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.     

A technique to enzymatically construct libraries which express short hairpin RNA of arbitrary stem length

Short interfering RNAs (siRNAs) and short hairpin RNAs (shRNAs) usually used for RNA interference (RNAi) are double-stranded RNAs (dsRNAs) of 21 base pairs. However, siRNAs and shRNAs of longer stem length have been reported to show more potent gene silencing. Here, we report a new technique to enzymatically construct shRNA libraries containing clones from firefly luciferase cDNA and Jurkat cDNA. The technique allowed the efficacious generation of shRNAs of arbitrary stem length as desired, providing the clones which potently silenced the specified gene expression and presenting a high efficiency rate of gene silencing. Our results indicate that the technique permits the rapid, efficient, and low-cost preparation of genomewide shRNA expression libraries not only for humans and mice but also for sorts of biological species and that the relevant libraries are applicable for the search of genes related to phenotype changes and of new targets for drug discovery.     

Mutations in p53 cDNA sequence introduced by retroviral vector

The high mutation rates of retroviruses are a potential problem with retroviral vectors. We studied the mutation rates and spectra of p53 sequences transduced with a retroviral vector in a cancer gene therapy model. When p53-deficient H358 non-small cell lung cancer cells were treated with a retroviral vector carrying normal p53 cDNA, most of transduced cells were killed by apoptosis. However, a small number of clones escaped p53-mediated apoptosis. We examined the p53 cDNA structure in these resistant clones. PCR-based analysis showed that 88/102 clones had detectable mutations in p53, including gross rearrangements, deletions/insertions, and base substitutions. To study the mutation rate of the p53 sequence in all transduced clones, the retroviral vector containing the non-functional p53 gene and the Neo-resistant marker gene was introduced into H358 cells. Only one of 95 isolated clones showed a base substitution. These results indicate that the mutation rate of p53 is not particularly high, but there is a significant risk that cancer cells will resist p53 gene therapy as a result of retroviral replication errors.     

shRNA表达载体构建方法的优化

目的探讨shRNA表达载体的构建方法 ,以加速RNA干扰研究的进程。方法对shRNA表达载体的构建过程进行分析和监测 ,并加以优化。结果发现shRNA表达载体构建的退火过程容易产生障碍 ,经优化退火缓冲液的NaCl含量后 ,能明显提高退火效率及shRNA表达载体构建的成功率。结论shRNA表达载体构建的退火过程需加以关注 ,退火缓冲液中NaCl含量应提高至 2 0 0mmol/L以上为宜     

AKT2基因短发夹结构RNA慢病毒载体的构建及鉴定

目的：构建丝/苏氨酸蛋白激酶2（AKT2）基因RNA干扰（RNAi）慢病毒载体。方法：利用公用网站按照RNAi序列设计原则,设计RNAi靶点序列并合成靶序列的Oligo DNA,退火形成双链DNA,与经MluI和ClaI进行酶切后的PLVTHM载体连接产生shRNA慢病毒载体。应用shRNA慢病毒载体转染293T细胞及U87细胞,测定病毒滴度,流式细胞仪测定U87细胞的转染效率,PCR及Western blot鉴定AKT2基因在U87细胞中的下调作用。结果：成功构建了shRNA-AKT2慢病毒载体,经测序与设计合成的靶向链完全一致。荧光显微镜下观察293T细胞感染效率大于90%,病毒滴度为3.59×107TU/ml;流式细胞仪测定对AKT2细胞的转染效率为86.93%。PCR测定shRNA载体感染U87细胞后AKT2的干扰效率为68%。Western Blot结果显示该慢病毒载体对AKT2的表达有较为显著的敲减作用。结论：成功构建了人胶质瘤细胞株AKT2基因RNAi慢病毒载体,为后续的体内外功能学试验创造了条件。     

AKT2 基因短发夹结构RNA 慢病毒载体的构建及鉴定

目的:构建丝/苏氨酸蛋白激酶2(AKT2)基因RNA干扰(RNAi)慢病毒载体。方法:利用公用网站按照RNAi序列设计原则,设计RNAi靶点序列并合成靶序列的Oligo DNA,退火形成双链DNA,与经MluI和ClaI进行酶切后的PLVTHM载体连接产生shRNA慢病毒载体。应用shRNA慢病毒载体转染293T细胞及U87细胞,测定病毒滴度,流式细胞仪测定U87细胞的转染效率,PCR及Western blot鉴定AKT2基因在U87细胞中的下调作用。结果:成功构建了shRNA-AKT2慢病毒载体,经测序与设计合成的靶向链完全一致。荧光显微镜下观察293T细胞感染效率大于90%,病毒滴度为3.59×107TU/ml;流式细胞仪测定对AKT2细胞的转染效率为86.93%。PCR测定shRNA载体感染U87细胞后AKT2的干扰效率为68%。Western Blot结果显示该慢病毒载体对AKT2的表达有较为显著的敲减作用。结论:成功构建了人胶质瘤细胞株AKT2基因RNAi慢病毒载体,为后续的体内外功能学试验创造了条件。     

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.     

RNA interfering approach for clarifying the PPARgamma pathway using lentiviral vector expressing short hairpin RNA

Peroxisome proliferator-activated receptor γ (PPARγ) plays a central role in adipocyte differentiation and insulin sensitivity. Although PPARγ also appears to regulate diverse cellular processes in other cell types such as lymphocytes, the detailed mechanisms remain unclear. In this study, we established a lentivirus-mediated short hairpin RNA expression system and identified a potent short hairpin RNA which suppresses PPARγ expression, resulting in marked inhibition of preadipocyte-to-adipocyte differentiation in 3T3-L1 cells. Our PPARγ-knockdown method will serve to clarify the PPARγ pathway in various cell types in vivo and in vitro, and will facilitate the development of therapeutic applications for a variety of diseases.     

RNA-dependent RNA polymerase 6 is required for efficient hpRNA-induced gene silencing in plants

In plants, transgenes with inverted repeats are used to induce efficient RNA silencing, which is also frequently induced by highly transcribed sense transgenes. RNA silencing induced by sense transgenes is dependent on RNA-dependent RNA polymerase 6 (RDR6), which converts single-stranded (ss) RNA into double-stranded (ds) RNA. By contrast, it has been proposed that RNA silencing induced by self-complementary hairpin RNA (hpRNA) does not require RDR6, because the hpRNA can directly fold back on itself to form dsRNA. However, it is unclear whether RDR6 plays a role in hpRNA-induced RNA silencing by amplifying dsRNA to spread RNA silencing within the plant. To address the efficiency of hpRNA-induced RNA silencing in the presence or absence of RDR6, Wild type (WT, Col-0) and rdr6-11 Arabidopsis thaliana lines expressing green fluorescent protein (GFP) were generated and transformed with a GFP-RNA interference (RNAi) construct. Whereas most GFP-RNAi-transformed WT lines exhibited almost complete silencing of GFP expression in the T1 generation, various levels of GFP expression remained among the GFP-RNAi-transformed rdr6-11 lines. Homozygous expression of GFP-RNAi in the T3 generation was not sufficient to induce complete GFP silencing in several rdr6-11 lines. Our results indicate that RDR6 is required for efficient hpRNA-induced RNA silencing in plants.     

The can and can't dos of p53 RNA

The p53 protein, like any other protein, cannot be made in the cell without RNA. And even once made, the p53 protein will be more rapidly degraded without the p53 RNA. Furthermore, the p53 RNA helps deciding which p53 isoform should be produced and under which cell conditions. Mutant p53 mRNA codes for an unstable and inactive protein. These matters are discussed in this article as well as the recent reports on p53 RNA mutations, interacting-proteins, 3′ processing and 5′–3′ loop.     

RNA silencing movement in plants

Multicellular organisms, like higher plants, need to coordinate their growth and development and to cope with environmental cues. To achieve this, various signal molecules are transported between neighboring cells and distant organs to control the fate of the recipient cells and organs. RNA silencing produces cell non-autonomous signal molecules that can move over short or long distances leading to the sequence specific silencing of a target gene in a well defined area of cells or throughout the entire plant,respectively. The nature of these signal molecules, the route of silencing spread, and the genes involved in their production, movement and reception are discussed in this review. Additionally, a short section on features of silencing spread in animal models is presented at the end of this review.     

RNA interference and its application in bone-related diseases

RNA interference (RNAi) is the most exciting insight in biology in past decades, which provided new perspectives into the genome-wide surveys of gene function by targeted degradation of mRNA with the introduction of small interfering RNAs (siRNAs) or small hairpin RNAs (shRNAs) in a large variety of organisms, and turned out to be a more efficient and convenient method compared with the traditional knockout pathway. What's more, as the enhancement of its stability and improvement of its delivery vehicles, RNAi is bound to be a practical tool in determine gene function first in vitro and then in vivo. In this paper, we will focus on the recent achievements of RNAi and also depict the development of RNAi as a potentially powerful tool in studying bone-related diseases.