Cloning and functional analysis of sheep U6 promoters

Gene silencing mediated by small interfering RNA has become a powerful biological tool for the regulation of gene expression. In order to develop an effective short hairpin RNA (shRNA) expression vector, specifically for use in sheep species, we have identified two sheep U6 promoters based on the highly conserved polymerase III promoter elements. Promoter activity was measured by U6 promoter-driven shRNA to suppress enhanced green fluorescent protein (EGFP) expression. The knock down assay demonstrated that the two sheep U6 promoters and mouse U6 promoter induced a similar level of EGFP knockdown. These results suggest that the two sheep U6 promoters could efficiently drive shRNA expression for gene silencing and may have applications in RNAi-based sheep research.     

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.     

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.     

Bipartite vectors for co‐expression of a growth factor cDNA and short hairpin RNA against an apoptotic gene

Background

Although human islet transplantation is a promising approach for treating type I diabetes, its success is limited as a result of the poor survival rate of transplanted islets. Expression of a growth factor gene to promote revascularization and silencing of pro‐apoptotic genes before transplantation may improve the outcome of islet transplantation.

Methods

In the present study, we constructed bipartite plasmid vectors to co‐express a vascular endothelial growth factor (VEGF) cDNA and short hairpin (sh)RNA targeting inducible NO synthase (iNOS) gene. First, we screened shRNA sequences against human iNOS by transfecting plasmids encoding shRNA targeting different start sites of human iNOS. Then, the effect of different promoters [such as H1, U6 and cytomegalovirus (CMV)] and micro RNA backbones on gene silencing was determined.

Results

No statistical difference in iNOS gene silencing was observed for the shRNA with H1, U6 and CMV promoters. In addition, a conventional shRNA showed better silencing of the iNOS gene compared to shRNA containing mir375 and mir30 backbones. A bipartite plasmid was also constructed with mir30‐shRNA and a VEGF cDNA controlled by a single CMV promoter. This plasmid showed a better silencing effect compared to plasmid without VEGF cDNA.

Conclusions

In the present study, we have successfully constructed bipartite vectors co‐expressing a VEGF cDNA and a shRNA against the iNOS gene. These vectors could be attractive candidates for improving the survival of transplanted islets. Copyright © 2009 John Wiley & Sons, Ltd.     

Single copy shRNA configuration for ubiquitous gene knockdown in mice

RNA interference through the expression of small hairpin RNA (shRNA) molecules has become a very promising tool in reverse mouse genetics as it may allow inexpensive and rapid gene function analysis in vivo. However, the prerequisites for ubiquitous and reproducible shRNA expression are not well defined. Here we show that a single copy shRNA-transgene can mediate body-wide gene silencing in mice when inserted in a defined locus of the genome. The most commonly used promoters for shRNA expression, H1 and U6, showed a comparably broad activity in this configuration. Taken together, the results define a novel approach for efficient interference with expression of defined genes in vivo. Moreover, we provide a rapid strategy for the production of gene knockdown mice combining recombinase mediated cassette exchange and tetraploid blastocyst complementation approaches.     

Hybrid Cytomegalovirus-U6 Promoter-based Plasmid Vectors Improve Efficiency of RNA Interference in Zebrafish

Short hairpin RNA (shRNA) directed by RNA polymerase III (Pol III) or Pol II promoter was shown to be capable of silencing gene expression, which should permit analyses of gene functions or as a potential therapeutic tool. However, the inhibitory effect of shRNA remains problematic in fish. We demonstrated that silencing efficiency by shRNA produced from the hybrid construct composed of the CMV enhancer or entire CMV promoter placed immediately upstream of a U6 promoter. When tested the exogenous gene, silencing of an enhanced green fluorescent protein (EGFP) target gene was 89.18 +/- 5.06% for CMVE-U6 promoter group and 88.26 +/- 6.46% for CMV-U6 promoter group. To test the hybrid promoters driving shRNA efficiency against an endogenous gene, we used shRNA against no tail (NTL) gene. When vectorized in the zebrafish, the hybrid constructs strongly repressed NTL gene expression. The NTL phenotype occupied 52.09 +/- 3.06% and 51.56 +/- 3.68% for CMVE-U6 promoter and CMV-U6 promoter groups, respectively. The NTL gene expression reduced 82.17 +/- 2.96% for CMVE-U6 promoter group and 83.06 +/- 2.38% for CMV-U6 promoter group. We concluded that the CMV enhancer or entire CMV promoter locating upstream of the U6-promoter could significantly improve inhibitory effect induced by the shRNA for both exogenous and endogenous genes compared with the CMV promoter or U6 promoter alone. In contrast, the two hybrid promoter constructs had similar effects on driving shRNA.     

Rolling circle amplification-mediated hairpin RNA (RMHR) library construction in plants

Long hairpin RNA (lhRNA) construct-induced gene silencing facilitates the study of gene function in plants and animals, but constructing multiple lhRNA vectors using traditional approaches is both time-consuming and costly. Also, most of the existing approaches are based on sequence-specific cloning of individual sequences, and are therefore not suitable for preparing hpRNA libraries from a pool of mixed target sequences. Here we describe a rolling-circle amplification (RCA)-mediated hpRNA (RMHR) construction system suitable for generating libraries of lhRNA constructs from any gene of interest or pool of genes. Using RMHR we successfully generated a lhRNA library from a Arabidopsis cDNA population containing known and unknown genes, with an average size of 500–800 bp for the inverted-repeat inserts. To validate the RMHR system, lhRNA constructs targeting the β-glucuronidase (GUS) gene were tested using Agrobacterium infiltration and shown to be effective at inducing GUS silencing in tobacco leaves. Our results indicate that the RMHR technique permits rapid, efficient and low-cost preparation of genome-wide lhRNA expression libraries.     

Stable expression of antibiotic resistance genes using a promoter fragment of the U1 snRNA gene

As U1 snRNA is produced in all mammalian cell types, antibiotic resistance genes driven by this promoter would be ideally suited as genetic selection markers. However, although the U1 snRNA gene is transcribed by RNA polymerase II, its native product is not a messenger RNA, but a splicing cofactor. To test whether this promoter could nevertheless produce a functional mRNA, sensitive reporter genes expressing resistance to the antibiotics hygromycin-B and bleomycin were constructed with either the U1 snRNA promoter or the SV40 early promoter. Resistant cell lines could only be obtained with constructs equipped with a functional polyadenylation signal. With the U1 snRNA promoter about three times fewer colonies were obtained than with the SV40 early promoter. Another potential advantage of the U1 snRNA promoter is that, in contrast to the promoters commonly used to express genetic selection markers, the enhancer-like element contained in the U1 snRNA promoter had only a minimal stimulative effect, only detectable with the most sensitive methods, on an adjacent mRNA-producing gene. The U1 snRNA promoter was also capable of expressing bleomycin resistance in the context of a self-inactivating retrovirus vector, whereby it was discovered that the mouse 3T3 cells used in this experiment were 10 times more sensitive to bleomycin than human or hamster cell lines.Abbreviations ble bleomycin resistance gene - Hm hygromycin - hpt hygromycin phosphotransferase gene - neo neomycin (geneticin) phosphotransferase gene     

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.     

A new design of a lentiviral shRNA vector with inducible co-expression of ARGONAUTE 2 for enhancing gene silencing efficiency

Background

RNA interference (RNAi) is a robust tool for inhibiting specific gene expression, but it is limited by the uncertain efficiency of siRNA or shRNA constructs. It has been shown that the overexpression of ARGONAUTE 2 (AGO2) protein increases silencing efficiency. However, the key elements required for AGO2-mediated enhancement of gene silencing in lentiviral vector has not been well studied.

Results

To explore the application of AGO2-based shRNA system in mammalian cells, we designed shRNA vectors targeting the EGFP reporter gene and evaluated the effects of various factors on silencing efficiency including stem length, loop sequence, antisense location as well as the ratio between AGO2 and shRNA. We found that 19 ~ 21-bp stem and 6- or 9-nt loop structure in the sense-loop-antisense (S-L-AS) orientation was an optimal design in the AGO2-shRNA system. Then, we constructed a single lentiviral vector co-expressing shRNA and AGO2 and demonstrated that the simultaneous expression of shRNA and AGO2 can achieve robust silencing of exogenous DsRed2 and endogenous ID1 and P65 genes. However, the titers of packaged lentivirus from constitutive expression of AGO2 vector were extremely low, severely limiting its broad application. For the first time, we demonstrated that the problem can be significantly improved by using the inducible expression of AGO2 lentiviral system.

Conclusions

We reported a novel lentiviral vector with an optimal design of shRNA and inducible AGO2 overexpression which provides a new tool for RNAi research.

     

RNA interference by small hairpin RNAs synthesised under control of the human 7S K RNA promoter

Small interfering RNAs (siRNAs) represent RNA duplexes of 21 nucleotides in length that inhibit gene expression. We have used the human gene-external 7S K RNA promoter for synthesis of short hairpin RNAs (shRNAs) which efficiently target human lamin mRNA via RNA interference (RNAi). Here we demonstrate that orientation of the target sequence within the shRNA construct is important for interference. Furthermore, effective interference also depends on the length and/or structure of the shRNA. Evidence is presented that the human 7S K promoter is more active in vivo than other gene-external promoters, such as the human U6 small nuclear RNA (snRNA) gene promoter.