shRNA Transcribed by RNA Pol II Promoter Induce RNA Interference in Mammalian Cell

RNA interference is a powerful tool for gene functional analysis in mammals. Permanent gene suppression can be achieved by siRNAs as stem-loop precursors transcribed from RNA Pol III promoter such as H1 and U6 based on vector. This approach, however, has a major limitation: inhibition can not be controlled in a time or tissue specific manner because the RNA Pol III promoter is not time or tissue specific. To overcome these limitations, we designed a strategy that allows synthesis of small hairpin RNAs in a GFP-fused form mediated by RNA Pol II promoter CMV to efficiently and specifically knock down expression of both exogenous and endogenous genes in mammalian cells. As assayed by both fluorescence observing and quantitative RT-PCR, the protein and mRNA products of exogenous gene RFP were efficiently and specifically inhibited; quantitative RT-PCR and western blotting results respectively demonstrated that endogenous lamin B2 mRNA and protein was suppressed without global down-regulation of protein synthesis. Furthermore, GFP-fused shRNA efficacy for RNAi is dependent on target position based on this vector system. This method may provide a novel approach for the application of RNAi technology in suppressing gene expression in mammalian system. Jing Yuan, Xiaobo Wang and Ning Li - These authors contributed equally to this work.     

Silencing of antiapoptotic survivin gene by multiple approaches of RNA interference technology

Silencing of mammalian gene expression by RNA interference (RNAi) technology can be achieved using small interfering RNA (siRNA) or short hairpin RNA (shRNA). However, the relative effectiveness of these two approaches is not known. It is also not clear whether gene-specific shRNA transcribed from an RNA polymerase II (Pol II)-directed promoter in a fusion form can disrupt the targeted gene expression. Here, we report that using both luciferase and antiapoptotic survivin genes as targets, both siRNA and shRNA approaches significantly silenced the targeted gene expression in cancer cells. We further demonstrated that shRNAs transcribed from an RNA Pol II-mediated promoter in a green fluorescent protein (GFP) fusion form at the 3'-untranslated region silenced luciferase and survivin expression as well, suggesting that the extra RNA sequence outside of the shRNA hairpin does not disrupt shRNA function. We also showed that silencing of survivin expression selectively induces apoptosis in transfected cells. Together, we have validated multiple approaches of RNAi technology using both survivin and luciferase genes as targets and demonstrated for the first time that GFP-shRNAs transcribed from an RNA Pol II-mediated promoter could mediate gene silencing, which may lead to new directions for the application of RNAi technology.     

Schistosoma japonicum: inhibition of Mago nashi gene expression by shRNA-mediated RNA interference

RNA interference (RNAi) mediated by short interfering RNA (siRNA) is a powerful reverse genetics tool and holds enormous therapeutic potential for various diseases, including parasite infections. siRNAs bind their complementary mRNA and lead to degradation of their specific mRNA targets. RNAi has been widely used for functional analysis of specific genes in various cells and organisms. In this paper, we tested the potential of silencing the expression of the Mago nashi gene in Schistosoma japonicum by siRNAs derived from shRNA expressed by mammalian Pol III promoter H1. Schistosomula, transformed from cercariae by mechanical shearing of the tails, were electroporated with Mago nashi shRNA expression vector. Aliquots of parasites were harvested at days 1, 3, and 5 after electroporation, respectively. Levels of Mago nashi mRNA and protein were determined by RT-PCR and Western blotting analysis. The results showed that shRNA expressed from mammalian Pol III promoter H1 specifically reduced the levels of Mago nashi mRNA and proteins in S. japonicum. Changes in testicular lobes were apparent when parasites were introduced into mammalian hosts. Thus, vector-mediated gene silencing is applicable to S. japonicum, which provides a means for the functional analysis of genes in this organism.     

Characterisation and comparison of the chicken H1 RNA polymerase III promoter for short hairpin RNA expression

The U6 and 7SK RNA polymerase III promoters are widely used in RNAi research for the expression of shRNAs. However, with their increasing use in vitro and in vivo, issues associated with cytotoxicity have become apparent with their use. Therefore, alternative promoters such as the weaker H1 promoter are becoming a popular choice. With interest in the chicken as a model organism, we aimed to identify and characterise the chicken H1 promoter for the expression of shRNAs for the purpose of RNAi. The chicken H1 promoter was isolated and sequence analysis identified conserved RNA polymerase III promoter elements. A shRNA expression cassette containing the chicken H1 promoter and shRNA targeting enhanced green fluorescent protein (EGFP) was developed. An RNAse protection assay confirmed activity of the promoter determined by the detection of expressed shRNAs. Comparison of the H1 promoter to the chicken RNA polymerase III 7SK and U6 promoters demonstrated that expressed shRNAs from the H1 promoter induced gene specific silencing, albeit to lower levels in comparison to both 7SK and U6 promoters. Here we have identified a new tool for RNAi research with specific applications to the chicken. The availability of a RNA polymerase III promoter that drives shRNA expression to reduced levels will greatly benefit in ovo/in vivo applications where there are concerns of cytotoxicity resulting from overexpression of an shRNA.     

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.     

An RNA polymerase II construct synthesizes short-hairpin RNA with a quantitative indicator and mediates highly efficient RNAi

RNA interference (RNAi) mediates gene silencing in many eukaryotes and has been widely used to investigate gene functions. A common method to induce sustained RNAi is introducing plasmids that synthesize short hairpin RNAs (shRNAs) using Pol III promoters. While these promoters synthesize shRNAs and elicit RNAi efficiently, they lack cell specificity. Monitoring shRNA expression levels in individual cells by Pol III promoters is also difficult. An alternative way to deliver RNAi is to use Pol II-directed synthesis of shRNA. Previous efforts in developing a Pol II system have been sparse and the results were conflicting, and the usefulness of those Pol II vectors has been limited due to low efficacy. Here we demonstrate a new Pol II system that directs efficient shRNA synthesis and mediates strong RNAi at levels that are comparable with the commonly used Pol III systems. In addition, this system synthesizes a marker protein under control of the same promoter as the shRNA, thus providing an unequivocal indicator, not only to the cells that express the shRNA, but also to the levels of the shRNA expression. This system may be adapted for in vivo shRNA expression and gene silencing.     

短发夹结构RNA干扰新城疫病毒的增殖

 以新城疫病毒（NDV）NP基因为标靶,构建3个细胞内表达发夹样结构小干扰RNA（shRNA）的质粒载体,在鸡胚成纤维细胞（CEF）和鸡胚上进行了RNAi试验,筛选出一个有效抑制病毒复制的小分子ndv1.用阳离子脂质体转染试剂Silent-fect 将ndv1转染CEF,以不相关shRNA质粒载体HK为阴性对照,4 h后接种NDV,与对照相比,干涉组在病毒感染后3 h NP基因的表达量降低2.3倍,6 h 降低21.1倍,9 h降低9.8倍;ndv1能在48 h内完全阻断NDV在CEF中的增殖,延缓病变出现时间,减轻病变程度.将Silent-fect-ndv1混合物与NDV同时注入10日龄SPF鸡胚绒毛尿囊腔,能使10⁵ ELD₅₀NDV感染后17 h鸡胚尿囊液中病毒增殖量减少94.4%,使10⁶ ELD₅₀NDV感染后17　h鸡胚尿囊液中病毒增殖量减少62.5%.实验结果证实,在CEF中存在RNAi机制,抑制NDV NP基因的表达能有效阻断该病毒增殖,说明NP基因在NDV复制过程中起重要作用.实验结果为进一步利用RNAi技术在CEF和鸡胚中研究病毒基因组功能及筛选抗病毒小分子奠定了基础.     

Pol II-expressed shRNA knocks down Sod2 gene expression and causes phenotypes of the gene knockout in mice

RNA interference (RNAi) has been used increasingly for reverse genetics in invertebrates and mammalian cells, and has the potential to become an alternative to gene knockout technology in mammals. Thus far, only RNA polymerase III (Pol III)-expressed short hairpin RNA (shRNA) has been used to make shRNA-expressing transgenic mice. However, widespread knockdown and induction of phenotypes of gene knockout in postnatal mice have not been demonstrated. Previous studies have shown that Pol II synthesizes micro RNAs (miRNAs)-the endogenous shRNAs that carry out gene silencing function. To achieve efficient gene knockdown in mammals and to generate phenotypes of gene knockout, we designed a construct in which a Pol II (ubiquitin C) promoter drove the expression of an shRNA with a structure that mimics human miRNA miR-30a. Two transgenic lines showed widespread and sustained shRNA expression, and efficient knockdown of the target gene Sod2. These mice were viable but with phenotypes of SOD2 deficiency. Bigenic heterozygous mice generated by crossing these two lines showed nearly undetectable target gene expression and phenotypes consistent with the target gene knockout, including slow growth, fatty liver, dilated cardiomyopathy, and premature death. This approach opens the door of RNAi to a wide array of well-established Pol II transgenic strategies and offers a technically simpler, cheaper, and quicker alternative to gene knockout by homologous recombination for reverse genetics in mice and other mammalian species.     

An enhanced U6 promoter for synthesis of short hairpin RNA

Short hairpin RNAs (shRNAs) transcribed by RNA polymerase III (Pol III) promoters can trigger sequence-selective gene silencing in culture and in vivo and, therefore, may be developed to treat diseases caused by dominant, gain-of-function type of gene mutations. These diseases develop in people bearing one mutant and one wild-type gene allele. While the mutant is toxic, the wild-type performs important functions. Thus, the ideal therapy must selectively silence the mutant but maintain the wild-type expression. To achieve this goal, we designed an shRNA that selectively silenced a mutant Cu,Zn superoxide dismutase (SOD1^G93A) allele that causes amyotrophic lateral sclerosis. However, the efficacy of this shRNA was relatively modest. Since the allele-specific shRNA has to target the mutation site, we could not scan other regions of SOD1 mRNA to find the best silencer. To overcome this problem, we sought to increase the dose of this shRNA by enhancing the Pol III promoter. Here we demonstrate that the enhancer from the cytomegalovirus immediate-early promoter can enhance the U6 promoter activity, the synthesis of shRNA and the efficacy of RNA interference (RNAi). Thus, this enhanced U6 promoter is useful where limited choices of shRNA sequences preclude the selection of a highly efficient RNAi target region.     

应用载体介导的RNAi技术抑制胰腺癌细胞K-RASAsn12的表达

为了研究载体介导的RNAi（RNAinterference）技术特异地抑制K-RASAsn12。（K-RAS第12位密码子突变形式为GAT）在胰腺癌细胞中的表达,合成两条编码针对K-RASAsn12。突变特异性短发夹RNA（shorthairpinRNA,shRNA）序列的单链DNA,并将其克隆到pSilenCircle栽体中,构建含目的基因片段的重组质粒pSC-K-RASAsn12。同法构建含GFP基因片断的重组质粒pSC-GFP做为对照。用其分别瞬时转染人胰腺癌AsPC-1细胞和BxPC-3细胞后,经半定量RT-PCR和Westernblot检测K-RAS的表达水平。结果表明构建的针对K-RASAsn12的编码突变特异性shRNA的质粒表达载体可特异的抑制胰腺癌细胞的K-RASAsn12。表达,但对野生型的K-RAS（K-RASwT）表达无影响。     

Comparison of approaches for efficient gene silencing induced by microRNA-based short hairpin RNA and indicator gene expression

MicroRNA-based short hairpin RNAs (shRNAs) are natural inducers of RNA interference and have been increasingly used in shRNA expression strategies. In the present study, we compared the efficiencies of exogenous green fluorescence protein (GFP) and endogenous glyceraldehyde-3-phosphate dehydrogenase (GAPDH) knockdown and red fluorescent protein (RFP) indicator expression mediated by three differently designed plasmids. RFP was introduced either at the 5′ end, at the 3′ end of the human mir155-based target gene (TG) (e.g., GFP or GAPDH) shRNA expression cassette (EC), or at the 3′ end of the chimeric intron-containing TG shRNA EC. Comparisons with the control vector showed an obvious reduction of GFP or GAPDH expression with the various shRNA expression plasmids (P < 0.05). When RFP was located at the 5′ end or at the 3′ end of the TG shRNA EC, RFP expression was low; whereas when RFP was connected with the chimeric intron-containing TG shRNA EC, RFP expression was high. Taken together, this study demonstrated an efficient plasmid design for both TG silencing induced by microRNA-based shRNA and indicator gene expression in vitro.     

Pol II–Expressed shRNA Knocks Down Sod2 Gene Expression and Causes Phenotypes of the Gene Knockout in Mice

RNA interference (RNAi) has been used increasingly for reverse genetics in invertebrates and mammalian cells, and has the potential to become an alternative to gene knockout technology in mammals. Thus far, only RNA polymerase III (Pol III)–expressed short hairpin RNA (shRNA) has been used to make shRNA-expressing transgenic mice. However, widespread knockdown and induction of phenotypes of gene knockout in postnatal mice have not been demonstrated. Previous studies have shown that Pol II synthesizes micro RNAs (miRNAs)—the endogenous shRNAs that carry out gene silencing function. To achieve efficient gene knockdown in mammals and to generate phenotypes of gene knockout, we designed a construct in which a Pol II (ubiquitin C) promoter drove the expression of an shRNA with a structure that mimics human miRNA miR-30a. Two transgenic lines showed widespread and sustained shRNA expression, and efficient knockdown of the target gene Sod2. These mice were viable but with phenotypes of SOD2 deficiency. Bigenic heterozygous mice generated by crossing these two lines showed nearly undetectable target gene expression and phenotypes consistent with the target gene knockout, including slow growth, fatty liver, dilated cardiomyopathy, and premature death. This approach opens the door of RNAi to a wide array of well-established Pol II transgenic strategies and offers a technically simpler, cheaper, and quicker alternative to gene knockout by homologous recombination for reverse genetics in mice and other mammalian species.     

转基因鸡生物反应器载体的构建及其表达特性分析

以增强型绿色荧光蛋白和萤火虫荧光素酶为报告基因,构建了鸡卵清蛋白启动子表达载体和慢病毒载体,以巨细胞病毒 (Cytomegalovirus,CMV)启动子表达载体为对照,转染或感染鸡原代输卵管上皮细胞、鸡胚成纤维细胞、鼠3T3-L1前脂肪细胞和牛乳腺上皮细胞,通过荧光和酶活性检测,旨在筛选出用于实现转基因鸡生物反应器的高效特异性表达载体。结果发现,鸡卵清蛋白启动子表达载体转染以上4种细胞后2种标记基因均有表达,没有表现出明显的细胞特异性,且荧光素酶检测结果表明其在各细胞组中表达活性都低于CMV启动子表达载体100倍以上;慢病毒载体感染以上4种细胞后2种标记基因均有表达,在鸡输卵管上皮细胞组感染单个细胞的病毒颗粒 (Multiplicity of infection,MOI) 为20时绿色荧光蛋白表达量就可以达到CMV启动子表达载体的水平。上述结果表明,基于卵清蛋白基因调控序列构建的表达载体无法实现外源基因的高效、特异性表达,而慢病毒载体在表达活性和广泛性上可以用于进行鸡输卵管生物反应器的研究。