A quick and efficient approach for gene silencing by using triple putative microRNA-based short hairpin RNAs

The RNA interference (RNAi) technique has been widely used in gene function studies. It is typical to screen for effective siRNAs by knocking down targeted genes since a single gene can be suppressed by several siRNAs to varying degrees. The miRNA-based short hairpin RNA (shRNA) is a natural inducer of RNAi and has been used in siRNA expression strategies. We investigated the potential application of multiple putative microRNA-based shRNAs for gene silencing and studied the inhibition efficiency of exogenous GFP and firefly luciferase (luc) by triple human mir155-based shRNA expression vectors. A total of three candidate siRNA sequences targeted against GFP or luc were selected based on an online prediction program. Single and triple miRNA-155-based shRNAs targeted against GFP or luc were transfected into HEK293 cells mediated by the pcDNA₃ vector with an RNA polymerase II-type CMV (cytomegalovirus) promoter. Comparisons with negative control shRNAs revealed that GFP levels were markedly reduced by the triple miRNA-155-based GFP shRNA by fluorescent microscopy. Consistent results from the dual luciferase assay and real-time quantitative RT-PCR revealed that the triple miRNA-155-based GFP shRNA significantly suppressed GFP expression (P < 0.01), without significant differences from the most effective single miRNA-155-based GFP shRNA (P > 0.05). Results from the dual luciferase assay and real-time quantitative RT-PCR revealed that the triple miRNA-155-based luc shRNA significantly suppressed luc expression as the most effective single miRNA-155-based luc shRNA (P < 0.05). These studies demonstrated the gene silencing efficiency mediated by the triple putative miRNA-155-based shRNAs. This suggested that multiple miRNA-based shRNAs are quick and valuable strategies for gene silencing.     

A versatile approach to multiple gene RNA interference using microRNA-based short hairpin RNAs

Background  

Effective and stable knockdown of multiple gene targets by RNA interference is often necessary to overcome isoform redundancy, but it remains a technical challenge when working with intractable cell systems.     

Comparison of bovine RNA polymerase III promoters for short hairpin RNA expression

RNA interference (RNAi) mediated by DNA-based expression of short hairpin RNA (shRNA) is a powerful method of sequence-specific gene knockdown. A number of vectors for expression of shRNA have been developed that feature promoters from RNA polymerase III (pol III)-transcribed genes of mouse or human origin. To advance the use of RNAi as a tool for functional genomic research and for future development of specific therapeutics in the bovine species, we have developed shRNA expression vectors that feature novel bovine RNA pol III promoters. We characterized two bovine U6 small nuclear RNA (snRNA) promoters (bU6-2 and bU6-3) and a bovine 7SK snRNA promoter (b7SK). We compared the efficiency of each of these promoters to express shRNA molecules. Promoter activity was measured in the context of RNAi by targeting and suppressing the reporter gene encoding enhanced green fluorescent protein. Results show that the b7SK promoter induced the greatest level of suppression in a range of cell lines. The comparison of these bovine promoters in shRNA expression is an important component for the future development of bovine-specific RNAi-based research.     

Alternative methods for the efficient construction of short hairpin RNA expression vectors

Short hairpin RNA (shRNA)-mediated RNA interference has become a basic technique in modern molecular biology and biochemistry for studying gene function and biological pathways. Here, we report two alternative and efficient methods to construct shRNA expression vectors based respectively on multiple-step sequential PCR and primer extension–homologous recombination (PE-HR). Neither method requires synthesizing long oligonucleotides containing hairpin sequences as used in traditional approaches. The hairpin sequences may produce mutations during oligo synthesis, pose problems in annealing, and lead to inefficient cloning. The PE-HR method further provides rapid and economical construction of shRNA expression vectors without needing the ligation procedure.     

Induction of gene silencing by hairpin RNA expression in Tetrahymena thermophila reveals a second small RNA pathway

Unlike in other eukaryotes, in which it causes gene silencing, RNA interference (RNAi) has been linked to programmed DNA deletion in the ciliate Tetrahymena thermophila. Here we have developed an efficient method to inducibly express double-stranded RNA hairpins and demonstrated that they cause gene silencing through targeted mRNA degradation in all phases of the life cycle, including growth, starvation, and mating. This technique offers a new tool for gene silencing in this model organism. Induction of RNA hairpins causes dramatic upregulation of Dicer and Argonaute family genes, revealing a system capable of rapidly responding to double-stranded RNA. These hairpins are processed into 23- to 24-nucleotide (nt) small RNAs, which are distinctly different from the 28- to 30-nt small RNAs known to be associated with DNA deletion. Thus, two different small RNA pathways appear to be responsible for gene silencing and DNA deletion. Surprisingly, expression of the RNA hairpin also causes targeted DNA deletion during conjugation, although at low efficiencies, which suggests a possible crossover of these two molecular paths.     

A multisite gateway-based toolkit for targeted gene expression and hairpin RNA silencing in tomato fruits

A collection of fruit promoters, reporter genes and protein tags has been constructed in a triple-gateway format, a recombination-based cloning system that facilitates the tandem assembly of three DNA fragments into plant expression vectors. The new pENFRUIT collection includes, among others, the classical tomato-ripening promoters E8 and 2A11 and a set of six new tomato promoters. The new promoter activities were characterized in both transient assays and stable transgenic plants. The range of expression of the new promoters comprises strong (PNH, PLI), medium (PLE, PFF, PHD) and weak (PSN) promoters driving gene expression preferentially in the fruit, and covering a wide range of tissues and developmental stages. Together, a total of 78 possible combinations for the expression of a gene of interest in the fruit, plus a set of five reporters for new promoter analysis, was made available in the current collection. Moreover, the pENFRUIT promoter collection is adaptable to hairpin RNA strategies aimed at tissue/organ-specific gene silencing with only an additional cloning step. The pENFRUIT toolkit broadens the spectrum of promoter activities available for fruit biotechnology and fundamental research, and bypasses technical difficulties of current ligase-dependent cloning techniques in the construction of fruit expression cassettes. The pENFRUIT vector collection is available for the research community in a plasmid repository, facilitating its accessibility.     

Comparison of chicken 7SK and U6 RNA polymerase III promoters for short hairpin RNA expression

Background  

RNA polymerase III (pol III) type 3 promoters such as U6 or 7SK are commonly used to express short-hairpin RNA (shRNA) effectors for RNA interference (RNAi). To extend the use of RNAi for studies of development using the chicken as a model system, we have developed a system for expressing shRNAs using the chicken 7SK (ch7SK) promoter.     

Gene silencing by expression of hairpin RNA in Lotus japonicus roots and root nodules

We investigated the efficacy of self-complementary hairpin RNA (hpRNA) expression to induce RNA silencing in the roots and nodules of model legume Lotus japonicus, using hairy root transformation mediated by Agrobacterium rhizogenes. Transgenic lines that express beta-glucuronidase (GUS) by constitutive or nodule-specific promoters were supertransformed by infection of A. rhizogenes harboring constructs for the expression of hpRNAs with sequences complementary to the GUS coding region. GUS activity in more than 60% of the hairy roots was decreased or silenced almost completely. Silencing of the GUS gene was also observed in symbiotic nodules formed on hairy roots in both early and late stages of nodule organogenesis. These results indicate that transient RNA silencing by hairy root transformation provides a powerful tool for loss-of-function analyses of genes that function in roots and root nodules.     

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.     

靶向Smad4基因shRNA质粒表达载体的构建及筛选

目的:构建编码Smad4mRNA的shRNA真核表达载体,并筛选出基因沉默效果最明显的shRNA质粒表达载体.方法:根据GenBank提供的人Smad4基因的mRNA序列构建2个shRNA质粒表达栽体和1个阴性对照质粒表达载体,并通过基因测序进行鉴定.经鉴定后转染体外培养人成纤维细胞,western-blot检测Smad4蛋白水平抑制表达效果.结果:构建质粒表达载体测序结果显示,插入片段测序结果与合成的shRNA序列一致;靶向Smad4基因shRNA质粒表达栽体对所转染的人成纤维细胞中Smad4蛋白水平表达均有抑制作用,其中shRNA1最为明显.结论:成功构建了靶向Smad4基因shRNA质粒表达栽体,其中抑制Smad4基因表达效果最为明显的是shRNA1,为进一步研究Srnad4基因的RNA干扰奠定了基础.     

An efficient method to enhance gene silencing by using precursor microRNA designed small hairpin RNAs

Gene silencing can be mediated by small interfering RNA (siRNA) and microRNA (miRNA). To investigate the potential application of using a precursor microRNA (pre-miRNA) backbone for gene silencing, we studied the inhibition efficiency of exogenous GFP and endogenous GAPDH by conventional shRNA- and pre-miRNA-designed hairpins, respectively. In this study, the conventional shRNA-, pre-miRNA-30-, and pre-miRNA-155-designed hairpins targeting either GFP or GAPDH were transfected into the HEK293 cells that were mediated by the pSilencer-4.1-neo vector, which carries a modified RNA polymerase II-type CMV promoter. Comparisons with conventional GFP shRNA showed that GFP levels were reduced markedly by pre-miRNA-30- and pre-miRNA-155-designed GFP shRNAs by fluorescence microscopy. The consistent results from semi-quantitative RT-PCR and Western blot analysis revealed that pre-miRNA-30- and pre-miRNA-155-designed GFP shRNAs could suppress GFP expression significantly. As for endogenous GAPDH, the results from semi-quantitative RT-PCR and Western blot analysis showed that pre-miRNA-30- and pre-miRNA-155-designed GAPDH shRNAs could suppress GAPDH expression even more efficiently than conventional GAPDH shRNA. Together, this study confirmed the efficiency of gene silencing mediated by pre-miRNA-30- and pre-miRNA-155-designed shRNAs, demonstrating that pre-miRNA-designed hairpins are a good strategy for gene silencing.     

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.     

Myostatin short interfering hairpin RNA gene transfer increases skeletal muscle mass

BACKGROUND: Myostatin negatively regulates skeletal muscle growth. Myostatin knockout mice exhibit muscle hypertrophy and decreased interstitial fibrosis. We investigated whether a plasmid expressing a short hairpin interfering RNA (shRNA) against myostatin and transduced using electroporation would increase local skeletal muscle mass. METHODS: Short interfering RNAs (siRNAs) targeting myostatin were co-transfected with a myostatin-expressing plasmid into HEK293 cells and identified for myostatin silencing by Western blot. Corresponding shRNAs were cloned into plasmid shRNA expression vectors. Myostatin or a randomer negative control shRNA plasmid was injected and electroporated into the tibialis anterior or its contralateral muscle, respectively, of nine rats that were sacrificed after 2 weeks. Six other rats received a beta-galactosidase reporter plasmid and were sacrificed at 1, 2, and 4 weeks. Uptake of plasmid was examined by beta-galactosidase expression, whereas myostatin expression was determined by real-time polymerase chain reaction (PCR) and Western blotting. Muscle fiber size was determined by histochemistry. Satellite cell proliferation was determined by PAX7 immunohistochemistry. Myosin heavy chain type II (MHCII) expression was determined by Western blot. RESULTS: beta-Galactosidase reporter plasmid was expressed at 1 and 2 weeks but diminished by 4 weeks in tibialis anterior skeletal muscle. Myostatin shRNA reduced myostatin mRNA and protein expression by 27 and 48%, respectively. Tibialis anterior weight, fiber size, and MHCII increased by 10, 34, and 38%, respectively. Satellite cell number was increased by over 2-fold. CONCLUSIONS: This is the first demonstration that myostatin shRNA gene transfer is a potential strategy to increase muscle mass.