lentiviral vector transduction trigger RIG-I-mediated IFN activation

Activation of the type I interferon (IFN) pathway by small interfering RNA (siRNA) is a major contributor to the off-target effects of RNA interference in mammalian cells. While IFN induction complicates gene function studies, immunostimulation by siRNAs may be beneficial in certain therapeutic settings. Various forms of siRNA, meeting different compositional and structural requirements, have been reported to trigger IFN activation. The consensus is that intracellularly expressed short-hairpin RNAs (shRNAs) are less prone to IFN activation because they are not detected by the cell-surface receptors. In particular, lentiviral vector-mediated transduction of shRNAs has been reported to avoid IFN response. Here we identify a shRNA that potently activates the IFN pathway in human cells in a sequence- and 5′-triphosphate-dependent manner. In addition to suppressing its intended mRNA target, expression of the shRNA results in dimerization of interferon regulatory factor-3, activation of IFN promoters and secretion of biologically active IFNs into the extracellular medium. Delivery by lentiviral vector transduction did not avoid IFN activation by this and another, unrelated shRNA. We also demonstrated that retinoic-acid-inducible gene I, and not melanoma differentiation associated gene 5 or toll-like receptor 3, is the cytoplasmic sensor for intracellularly expressed shRNAs that trigger IFN activation.     

Primer extension-based method for the generation of a siRNA/miRNA expression vector.

RNA interference (RNAi) has become a powerful technique for studying gene function, biological pathways, and the physiology of diseases. Typically, the RNAi response in mammalian cells is mediated by small interfering RNA (siRNA). The use of synthesized siRNA to silence gene is relatively quick and easy, but it is costly with transient effects. A short hairpin RNA (shRNA) with complementary sense and antisense sequences of a target gene separated by a loop structure results in gene silencing that is as effective as chemically synthesized siRNA with fewer limitations. However, current methods for constructing shRNA vectors require the synthesis of long oligonucleotides, which is costly and often suffers from mutation problems during synthesis. Here, we report an alternative approach to generate a shRNA expression vector with high efficacy. We utilized shorter (相似文献   

不同长度茎部shRNA表达载体构建与鉴定

本研究针对同一目的基因设计构建不同茎部长度的shRNA表达载体,并对其在细胞及胚胎水平的干扰效应做一比较。以绿色荧光蛋白基因为沉默效应的靶基因,设计茎部长度分别为21bp、27bp、29bp的干扰片段,退火后连入带有H6启动子的真核表达载体psiSTRIKE中(分别命名为EGFP-21siRNA、EGFP-27siRNA和EGFP-29siRNA),将构建成功的载体以脂质体法转染小鼠胚胎成纤维细胞,利用荧光定量PCR对其荧光表达进行精确定量。不同茎部长度的shRNA载体均使绿色荧光蛋白基因表达降低,茎部为29bp时比21bp、27bp表现出更明显的沉默效应。细胞水平沉默效应的初步验证,为筛选适合小鼠个体水平的最佳发夹结构奠定了基础。     

Transgenic RNA interference in ES cell-derived embryos recapitulates a genetic null phenotype

Gene targeting via homologous recombination in murine embryonic stem (ES) cells has been the method of choice for deciphering mammalian gene function in vivo. Despite improvements in this technology, it still remains a laborious method. Recent advances in RNA interference (RNAi) technology have provided a rapid loss-of-function method for assessing gene function in a number of organisms. Studies in mammalian cell lines have shown that introduction of small interfering RNA (siRNA) molecules mediates effective RNA silencing. Plasmid-based systems using RNA polymerase III (RNA pol III) promoters to drive short hairpin RNA (shRNA) molecules were established to stably produce siRNA. Here we report the generation of knockdown ES cell lines with transgenic shRNA. Because of the dominant nature of the knockdown, embryonic phenotypes could be directly assessed in embryos completely derived from ES cells by the tetraploid aggregation method. Such embryos, in which endogenous p120-Ras GTPase-activating protein (RasGAP), encoded by Rasa1 (also known as RasGAP), was silenced, had the same phenotype as did the previously reported Rasa1 null mutation.     

靶向增殖细胞核抗原shRNA的构建及其对HepG2细胞增殖与凋亡的影响

为了探讨抑制增殖细胞核抗原(PCNA)基因表达对人肝癌HepG2细胞增殖及凋亡的影响,将前期筛选出的最佳siRNA序列转化为能表达其小发夹结构RNA(smallhairpinRNAs,shRNA)的DNA序列,并与pSilencer2.0-U6质粒定向连接,构建靶向PCNA基因的siRNA真核表达载体pShPCNA,经DNA测序证实与设计完全一致.随后采用WST法及克隆形成抑制观察细胞增殖抑制情况、划痕实验来观察细胞迁移能力,流式细胞术、Hoechest33258染色、细胞线粒体膜电位改变检测细胞凋亡.在转染HepG2细胞48h后,pShPCNA组细胞PCNAmRNA表达明显下调,并出现明显的增殖抑制作用,明显抑制细胞克隆的形成和细胞的迁移力,且呈剂量-效应关系.流式细胞术检测发现:pShPCNA组细胞明显阻滞于G0/G1期,并出现明显的亚二倍体凋亡峰,出现明显的早期凋亡细胞群.荧光显微镜检测表明,细胞线粒体膜电位降低,并且细胞出现核固缩、凋亡小体等凋亡形态学变化.上述结果表明,成功构建了靶向PCNA基因的siRNA真核表达载体pShPCNA,pShPCNA转染HepG2细胞48h后,能够显著抑制细胞的生长增...     

靶向ADAM17基因RNA干扰慢病毒载体的构建及慢病毒包装

目的构建靶向ADAM17基因RNA干扰（RNAi）慢病毒载体及包装慢病毒。方法根据人ADAM17mRNA序列设计4个靶序列,合成4对寡核苷酸序列,同时合成1对阴性对照寡核苷酸序列;将以上5对寡核苷酸序列退火后连入pLVTHM质粒,经酶切和测序鉴定。将重组慢病毒质粒转染至A549细胞,以Real-time PCR检测A549细胞中ADAM17 mRNA表达。将干扰效果最佳的质粒载体和包装质粒共转染至293T细胞,包装产生病毒颗粒。以流式细胞术检测重组慢病毒的滴度。结果酶切和测序证实干扰靶序列已被准确克隆到pLVTHM质粒载体。pLVTHM-ADAM17-siRNA1-4均可显著抑制A549细胞ADAM17 mRNA的表达,其中pLVTHM-ADAM17-siRNA4的抑制效果最佳。LV-ADAM17-siRNA4重组慢病毒的滴度为2.16×108TU/ml。结论成功构建了靶向人ADAM17基因RNAi慢病毒载体及包装了重组慢病毒。