Effects of different target sites on antisense RNA-mediated regulation of gene expression

Antisense RNA is a type of noncoding RNA (ncRNA) that binds to complementary mRNA sequences and induces gene repression by inhibiting translation or degrading mRNA. Recently, several small ncRNAs (sRNAs) have been identified in Escherichia coli that act as antisense RNA mainly via base pairing with mRNA. The base pairing predominantly leads to gene repression, and in some cases, gene activation. In the current study, we examined how the location of target sites affects sRNA-mediated gene regulation. An efficient antisense RNA expression system was developed, and the effects of antisense RNAs on various target sites in a model mRNA were examined. The target sites of antisense RNAs suppressing gene expression were identified, not only in the translation initiation region (TIR) of mRNA, but also at the junction between the coding region and 3'' untranslated region. Surprisingly, an antisense RNA recognizing the upstream region of TIR enhanced gene expression through increasing mRNA stability. [BMB Reports 2014; 47(11): 619-624]     

尿激酶受体反义RNA抑制人乳腺癌细胞的侵袭作用

将尿激酶受体 u PAR反义 RNA表达质粒 p URAS以脂质体法转染高侵袭性人乳腺癌细胞株 MDA- MB- 2 31 ,G41 8筛选抗性克隆 .Northern印迹法检测 u PAR反义 RNA的表达 ,RT- PCR法检测 u PAR的表达 ,牛奶板法测定细胞培养上清中纤溶活性 .改良 Boyden小室模型和裸小鼠乳房脂肪垫接种试验分别检测肿瘤细胞体外和体内侵袭能力 .反义克隆细胞能表达 u PAR反义RNA,其 u PAR表达水平及培养上清中纤溶活性明显降低 .反义细胞克隆体外侵袭能力比原代细胞 MDA- MB- 2 31和转染载体细胞克隆显著降低 .裸小鼠体内侵袭实验表明 ,反义细胞克隆的成瘤性、生长性和侵袭性均显著受到抑制 .u PAR至少在一部分恶性乳腺癌侵袭行为中发挥重要作用 ,反义 RNA可望成为抗肿瘤侵袭治疗的一种有效手段 .     

mRNA靶点筛选方法研究进展

mRNA靶点筛选问题是反义核酸领域的一个难题。近年来出现了多种筛选mRNA上可接近位点以确定靶位点的方法,包括mRNA实测分析法和计算机模拟分析两大类。其中mRNA实测分析法又包括多种针对自然折叠mRNA的实验分析技术;即基因walk技术,RNaseH作图技术、寡核苷酸微阵列技术,酶作图法确定二级结构技术,核酶导向型随机RNA库位点筛选技术和随机寡核苷酸库结合逆转录位点筛选技术。这些方法在鉴定RNA可接近位点及反义核酸的设计方面均有重要作用。     

反义CD151基因转染对大鼠血管平滑肌细胞迁移的影响

目的观察pcDNA3.1真核表达载体介导的反义CD151基因转染对培养的大鼠动脉平滑肌细胞(VSMCs)迁移的影响。方法构建携带全长正义和反义CD151的真核表达载体pcDNA3.1-CD151和pcDNA3.1-anti-CD151重组质粒,转染体外培养的VSMCs,以RT-PCR和Western blot方法检测CD151的表达,用Boyden趋化小室方法观察细胞迁移。结果与载体对照组、脂质体对照组和空白对照组3组均值比较,转染48h后,反义CD151组mRNA表达降低58%,蛋白表达降低51%,正义CD151组的VSMCs CD151mRNA表达增加171%,蛋白表达增加133%;趋化迁移的细胞数,反义CD151组为37.9±6.3,正义CD151组为86.5±12.4;载体对照组、脂质体对照组和空白对照组分别为60.3±7.1、61.8±7.6和67.3±9.6。反义CD151组显著低于其余各组(P<0.01),正义CD151组显著高于其余各组(P<0.01)。结论pcDNA3.1真核表达载体介导的反义CD151转染,通过抑制CD151的表达,能够显著抑制大鼠VSMCs的迁移。     

反义寡核苷酸体外抗流感病毒活性

为了获得具有抗流感病毒活性的反义寡核苷酸,针对A型流感病毒基因组3′和5′端保守序列,设计并合成了多条硫代寡核苷酸(ODN)：3′端反义ODN(IV3#)与3′端正义ODN(IV3S);5′端反义ODN(IV4#)与5′端正义ODN(IV4S)以及由5′和3′端正义/反义保守序列组成的复合序列ODN(IV6#和IV7#)。测定了PSODN的体外细胞毒性和在MDCK细胞中对流感病毒复制的影响。结果表明：(1)PSODN浓度高达50μmol/L时对MDCK细胞末表现有毒性作用;(2)与流感病毒基因组5′端互补的ODN IV4#以及由5′和3′端保守序列构成的IV6#ODN和IV7#ODN均具有较高的抗病毒活性;如IV4#ODN浓度为1μmol/L时对流感病毒A/京防/861(H1N1)抑制率近50%,浓度为10μmol/L或更高时抑制率超过70%,且IV4#抑制病毒活性呈现明显的序列和剂量依赖性;(3)IV4#ODN不仅对A型流感病毒H1N1亚型有抑制作用,对H3N2亚型也表现较高的抑制活性;(4)病毒感染复数(MOI)对IV4#ODN抗病毒活性有一定影响,当MOI较低时,IV4#ODN表现的剂量效应关系更加明显。抗流感病毒反义寡核苷核IV4#ODN的发现为进一步研究流感新型药物奠定了实验基础。〖HTH〗关键词〖HTSS〗：流感病毒, 反义寡核苷酸, 体外细胞毒性, 抗病毒活性, 感染复数     

反义寡聚硫代磷酸脱氧核苷抑制体外细胞培养系统中乙肝抗原表达的研究

设计合成了两个分别互补于乙肝病毒２．１ｋｂ ｍＲＮＡ起始区（片段Ａ）和增强子区（片段Ｂ）的硫代磷酸的ＤＮＡ片段,在经克隆ＨＢＶ ＤＮＡ转染ＨｅｐＧ２细胞建立的ＨＢＶ短暂表达系统及稳定产生ＨＢＶ的２２１５细胞中研究二者对ＨＢｓＡｇ及ＨＢｅＡｇ表达的抑制作用。结果表明反义寡聚物能不同程序抑制乙肝抗原表达,并与剂量呈一定正相关。在ＨｅｐＧ２细胞ＨＢＶ短暂表达系统中,６μｍｏｌ／Ｌ浓度时,片段Ａ、Ｂ对ＨＢ     

Breeding high-stearic oilseed rape (Brassica napus) with high- and low-erucic background using optimised promoter-gene constructs

Seed lipids of oilseed rape (Brassica napus) usually contain small proportions (<3%) of stearic acid. The objective of this study was to increase the content of stearic fatty␣acid in rapeseed oil. An antisense down-regulation of the endogenous stearoyl-ACP desaturase (SAD) catalysing the reaction step from stearic to oleic acid in two different genetic backgrounds was studied. The result of down-regulation of the SAD yielded an about 10-fold increase of stearic acid from 3.7% up to 32% in single seeds of transgenic low-erucic acid rapeseed (LEAR), while high-erucic acid rapeseed (HEAR) showed a 4-fold increase of C18:0 from 1% up to 4%. It could be shown in pooled T2 seed material of LEAR rapeseed, that the stearic acid content is highly correlated with the down-regulation of SAD as indicated by the␣stearate desaturation proportion (SDP). The importance of the promoter strength for the alteration of a trait was confirmed in this study as no change in the fatty acid composition of transgenic plants was achieved with gene constructs controlled by the weak FatB4 seed-specific promoter from Cuphea lanceolata.Karim Zarhloul and Christof Stoll have contributed in equal parts to the present work     

Crystallographic Studies of Chemically Modified Nucleic Acids: A Backward Glance

Chemically modified nucleic acids (CNAs) are widely explored as antisense oligonucleotide or small interfering RNA (siRNA) candidates for therapeutic applications. CNAs are also of interest in diagnostics, high‐throughput genomics and target validation, nanotechnology and as model systems in investigations directed at a better understanding of the etiology of nucleic acid structure, as well as the physicochemical and pairing properties of DNA and RNA, and for probing protein–nucleic acid interactions. In this article, we review research conducted in our laboratory over the past two decades with a focus on crystal‐structure analyses of CNAs and artificial pairing systems. We highlight key insights into issues ranging from conformational distortions as a consequence of modification to the modulation of pairing strength, and RNA affinity by stereoelectronic effects and hydration. Although crystal structures have only been determined for a subset of the large number of modifications that were synthesized and analyzed in the oligonucleotide context to date, they have yielded guiding principles for the design of new analogs with tailor‐made properties, including pairing specificity, nuclease resistance, and cellular uptake. And, perhaps less obviously, crystallographic studies of CNAs and synthetic pairing systems have shed light on fundamental aspects of DNA and RNA structure and function that would not have been disclosed by investigations solely focused on the natural nucleic acids.