联合应用siRNA和拉米夫定抑制HBV复制和表达的实验研究

观察联合应用小干扰RNA和拉米夫定对HepG2.2.15细胞中HBV抗原表达和复制的抑制作用。构建并转染重组质粒psil-HBV到HepG2.2.15细胞中。转染后的细胞培养基中加入拉米夫定(0.05μm),分别于48、72、96 h收获细胞。用ELISA方法检测HBeAg和HBsAg;HBV DNA水平用实时定量PCR测定;用逆转录PCR检测HBV mRNA水平。96 h后联合应用小干扰RNA和拉米夫定组细胞培养上清中HBeAg和HBsAg抑制率分别为91.8%和82.4%(P<0.05);HBV mRNA表达水平明显降低。HepG2.2.15细胞中联合应用小干扰RNA和拉米夫定对HBV复制的抑制作用比单独应用siRNA或拉米夫定更有效。     

小干扰RNA对庚型肝炎病毒基因在人Huh-7细胞中表达的抑制作用

RNA干扰(RNAi)是由小干扰RNA(siRNA)引发的生物细胞内同源基因的转录后基因沉默现象, 是近年来兴起的一项研究生物基因调控与功能的崭新技术. 庚型肝炎病毒(HGV)是一单正链RNA病毒, 复制时不与宿主细胞基因组整合, 尤其适合用于RNAi的研究. 构建了含HGV完整结构基因并携带筛选标志潮霉素基因的真核表达载体pVAX.EH, 转染Huh-7细胞后, 筛选获得稳定表达HGV 结构蛋白的Huh-7细胞株(Huh-7-EH). RT-PCR和Western blot检测证实, HGV结构基因能在Huh-7-EH细胞中转录、表达, 并能进行剪切和翻译后修饰. 以体外转录法制备了2对靶向HGV E2基因的siRNA(1-E2 siRNA和2-E2 siRNA), 将其导入Huh-7-EH细胞中, 采用Western blot和克隆形成实验证实, HGV 1-E2 siRNA和2-E2 siRNA均能特异性抑制HGV结 构蛋白的表达, 抑制作用可维持1周以上. 其中2-E2 siRNA的抑制作用更强, 转染后对Huh-7-EH细胞潮霉素抗性克隆形成的抑制率达到了99%. Huh-7-EH细胞转染siRNA后对潮霉素敏感, 说 明HGV E2 siRNA不仅使HGV E2区的mRNA降解, 还可使融合在HGV E2区下游的潮霉素mRNA降解. 综上所述, 本实验建立的稳定表达HGV结构蛋白的Huh-7-EH细胞株, 能作为用于研究HGV复制和RNAi的细胞模型; HGV结构基因区的siRNA可同时抑制HGV结构蛋白及其下游的潮霉素基因的表达, 证明RNAi在真核细胞Huh-7-EH内可能存在放大作用.     

靶向HBs基因的shRNA表达载体的构建及其抑制HepG2.2.15表达HBVsAg的作用

探索用PGenesil-1(Pg)构建的靶向乙型肝炎病毒表面抗原(HBsAg)基因的shRNA表达载体PGenesil-1-HBs(简称Pgs),对体外培养HepG2.2.15细胞中的HBV基因及其抗原表达的抑制作用.设计、合成靶向HBV S区的3对DNA序列,分别插入PGenesil-1中构建3个siRNA表达载体Pgs1、Pgs2、Pgs3,经限制性内切酶,DNA序列测定等技术鉴定确认.筛选并确定最佳细胞接种量及重组质粒转染量后,分别或按不同组合转染HepG-2.2.15细胞,48 h后采用半定量RT-PCR检测HBVsmRNA转录水平,免疫细胞化学技术检测HBsAg表达水平,MEIA分别检测细胞裂解液和培养上清中HBsAg和HBeAg的表达水平.结果表明,HBV真核表达载体Pgs1、Pgs2、Pgs3均能不同程度地抑制HepG2.2.15细胞中的HBsAg、HBeAg合成和HBs-mRNA转录.成功构建的HBV真核表达载体Pgs1、Pgs2、Pgs3,其中PgS3能显著抑制HBsAg表达(P＜0.01).多种表达载体联合对抗原表达的抑制作用效率不同.     

磷脂爬行酶1对干扰素抑制乙型肝炎病毒(HBV)作用的影响

研究磷脂爬行酶1(Phospholipid scramblase 1,PLSCR1)对干扰素抑制HBV作用的影响。设计合成PLSCR1特异性小干扰RNA(siRNA),以完全随机序列的阴性小干扰(NCsiRNA)作为对照,转染HepG2细胞,于转染48h后分别检测PLSCR1mRNA和蛋白水平表达量的变化,筛选出对PLSCR1具有沉默作用的siRNA;将HepG2细胞分为正常对照组和干扰素处理组,将1.3倍乙型肝炎病毒(HBV)全基因真核细胞表达载体HBV1.3质粒分别与PLSCR1siRNA或NCsiRNA共同转染HepG2细胞或干扰素处理的HepG2细胞,转染48h后检测各组细胞中PLSCR1mRNA表达量及培养液上清中HBsAg表达水平。PLSCR1特异性小干扰RNA siRNA911转染后能够显著抑制HepG2细胞中PLSCR1基因在mRNA和蛋白水平的表达;与HepG2细胞对照组比较,干扰素处理组细胞转染HBV1.3质粒、NCsiRNA+HBV1.3质粒后,细胞培养液中HBsAg表达水平均显著降低(P0.05);而PLSCR1siRNA与HBV1.3共转染IFN处理的HepG2细胞组与共转染HepG2细胞组相比较,细胞培养液中HBsAg的表达水平没有显著差异。提示抑制PLSCR1的siRNA可抑制干扰素的抗HBV活性,提示PLSCR1在干扰素抑制HBV复制中具有重要作用。     

pSUPER介导的RNAi抗乙肝病毒S基因的研究

目的 研究RNAi抗乙肝病毒的作用.方法 设计并合成一段针对HBV S基因的干扰序列及一段无关的序列,克隆进pSUPER载体中,分别构建pSUPEK-HBS、pSUPEK-nonsense载体,然后将pSUPER、pSUPEK-HBS、pSUPER-nonsense转染进HepG2.2.15细胞中,用ELISA方法对细胞上清中HBsAg、HBeAg进行检测.尾静脉注射HBV转基因小鼠,取血清检测.结果 pSUPER-HBS所表达的siRNA成功的抑制了HepG 2.2.15上清及HBV转基因鼠血清中的HBsAg、HBeAg,抑制率分别达到70%、51%以及60%、42%.结论 针对HBV S区的siRNA能明显抑制HBV的复制.     

H1启动子siRNA载体的构建及应用

利用双链RNA(dsRNA)调控基因表达已经成为研究基因功能的有力工具。用人H1启动子构建了pBS／H1PS小干扰RNA(siRNA)表达载体,用于在哺乳动物细胞中产生特异性dsRNA转录产物。通过对293细胞中的PSMA7分子进行表达抑制,证明该siRNA载体能够有效产生针对靶基因的RNA干扰(RNAi)效应。     

多种小分子干扰RNA联合抑制乙型肝炎病毒的体外研究

小分子干扰RNA(siRNA)能够在哺乳动物细胞中引起包括病毒基因在内的基因沉默。为了研究多种siRNA联合应用在体外抑制乙型肝炎病毒(HBV)复制中的效果,本研究设计了12种针对不同HBV靶点的siRNA,转染可稳定分泌HBV颗粒的HepG22.2.15细胞,并采用了酶联免疫法检测上清液中HBsAg和HBeAg的含量,实时定量PCR法检测细胞中HBV的DNA含量。结果发现这12种分子均能在不同程度上抑制病毒复制。进一步研究表明它们对HBV的抑制作用在一定程度上存在剂量效应和协同作用,单分子siRNA在80nmol/L处对HBsAg和HBeAg的抑制率分别可达到约80%和60%,而多分子siRNA组合在20nmol/L处对HBsAg就能达到90%的抑制率,但对HBeAg表达的抑制率提高不明显。单分子siRNA在80nmol/L处对HBVDNA复制的抑制率可达到90%以上,而多分子siRNA组合在20nmol/L处对DNA含量就能达到约90%的抑制率。本研究的结果为进一步开发新的联合应用多种siRNA治疗HBV的途径打下了基础。     

利用pSOS系统筛选靶向HBV病毒X基因的siRNA

构建靶向乙肝病毒(HBV)X基因的真核表达载体pSOS-X-siRNA和pSOS-siRNA,转染肝癌细胞系HepG2和HepG2.2.15,筛选和验证高效siRNA。设计4个靶向X基因siRNA,将siRNA和HBx基因插入载体pSOS得重组质粒pSOS-X-siRNA;pSOS-X-siRNA经PacI酶切去除目的片段HBx后得pSOS-siRNA。将质粒pSOS-X-siRNA和pSOS-siRNA分别转HepG2和HepG2.2.15肝癌细胞株。荧光显微镜下观察HepG2细胞绿色荧光(GFP)减弱程度预估干扰效率。ELISA检测HepG2.2.15细胞上清HBsAg、HBeAg表达,Western blotting检测胞内蛋白HBsAg、HBcAg表达,Real time PCR检测胞内HBsmRNA、HBx mRNA的转录。转染4d后,siRNA4使HepG2细胞的GFP信号表达程度最低,为阴性对照的9%,预测其干扰效果最强。siRNA4使HepG2.2.15细胞转染后4d上清的HBsAg蛋白表达为对照的(13.92±1.14)%(P0.05)、HBeAg为(21.69±4.92)%(P0.05),胞内的HBsAg、HBcAg蛋白表达量灰度比值为0.175±0.025、0.0825±0.028,均为各处理组中最低(P0.01),HBs mRNA和HBx mRNA分别降为对照的0.237±0.028(P0.01)、0.110±0.022(P0.01),差异有统计学意义,证实siRNA4为高效干扰位点。利用pSOS成功筛选并验证构建靶向HBV X基因的siRNA靶点。     

鸡胚胎干细胞多能性相关基因cNanog和cPouV干扰载体的构建及筛选

旨在构建靶向鸡胚胎干细胞多能性相关基因cNanog和cPouV的siRNA表达载体,并在体外检测其对cNanog和cPouV表达的抑制作用。分别选择cNanog和cPouV中3个区域合成寡聚核苷酸构建siRNA表达载体,同时构建cNanog和cPouV全基因表达载体来检测基因表达下调的效果。经Western blotting检测显示,所构建的siRNA表达载体可在293T细胞内表达siRNA或shRNA,诱发RNA干扰效应,从而抑制目的基因cNanog和cPouV的表达。不同位点的寡核苷酸序列抑制效率不同,其中pS3-cNanog和pS3-cPouV重组质粒的干扰效果和抑制效率最好。研究结果为后续得到稳定干扰cNanog和cPouV基因的重组载体和进一步研究cNanog和cPouV基因功能奠定了基础。     

人工microRNA抗乙型肝炎病毒效果初探

目的:设计靶向乙型肝炎病毒(HBV)基因保守区的人工microRNA(amiRNA),考察其对HBV基因表达的抑制作用。方法:比对HBV全基因组现有序列,选择保守区设计amiRNA,定向克隆到pcDNA6.2-GW/EmGFP-miR载体,将amiRNA载体与HBV复制载体pHBV1.31共转染HepG2细胞,72 h后收取细胞上清,ELISA检测HBV表面抗原(HBsAg)及e抗原(HBeAg)的含量,荧光定量PCR检测HBV DNA含量。结果:amiRNA可显著抑制细胞上清HBsAg、HBeAg和HBV DNA的水平。结论:amiRNA作为防治HBV感染的潜在有效手段之一值得进一步深入研究。     

Two approaches to construct mammalian expression vector of shRNA to reduce expression and replication of HBV in vitro

Two approaches have been developed to construct plasmids that mediate RNA interference to inhibit the replication and expression of HBV in 2.2.15 cell. The overlapping PCR extension and restriction enzyme-digestion were used to generate DNA fragments encoding designed shRNA based on sequences of ORF C of HBV genome. The pU6 derived vectors were constructed to develop plasmid based shRNA delivery systems termed pU6/HBVi. There were significant reductions in the expression of HBsAg and HBeAg between cells transfected with pU6/HBVi and control groups (as to HBsAg: P < 0. 01; and HBeAg: P < 0. 01). Consistently, the HBV DNA copies were reduced from 2.71 x 10(7) to <5 x 10(2) copies with or without pU6/HBVi. These results suggested that shRNA delivery by recombinant plasmids harboring shRNA encoding DNA fragment of interest generated either by overlapping PCR extension or restriction enzyme-digestion, could inhibit expressions of viral proteins and reduce viral replications. The pU6 derived plasmids might be a useful shRNA delivery system in mammalian cells. In addition, we found siRNA based on stealth 2311 was a potent RNAi target of HBV genome.     

应用RNAi文库筛选HBV复制相关基因

深入研究HBV复制机理,筛选参与HBV复制的基因,可能为开发抗乙肝病毒新药提供新 的靶点．本文拟建立一种筛选HBV复制相关基因的方法: RNAi文库感染HepG2.2.15细胞后,利用免疫磁珠收集HBsAg表达降低的细胞,提取DNA,PCR扩增siRNA编码序列,将PCR产物克隆入T-easy载体,随机挑选克隆测序,发现DDB1基因可能参与HBV复制．本试验建立了一种筛选HBV复制相关基因的方法,为大规模全基因组筛选参与HBV复制的基因奠定了基础．     

Hepatitis B surface antigen levels and sequences of natural hepatitis B virus variants influence the assembly and secretion of hepatitis d virus

Various domains of hepatitis B surface antigen (HBsAg) are essential for the assembly and secretion of hepatitis D virus (HDV). This study investigated the influences of the levels and sequences of HBsAg of naturally occurring HBV variants on the assembly and secretion of HDV. Six hepatitis B virus (HBV)-producing plasmids (three genotype B and three genotype C) and six HBsAg expression plasmids that expressed various HBsAg levels were constructed from the sera of HDV-infected patients. These plasmids were cotransfected with six expression plasmids of HDV of genotype 1, 2, or 4 into the Huh-7 hepatoma cell line. Serum HBsAg and HBV DNA levels were correlated with HDV RNA levels and outcomes of chronic hepatitis D (CHD) patients. The secretion of genotype 1, 2, or 4 HDV generally correlated with HBsAg levels but not with HBV genotypes or HBV DNA levels. Swapping and residue mutagenesis experiments of HBsAg-coding sequences revealed that the residue Pro-62 in the cytosolic domain-I affects the assembly and secretion of genotype 2 and 4 HDV and not those of genotype 1. The pre-S2 N-terminal deletion HBV mutant adversely affects secretion of the three HDV genotypes. In patients, serum HDV RNA levels correlated with HBsAg levels but not with HBV DNA levels. Viremia of HDV or HBV correlated with poor outcomes. In conclusion, the assembly and secretion of HDV were influenced by the amounts and sequences of HBsAg. For an effective treatment of CHD, reduction of HBsAg production in addition to the suppression of HBV and HDV replication might be crucial.     

特异性表达siRNA的新型乙肝核酸药物的研究

旨在研究靶向于HBsAg的肝脏特异性siRNA,实现核酸药物高靶向性、高特异性基因治疗乙肝。通过重组PCR的方法构建靶向于HBsAg的肝脏特异性表达的siRNA的核酸药物。将目标载体转染HepG2 2.2.15细胞,用ELISA的方法测定转染细胞培养液内HBsAg的含量。PCR鉴定和测序确定重组PAAV-MCS载体PApoE1-ApoE2-hAAT-siHBsAg-U1 3’Box构建成功。重组质粒对HepG2 2.2.15细胞分泌的HBsAg所产生的抑制作用自转染后5 d达到高峰,抑制率达到(30±0.28)%(P<0.01),siRNA特异性表达单元能显著降低HepG2 2.2.15细胞HBV DNA的拷贝数。成功构建的肝脏特异性、siRNA高表达的核酸药物可以有效地抑制HBV基因的表达和复制,为乙肝的进一步治疗研究做了关键性工作。     

Stable inhibition of hepatitis B virus expression and replication by expressed siRNA

RNA interference might be an efficient antiviral therapy for some obstinate illness. Here, we studied the effects of hepatitis B virus (HBV)-specific 21-nt small interfering RNAs (siRNA) on HBV gene expression and replication in 2.2.15 cells. Seven vectors expressing specific hairpin siRNA driven by the RNA polymerase II-promoter were constructed and transfected into 2.2.15 cells. In the cell strain that can stably express functional siRNA, the HBV surface antigen (HBsAg) and the HBV e antigen (HBeAg) secretion into culture media was inhibited by 86% and 91%, respectively, as shown by an enzyme-linked immunosorbent assay. Immunofluorescence and Western blot indicated similar results. HBV DNA was markedly restrained by 3.28-fold, as assessed by the fluorescent quantitation PCR. Moreover, the HBV mRNA was significantly reduced by 80% based on semiquantitative RT-PCR. In conclusion, the specific siRNA can knock down the HBV gene expression and replication in vitro, and the silence effects have no relationship with interferon response.     

Synthesis and biological assay of 4-aryl-6-chloro-quinoline derivatives as novel non-nucleoside anti-HBV agents

A series of 4-aryl-6-chloro-quinoline derivatives were synthesized and evaluated for their anti-hepatitis B virus (HBV) activities, namely the abilities to inhibit the secretion of HBV surface antigen (HBsAg), HBV e antigen (HBeAg), and replication of HBV DNA in HepG 2.2.15 cells. Most of the compounds exhibited moderate inhibitory activity against the secretion of HBsAg and HBeAg. Nine compounds (3, 5, 6, 7, 10, 14, 17, 20, 24) showed significant inhibition against HBV DNA replication with IC(50) values in the range of 4.4-9.8 μM, which were comparative to that of positive control tenofovir. Of them, compounds 10, 17, and 20 had low cytotoxicities, resulting in high SI values, >551.2, >143.7, and >284.5, respectively.     

体外针对X基因的小干扰RNA的抗乙型肝炎病毒效应研究

目的：探讨体外针对乙型肝炎病毒（HBV）X基因的小干扰RNA（siRNA）对HBV复制和抗原表达的抵制作用。方法：利用siRNA表达框架法设计针对HBVX基因的siRNA,转染HepG2．2．15细胞,RT-PCR半定量检测转染前后X基因的表达;ELISA法测定各组24、48、72hHBsAg和HBeAg的含量;荧光定量PCR检测48h时HBVDNA的变化。结果：制备了HBVX基因的siRNA,转染后24、48和72h,HBVX基因mRNA的量分别减少了57％、78％和40％;siRNA能抑制HBsAg和HbeAg的分泌,抑制高峰在48h,抑制率分别为42％和43％;荧光定量PCR证实HBVDNA的复制亦受到抑制。结论：针对HBVX基因的siRNA在体外具有抑制HBV复制和抗原表达的作用。     

siRNA Combinations Mediate Greater Suppression of Hepatitis B virus Replication in Mice

Hepatitis B virus (HBV) infection is a major world-wide health problem. The major obstacles for current anti-HBV therapy are the low efficacy and the occurrence of drug resistant HBV mutations. Recent studies have demonstrated that combination therapy can enhance antiviral efficacy and overcome shortcomings of established drugs. In this study, the inhibitory effect mediated by combination of siRNAs targeting different sites of HBV in transgenic mice was analyzed. HBsAg and HBeAg in the sera of the mice were analyzed by enzyme-linked immunoadsorbent assay, HBV DNA by real-time PCR and HBV mRNA by RT-PCR. Our data demonstrated that all the three siRNAs employed showed marked anti-HBV effects. The expression of HBsAg and the replication of HBV DNA could be specifically inhibited in a dose-dependent manner by siRNAs. Furthermore, combination of siRNAs compared with individual use of each siRNA, exerted a stronger inhibition on antigen expression and viral replication, even though the final concentration of siRNA used for therapy was the same. Secreted HBsAg and HBeAg in the serum of mice treated with siRNA combination were reduced by 96.7 and 96.6 %, respectively. Immunohistochemical detection of liver tissue revealed 91 % reduction of HBsAg-positive cells in the combination therapy group. The combination of siRNAs caused a greater inhibition in the levels of viral mRNA and DNA (90 and 87.7 %) relative to the control group. It was noted that the siRNA3 showed stronger inhibition of cccDNA (78.6 %). Our results revealed that combination of siRNAs mediated a stronger inhibition of viral replication and antigen expression in transgenic mice than single siRNAs.