Co-expression of anti-NFκB RNA aptamers and siRNAs leads to maximal suppression of NFκB activity in mammalian cells

The specific down-regulation of gene expression in cells is a powerful method for elucidating a gene's function. A common method for suppressing gene expression is the elimination of mRNA by RNAi or antisense. Alternatively, oligonucleotide-derived aptamers have been used as protein-directed agents for the specific knock-down of both intracellular and extracellular protein activity. Protein-directed methods offer the advantage of more closely mimicking small molecule therapeutics' mechanism of activity. Furthermore, protein-directed methods may synergize with RNA-directed methods since the two methods attack gene expression at different levels. Here we have knocked down a well-characterized intracellular protein's activity, NFκB, by expressing either aptamers or small interfering RNAs (siRNAs). Both methods can diminish NFκB's activity to similar levels (from 29 to 64%). Interestingly, expression of both aptamers and siRNAs simultaneously, suppressed NFκB activity better than either method alone (up to 90%). These results demonstrate that the expression of intracellular aptamers is a viable alternative to siRNA knock-down. Furthermore, for the first time, we show that the use of aptamers and siRNA together can be the most effective way to achieve maximal knock-down of protein activity.     

综述: 适配子介导的siRNA转运

小分子干扰RNA(small interfering RNA,siRNA)因能快速抑制哺乳动物特定基因的表达而用于各种疾病的治疗,然而选择合适的载体将siRNA安全有效地转运进入靶细胞仍是制约siRNA应用于临床治疗的重要因素．越来越多的转运载体被开发出来,其中包括针对细胞表面蛋白的适配子(aptamer)．Aptamer是一种能与靶分子高特异性和高亲和结合的寡核苷酸,已经越来越多地用于疾病的诊断和治疗．Aptamer作为载体介导siRNA转运可提高治疗的靶向性并减少副作用,这将为siRNA应用于临床靶向治疗提供一种特异有效的途径．目前,已经发现几种aptamers可以介导siRNA的转运,如anti-PSMA aptamer,anti-HIV gp120 aptamer,anti-CD4 aptamer等．本文将综述aptamer介导siRNA转运的最新研究进展．     

Use of bicistronic vectors in combination with flow cytometry to screen for effective small interfering RNA target sequences

The efficacy and specificity of small interfering RNAs (siRNAs) are largely dependent on the siRNA sequence. Since only empirical strategies are currently available for predicting these parameters, simple and accurate methods for evaluating siRNAs are needed. To simplify such experiments, target genes are often tagged with reporters for easier readout. Here, we used a bicistronic vector expressing a target gene and green fluorescent protein (GFP) to create a system in which the effect of an siRNA sequence was reflected in the GFP expression level. Cells were transduced with the bicistronic vector, expression vectors for siRNA and red fluorescent protein (RFP). Flow cytometric analysis of the transduced cells revealed that siRNAs for the target gene silenced GFP from the bicistronic vector, but did not silence GFP transcribed without the target gene sequence. In addition, the mean fluorescence intensities of GFP on RFP-expressing cells correlated well with the target gene mRNA and protein levels. These results suggest that this flow cytometry-based method enables us to quantitatively evaluate the efficacy and specificity of siRNAs. Because of its simplicity and effectiveness, this method will facilitate the screening of effective siRNA target sequences, even in high-throughput applications.     

Dual-target gene silencing by using long,synthetic siRNA duplexes without triggering antiviral responses

Chemically synthesized small interfering RNAs (siRNAs) can specifically knock-down expression of target genes via RNA interference (RNAi) pathway. To date, the length of synthetic siRNA duplex has been strictly maintained less than 30 bp, because an early study suggested that double-stranded RNAs (dsRNAs) longer than 30 bp could not trigger specific gene silencing due to the induction of nonspecific antiviral interferon responses. Contrary to the current belief, here we show that synthetic dsRNA as long as 38 bp can result in specific target gene silencing without nonspecific antiviral responses. Using this longer duplex structure, we have generated dsRNAs, which can simultaneously knock-down expression of two target genes (termed as dual-target siRNAs or dsiRNAs). Our results thus demonstrate the structural flexibility of gene silencing siRNAs, and provide a starting point to construct multifunctional RNA structures. The dsiRNAs could be utilized to develop a novel therapeutic gene silencing strategy against diseases with multiple gene alternations such as viral infection and cancer.     

RNAi in primary human chondrocytes: Efficiencies, kinetics, and non-specific effects of siRNA-mediated gene suppression

RNAi-mediated gene silencing is a recent, powerful tool to investigate gene function. Controlling for experimental factors such as transfection efficiencies, siRNA concentration, gene suppression levels, gene suppression kinetics, or non-specific effects is key to robust results. In this methods paper, we compare the efficiencies of different transfection reagents in primary human chondrocytes (PHCs). We investigated TAK1 gene suppression efficiencies and kinetics on the mRNA and protein level depending on the siRNA concentration used. Furthermore, we evaluated PKR, IL-6, and TNF-alpha induction, as well as IkappaB degradation and NFkappaB activation as control parameters of non-specific siRNA effects. PKR and IL-6 proved to be appropriate markers of cellular inflammatory responses resulting from siRNA transfection. In addition, we compared different siRNAs (silencing, non-silencing, classic 21-mer, and 25-mer stealth siRNA) with respect to their capacity to induce cellular inflammatory responses. We found the occurrence of cellular responses in PHCs to be a function of the specific siRNA sequence in use. Hence, it is essential to analyze and to compare gene silencing siRNAs and control siRNAs with respect to their off-target effects prior to any functional gene validation.     

Role of Bach-1 in regulation of heme oxygenase-1 in human liver cells: insights from studies with small interfering RNAS

Heme oxygenase-1 is an antioxidant defense enzyme that converts heme to biliverdin, iron, and carbon monoxide. Bach-1 is a bZip protein that forms heterodimers with small Maf proteins and was reported recently to down-regulate the HO-1 gene in mice. Using small interfering RNAs targeted to human Bach-1 mRNA, we investigated whether modulation of human hepatic Bach-1 expression by small interfering (si)RNA technology influences heme oxygenase-1 gene expression. We found that Bach-1 siRNAs transfected into Huh-7 cells significantly reduced Bach-1 mRNA and protein levels approximately 80%, compared with non siRNA-treated cells. In contrast, transfection with the same amounts of nonspecific control duplexes or LaminB2-duplex did not reduce Bach-1 mRNA or protein levels, confirming the specificity of Bach-1 siRNA. Expression of the heme oxygenase-1 gene in Bach-1 siRNA-transfected cells was up-regulated 7-fold, compared with cells without Bach-1 siRNA. The effect of increasing concentrations of heme to up-regulate levels of heme oxygenase-1 was more pronounced when Bach-1 siRNA was present. Taken together, these results indicated that Bach-1 has a specific and selective ability to repress expression of human hepatic heme oxygenase-1. Silencing of Bach-1 by siRNAs is a useful method for up-regulating HO-1 gene expression. Exogenous heme produces additional up-regulation, beyond that produced by Bach-1 siRNAs, suggesting that heme does not act solely through its effects on Bach-1.     

MAT2A基因小干扰RNA诱导人肝癌细胞凋亡的分子机制

为探讨甲硫氨酸腺苷转移酶2A(MAT2A)小干扰RNA对人肝癌细胞生长和细胞凋亡的影响及其机 制,采用脂质体转染法将MAT2A小干扰RNA质粒表达载体转染人肝癌细胞系Bel 7402细胞、HepG 2细胞和 HepG3B细胞.半定量RT PCR检测MAT2A mRNA表达,Western印迹检测MAT2A 蛋白质表达, M TT法观察MAT2A小干扰RNA对肝癌细胞生长的影响,流式细胞仪及DAPI染色检测siRNA对肝癌细 胞凋亡的影响.为探讨其作用机制, 进一步检测转染后肝癌细胞MAT的活性、MAT1A mRNA表 达及SAM、SAH含量.结果发现, MAT2A小干扰RNA特异性抑制人肝癌细胞MAT2A mRNA和蛋白质 的表达, 刺激MAT表达由MAT2A向MAT1A转变, 降低了肝癌细胞中MATⅡ活性（P<005） ,从而诱导肝癌细胞凋亡; MAT2A小干扰RNA诱导Bel－7402细胞、HepG 2细胞、 Hep 3B细胞凋亡 指数分别为19．3%±2．8%、22．8%±3．5%、21．8%±4．2%, 较对照组siRNA(凋亡指数为5 2%±19%)具有明显差异(P<005).DAPI染色显示, MAT2A小干扰RNA转染组可见多个细胞核 浓缩、碎裂成蓝色的小块状,染色质凝聚,形成典型的凋亡小体, 而对照siRNA转染组未发现典型的 凋亡小体.肝癌细胞的生长也受到抑制,MAT2A小干扰RNA转染Bel 7402细胞、HepG 2细胞 、HepG3B细胞72 h后,细胞生长抑制率达高峰,分别为39．62%、41．27%、38．84%.肝癌细胞 中SAM含量明显升高(P<001),而SAH含量改变不明显, SAM/SAH变化伴随SAM含量变化而改 变.提示靶向MAT2A基因的siRNA通过升高肝癌细胞中SAM含量,刺激MAT表达由MAT2A向MAT1A转变, 从而诱导肝癌细胞凋亡,抑制肝癌细胞生长.     

Design and evaluation of chemically synthesized siRNA targeting the NPM-ALK fusion site in anaplastic large cell lymphoma (ALCL)

The NPM-ALK fusion protein is found in up to 75% of pediatric anaplastic large cell lymphomas (ALCL). The ALK kinase becomes constitutively activated and triggers malignant transformation. Molecular targeting of the tumor-specific NPM-ALK fusion by gene-silencing methods seems to be a promising approach both for the treatment of ALCL and to decipher signaling pathways used by NPM-ALK. We designed and evaluated three chemically synthesized small interfering RNAs (siRNAs) for downregulation of the NPM-ALK fusion mRNA. Compared to HeLa cells transfected with the NPM-ALK expression plasmid only and to an siRNA containing two point mutations, the most potent anti-NPM-ALK siRNA reduced NPM-ALK protein expression in HeLa cells to almost undetectable levels, and the number of cells stained positively for NPM-ALK decreased by 80%. With respect to signaling, expressing of NPM-ALK increased the activity of AKT and ERK in HeLa cells, and this effect could be blocked by the specific siRNA targeting NPM-ALK. Expression of endogenous NPM-ALK mRNA in SR786 ALCL cells decreased by 50%-60% in cells transfected with the NPM-ALK siRNA. However, the amount of NPM-ALK protein was not influenced by a single transfection of the siRNAs against NPM-ALK. Repeated transfections over 8 days led to a significant reduction in NPM-ALK protein but without induction of apoptosis. We believe that the long protein half-life of NPM-ALK, at least 48 hours, limits the application of transiently transfected siRNAs. Nevertheless, RNA interference (RNAi) offers a suitable technique to dissect signaling pathways employed by NPM-ALK and may potentially be used to develop siRNA-based gene therapeutic approaches against NPM-ALK-positive lymphomas.     

Inhibition of thimet oligopeptidase by siRNA alters specific intracellular peptides and potentiates isoproterenol signal transduction

Mammalian cells have a large number of intracellular peptides that are generated by extralysosomal proteases. In this study, the enzymatic activity of thimet oligopeptidase (EP24.15) was inhibited in human embryonic kidney (HEK) 293 cells using a specific siRNA sequence. The semi-quantitative intracellular peptidome analyses of siRNA-transfected HEK293 cells shows that the levels of specific intracellular peptides are either increased or decreased upon EP24.15 inhibition. Decreased expression of EP24.15 was sufficient to potentiate luciferase gene reporter activation by isoproterenol (1-10 μM). The protein kinase A inhibitor KT5720 (1 μM) reduced the positive effect of the EP24.15 siRNA on isoproterenol signaling. Thus, EP24.15 inhibition by siRNA modulates the levels of specific intracellular peptides and isoproterenol signal transduction.     

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.     

用绿色荧光蛋白（GFP）作为报告分子筛选有效的siRNA

 建立一种利用绿色荧光蛋白（GFP）作为报告分子筛选能有效抑制目的基因表达的siRNA的方法.以巨噬细胞移动抑制因子（MIF）基因为研究对象,筛选能有效沉默MIF表达的质粒载体介导的siRNA.构建拥有同一Kozak共有翻译启始序列、翻译启始密码子ATG的MIF-GFP融合表达载体pEGFP-MIF.分别将3个靶向MIF的siRNA表达质粒与pEGFP-MIF共转化HEK293细胞,在荧光显微镜下观察HEK293细胞中GFP的表达,并用荧光定量PCR检测HEK293细胞中MIF mRNA的表达水平.同时,将MIF siRNA表达质粒分别与MIF表达载体共转化HEK293细胞,用荧光定量PCR检测HEK293细胞中MIF mRNA的表达水平.定量PCR结果显示,GFP表达低的细胞中,MIF mRNA的表达也明显降低;利用pEGFP-MIF和MIF表达载体筛选到的有效MIF siRNA的结果一致.因此,建立了目的基因与GFP融合表达,以GFP作为报告分子来筛选抑制目的基因表达siRNA的方法,并为进行多个基因的有效siRNA的筛选提供解决方案.     

Reduced levels of Ago2 expression result in increased siRNA competition in mammalian cells

Administration of small interfering RNAs (siRNAs) leads to degradation of specific mRNAs utilizing the cellular RNA interference (RNAi) machinery. It has been demonstrated that co-administration of siRNAs may lead to attenuation of activity of one of the siRNAs. Utilizing antisense and siRNA-mediated RNA-induced silencing complex (RISC) gene reduction we show that siRNA competition is correlated with differences in the cellular expression levels of Ago2, while levels of other RISC proteins have no effect on competition. We also show that under certain conditions siRNA competition rather than reduction of cellular RISC levels may be responsible for apparent reduction in siRNA activity. Furthermore, exploiting siRNA competition, we show that the RISC pathway loads and results in detectable cleavage of the target RNA in ~2h after transfection. The RISC pathway is also capable of being reloaded even in the absence of new protein synthesis. RISC reloading and subsequent induction of detectable cleavage of a new target RNA, requires about 9–12h following the initial transfection.     

Designing of highly effective complementary and mismatch siRNAs for silencing a gene

In past, numerous methods have been developed for predicting efficacy of short interfering RNA (siRNA). However these methods have been developed for predicting efficacy of fully complementary siRNA against a gene. Best of author's knowledge no method has been developed for predicting efficacy of mismatch siRNA against a gene. In this study, a systematic attempt has been made to identify highly effective complementary as well as mismatch siRNAs for silencing a gene.Support vector machine (SVM) based models have been developed for predicting efficacy of siRNAs using composition, binary and hybrid pattern siRNAs. We achieved maximum correlation 0.67 between predicted and actual efficacy of siRNAs using hybrid model. All models were trained and tested on a dataset of 2182 siRNAs and performance was evaluated using five-fold cross validation techniques. The performance of our method desiRm is comparable to other well-known methods. In this study, first time attempt has been made to design mutant siRNAs (mismatch siRNAs). In this approach we mutated a given siRNA on all possible sites/positions with all possible nucleotides. Efficacy of each mutated siRNA is predicted using our method desiRm. It is well known from literature that mismatches between siRNA and target affects the silencing efficacy. Thus we have incorporated the rules derived from base mismatches experimental data to find out over all efficacy of mutated or mismatch siRNAs. Finally we developed a webserver, desiRm (http://www.imtech.res.in/raghava/desirm/) for designing highly effective siRNA for silencing a gene. This tool will be helpful to design siRNA to degrade disease isoform of heterozygous single nucleotide polymorphism gene without depleting the wild type protein.     

siRNA制备技术的研究进展

近年来,siRNA(small interfering RNA)被广泛用于诱导哺乳动物体系中的RNA干扰。目前有五种siRNA制备方法：化学合成法、体外转录法、RNase Ⅲ家族体外消化法、表达载体法和表达框架法。在这些方法中siRNA序列的选择至关重要。随着药物研究和基因组研究的进展,siRNA的制备技术需要在高通量筛选、稳定性、基因导入和调控等方面进一步发展与完善。作者综述了siRNA序列的选择原则和哺乳动物系统中的siRNA产生方法,并简要讨论了其发展前景。     

Delivery of chemo-sensitizing siRNAs to HER2+-breast cancer cells using RNA aptamers

Human epidermal growth factor receptor 2 (HER2) expression in breast cancer is associated with an aggressive phenotype and poor prognosis, making it an appealing therapeutic target. Trastuzumab, an HER2 antibody-based inhibitor, is currently the leading targeted treatment for HER2(+)-breast cancers. Unfortunately, many patients inevitably develop resistance to the therapy, highlighting the need for alternative targeted therapeutic options. In this study, we used a novel, cell-based selection approach for isolating 'cell-type specific', 'cell-internalizing RNA ligands (aptamers)' capable of delivering therapeutic small interfering RNAs (siRNAs) to HER2-expressing breast cancer cells. RNA aptamers with the greatest specificity and internalization potential were covalently linked to siRNAs targeting the anti-apoptotic gene, Bcl-2. We demonstrate that, when applied to cells, the HER2 aptamer-Bcl-2 siRNA conjugates selectively internalize into HER2(+)-cells and silence Bcl-2 gene expression. Importantly, Bcl-2 silencing sensitizes these cells to chemotherapy (cisplatin) suggesting a potential new therapeutic approach for treating breast cancers with HER2(+)-status. In summary, we describe a novel cell-based selection methodology that enables the identification of cell-internalizing RNA aptamers for targeting therapeutic siRNAs to HER2-expressing breast cancer cells. The future refinement of this technology may promote the widespread use of RNA-based reagents for targeted therapeutic applications.     

Selection, characterization and application of new RNA HIV gp 120 aptamers for facile delivery of Dicer substrate siRNAs into HIV infected cells

The envelope glycoprotein of human immunodeficiency virus (HIV) consists of an exterior glycoprotein (gp120) and a trans-membrane domain (gp41) and has an important role in viral entry into cells. HIV-1 entry has been validated as a clinically relevant anti-viral strategy for drug discovery. In the present work, several 2′-F substituted RNA aptamers that bind to the HIV-1_BaL gp120 protein with nanomole affinity were isolated from a RNA library by the SELEX (Systematic Evolution of Ligands by EXponential enrichment) procedure. From two of these aptamers we created a series of new dual inhibitory function anti-gp120 aptamer–siRNA chimeras. The aptamers and aptamer–siRNA chimeras specifically bind to and are internalized into cells expressing HIV gp160. The Dicer-substrate siRNA delivered by the aptamers is functionally processed by Dicer, resulting in specific inhibition of HIV-1 replication and infectivity in cultured CEM T-cells and primary blood mononuclear cells (PBMCs). Moreover, we have introduced a ‘sticky’ sequence onto a chemically synthesized aptamer which facilitates attachment of the Dicer substrate siRNAs for potential multiplexing. Our results provide a set of novel inhibitory agents for blocking HIV replication and further validate the use of aptamers for delivery of Dicer substrate siRNAs.     

Knockdown of chimeric glucocerebrosidase by green fluorescent protein-directed small interfering RNA

Gaucher disease, the most common type of lysosomal storage disorder, is characterized by an inherited deficiency of the membrane-associated hydrolase, glucocerebrosidase. Glucocerebrosidase catalyzes the hydrolysis of glucocerebroside to ceramide and glucose, a crucial step in the recycling of membrane sphingolipids. The exorbitant cost of the current treatment standard for Gaucher disease, enzyme replacement therapy, prevents many from receiving treatment. This limitation has led to a wide-spread search for more efficient and cost-effective methods of protein production and alternate therapies, resulting in a closer examination of glucocerebrosidase biosynthesis and current treatment techniques. The use of specific small interfering RNAs (siRNAs) to knock down target genes is an attractive option for studying such processes, though a glucocerebrosidase-specific siRNA has yet to be reported. We note, however, that green fluorescent protein (GFP)-directed siRNAs can not only provide a positive control to test siRNA delivery and system integrity, but also serve as a means to knock down a fusion partner without having to design siRNAs specific to the partner. After effectively co-transfecting COS-1 cells with enhanced GFP (EGFP)-tagged glucocerebrosidase constructs and GFP-directed siRNAs, we report successful knockdown of all EGFP-containing constructs at both the RNA and protein levels. This provides a method of examining enzyme biosynthesis and treatment options. Furthermore, this technique is applicable to other systems, since we have demonstrated the usefulness of GFP as a siRNA target in mammalian cells when fused to another gene of interest.