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.     

构建表达Flag-GPI的重组乙型肝炎病毒载体

乙型肝炎病毒(hepatitis B virus,HBV)是小型的嗜肝DNA病毒,能够特异性地感染人肝实质细胞。HBV的易感性可以归于多个方面,包括细胞表面的受体以及细胞内的蛋白或其他因子,目前对HBV易感性的了解还有待深入。本课题利用课题组原有的HBV 5c3c载体和糖基磷脂酰肌醇(glycosylphosphatidylinositol,GPI)的特性,构建了重组HBV载体5c3c-CD59-Flag-GPI和5c3cT-Flag-GPI,转染Huh7细胞后可以将Flag标签锚定在细胞膜上,且可利用Flag抗体通过流式细胞术对其进行分选。在回补HBV包膜蛋白的情况下,5c3cT-Flag-GPI能包装形成完整的重组HBV颗粒。本研究为后续优化重组HBV的包装效率,进而为HBV易感性研究提供工具并奠定基础。     

Interference of hepatitis A virus replication by small interfering RNAs

The rate of acute liver failure due to hepatitis A virus (HAV) has not decreased, and therapy of severe infections is still of major interest. Using a DNA-based HAV replicon cell culture system, we demonstrate that small interfering RNAs (siRNAs) targeted against viral sequences or a reporter gene contained in the viral genome specifically inhibit HAV RNA replication in HuhT7 cells. Combinations of siRNAs were more effective suppressors of HAV RNA replication. Also, siRNAs targeted against HAV 2C and 3D inhibited the expression of the respective protein. Expressions of endogenous beta-actin and double-stranded-specific RNA-activated serin/threonine kinase (PKR) were unaltered, demonstrating that the siRNA inhibitory effect was not connected to interferon inhibition, but rather was specifically targeted against HAV RNA. These results suggest that RNA interference might ultimately be useful in treatment of severe HAV infection with or without chronic liver diseases.     

Milligram scale production of potent recombinant small interfering RNAs in Escherichia coli

Small interfering RNAs (siRNAs) are invaluable research tools for studying gene functions in mammalian cells. siRNAs are mainly produced by chemical synthesis or by enzymatic digestion of double‐stranded RNA (dsRNA) produced in vitro. Recently, bacterial cells, engineered with ectopic plant viral siRNA binding protein p19, have enabled the production of “recombinant” siRNAs (pro‐siRNAs). Here, we describe an optimized methodology for the production of milligram amount of highly potent recombinant pro‐siRNAs from Escherichia coli cells. We first optimized bacterial culture medium and tested new designs of pro‐siRNA production plasmid. Through the exploration of multiple pro‐siRNA related factors, including the expression of p19 protein, (dsRNA) generation method, and the level of RNase III, we developed an optimal pro‐siRNA production plasmid. Together with a high–cell density fed‐batch fermentation method in a bioreactor, we have achieved a yield of ~10 mg purified pro‐siRNA per liter of bacterial culture. The pro‐siRNAs produced by the optimized method can achieve high efficiency of gene silencing when used at low nanomolar concentrations. This new method enables fast, economical, and renewable production of pure and highly potent bioengineered pro‐siRNAs at the milligram level. Our study also provides important insights into the strategies for optimizing the production of RNA products in bacteria, which is an under‐explored field.     

重组8型腺相关病毒介导HBV急性感染树鼩模型建立

目的利用重组8型腺相关病毒介导1.3拷贝HBV基因组（1.3HBV,ayw亚型）在树鼩肝脏表达,建立HBV急性感染树鼩模型。方法通过大腿内侧静脉注射将携带有1.3 HBV的重组8型腺相关病毒（recombi-nant adeno-associated virus 8,rAAV8-1.3HBV）导入树鼩肝脏,通过ELISA检测树鼩血清中HBsAg、HBeAg、HBsAb、HBeAb、HBcAb,荧光定量PCR检测树鼩肝脏和血清中HBV DNA,全自动生化分析仪检测血清中ALT水平,并观察感染后肝脏的病变情况。结果 HBV感染主要血清标志物1～2周内均检测阳性;30 d后肝组织仍可检测到病毒抗原阳性细胞;55 d时肝组织HBV DNA拷贝数仍可达到104～105;树鼩血清中HBV DNA拷贝数持续一个月高于正常组;肝组织炎细胞略增多,血清ALT水平持续升高。结论 rAAV8所携带的HBV基因组高效专一导入树鼩肝细胞并复制表达,成功建立HBV急性感染树鼩模型,为进一步探索rAAV8树鼩慢性感染模型打下一定的基础。     

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．     

Reversal of BCRP-mediated multidrug resistance by stable expression of small interfering RNAs

Breast cancer resistance protein (BCRP) is an ATP-binding cassette multidrug transporter that confers resistance to various anticancer drugs like Mitoxantrone. Overexpression of BCRP confers multidrug resistance (MDR) in cancer cells and is a frequent impediment to successful chemotherapy. For stable reversal of BCRP-depending MDR by RNA interference technology, a hU6-RNA gene promoter-driven expression vector encoding anti-BCRP short hairpin RNA (shRNA) molecules was constructed. By treating endogenously and exogenously expresses high levels of BCRP cells with these constructs, expression of the targeted BCRP-encoding mRNA, and transport protein was inhibited completely. Furthermore, the accumulation of mitoxantrone in the anti-BCRP shRNA-treated cells increased. And the sensitivity to mitoxantrone of anti-BCRP shRNA-treated cells is increased 14.6-fold and 2.44-fold respectively compared to their control (P < 0.05). These data indicated that stable shRNA-mediated RNAi could be tremendously effective in reversing BCRP-mediated MDR and showed promises in overcoming MDR by gene therapeutic applications.     

Gene silencing in chick embryos with a vector-based small interfering RNA system

In this paper, the use of vector-based RNA interference (RNAi) to specifically interfere with gene expression in chick embryos is reported. In ovo electroporation was carried out to transfer a small interfering RNA (siRNA) expression vector into chick embryos. En2 was chosen for the target gene because the family gene, En1, is expressed in a similar pattern. Four sets of 19-mer sequences were designed with the En2 open reading frame region connected to a sequence of short hairpin RNA (shRNA), which exerts siRNA effects after being transcribed, and inserted into pSilencer U6-1.0 vector. En2 and En1 expression were suppressed by the siRNA whose sequence completely matched En2 and En1. Suppression occurred when the siRNA sequence differed by up to two nucleotides from the target sequence. The sequence that differed by four nucleotides from the target gene did not show siRNA effects. One set that completely matched the En2 target did not show siRNA effects, which may be due to location of the siRNA in the target gene. Thus, multiple sets of shRNA must be prepared if we are to consider. This system will greatly contribute to the analysis of function of genes of interest, because the target gene can be silenced in a locally and temporally desired manner.     

Specific inhibition of gene expression and transactivation functions of hepatitis B virus X protein and c-myc by small interfering RNAs

With a view to developing therapeutic strategies against hepatocellular carcinoma (HCC), we have recently shown that co-expression of c-myc and the X protein of hepatitis B virus (HBx) resulted in the development of HCC in the X-myc transgenic mice [Lakhtakia et al., J. Gastroenterol. Hepatol. 18 (2003) 80–91]. We now show in cell culture-based studies that small interfering RNA (siRNA) corresponding to HBx and c-myc can regulate expression and transactivation of the target genes. Expression vectors for small hairpin RNAs (shRNAs) against two different regions each of the HBx and c-myc open reading frames were constructed and their regulatory effects were investigated in COS-1 cells. A dose-dependent specific inhibition in the expression levels of HBx and c-myc was observed with individual shRNAs. Further, the recombinantly expressed shRNAs also blocked the transactivation functions of their cognate genes. Though each shRNA worked at a different efficiency, the inhibitory effects with two different shRNAs were cumulative. These results appear promising for developing a siRNA-based therapy for HCC.     

用rAAV8-1.3HBV制备两种品系小鼠乙型肝炎病毒感染模型的比较研究

我们先前用rAAV8-1.3HBV静脉注射C57BL/6小鼠成功地制备了慢性乙型肝炎病毒(Hepatitis B virus,HBV)感染模型。为了探讨不同品系的小鼠对rAAV8-1.3HBV静脉注射是否具有不同反应,本研究比较了C57BL/6和BALB/c小鼠静脉注射重组病毒后外周血中HBV抗原和抗体水平、病毒载量和肝脏组织HBcAg表达情况,以及不同剂量重组病毒注射与这些指标的关系。将低(4×109 Viral genome,vg)、中(4×1010vg)和高(4×1011vg)三种剂量的rAAV8-1.3HBV通过尾静脉注射至C57BL/6和BALB/c小鼠,分别利用ELISA和荧光定量PCR方法检测血清中的HBV抗原、抗体水平以及HBV DNA,利用免疫组化检测肝脏组织HBcAg的表达。结果发现,对于C57BL/6小鼠,三种不同剂量rAAV8-1.3HBV注射均可造成100%小鼠出现HBV持续感染;血清HBsAg、HBeAg和HBV DNA以及肝组织HBcAg稳定表达超过8个月,其表达水平随重组病毒注射剂量的增加而升高,高剂量注射时可造成超过40%的肝细胞感染HBV,血清中HBV DNA可达105 IU/mL以上;未检测到针对HBV的抗体。对于BALB/c小鼠,三种不同剂量rAAV8-1.3HBV注射也可造成100%小鼠出现HBV持续感染;血清HBeAg和HBV DNA以及肝组织HBcAg稳定表达超过8个月,但是血清HBsAg在重组病毒注射2周之后显著下降甚至消失;在中剂量注射组的BALB/c小鼠血清中检测到低水平的Anti-HBs;血清HBeAg和肝组织HBcAg的表达水平随重组病毒注射剂量的增加而增高,并且各剂量组表达水平均高于C57BL/6小鼠,高剂量注射时可造成超过50%的肝细胞感染HBV。本研究表明,低至4×109 vg剂量的rAAV8-1.3HBV注射即可造成C57BL/6和BALB/c两种品系小鼠出现HBV持续感染,并且HBV复制水平随重组病毒注射剂量增加而增高;BALB/c小鼠对HBV的免疫反应强于C57BL/6小鼠,可以产生针对HBsAg的体液免疫反应而使血清HBsAg转阴,但无法清除携带HBV的肝细胞。     

Knockdown of damage-specific DNA binding protein 1 (DDB1) enhances the HBx-siRNA-mediated inhibition of HBV replication

Recent studies have demonstrated that the effect of inhibition of HBV replication can be achieved by RNA interference (RNAi) at both the cellular and organismal levels. However, HBV replication cannot be completely inhibited by this method. To completely inhibit HBV replication, new strategies for improving the inhibition efficacy of HBV-specific siRNAs are needed. In this study, we demonstrated that knockdown of damage-specific DNA binding protein 1(DDB1), a protein involved in nucleotide-excision repair and HBV replication, significantly enhanced the HBx-siRNA-mediated inhibition of HBV replication. Although knockdown of DDB1 may be toxic to normal liver cells, our results indeed suggest a new direction to enhance the efficacy of HBV-siRNA-mediated inhibition of HBV replication.     

pRNA介导的RNA干扰抑制HBV表达和复制的研究

为了研究由pRNA携带的siRNA(HBVsi18-42)所介导的RNAi过程能有效地抑制HBV的基因表达和病毒复制,我们利用细胞模型和高压注射小鼠模型评价HBVsi18-42对HBV复制和基因表达的抑制作用。通过Western印迹检测细胞内的HBsAg含量,用ELISA检测细胞培养上清和小鼠血清中的HBsAg水平,采用Southern印迹检测HBV的复制中间体,通过免疫组织化学检测肝组织切片中HBcAg的表达情况。试验结果显示,HBVsi18-42能以剂量依赖的方式在293T细胞中抑制HBsAg的表达以及在HepG2细胞中下调病毒HBsAg和HBeAg的表达和病毒复制中间体的水平。在小鼠模型中,注射后的3d内HBVsi18-42使小鼠血清中HBsAg的水平分别下降了98.98%、77.07%和60.73%,免疫组织化学检测显示,在注射后的第3天小鼠肝组织内HBcAg阳性细胞数减少了79.1%。初步结果显示HBVsi18-42无论是在细胞或是在小鼠模型中都能下调HBV的复制和基因的表达。本研究为我们下一步实现由pRNA介导的靶向RNAi及基因治疗提供了理论和技术支持。     

Silencing of UBP43 by shRNA enhances the antiviral activity of interferon against hepatitis B virus

Previous studies have shown that expression of the interferon-sensitive gene (ISG)I5 protease UBP43 is increased in the liver biopsy specimens of patients who do not respond to interferon (IFN)-α therapy. We hypothesized that UBP43 might hinder the ability of IFN to inhibit HBV replication. In this study, we investigated whether vector-based siRNA promoted by Hi (psiUBP43) could enhance IFN inhibiting HBV replication in cell culture. UBP43 was specifically silenced using shRNA. In HepG2.2.15 cells, the HBeAg and HBV DNA levels were significantly reduced by IFN after transfection of shRNA, imphicated that vector-based siRNA promoted by HI (psiUBP43) could enhance IFN inhibiting HBV replication in cell culture. These data suggest that UBP43 modulates the anti-HBV type I IFN response, and is a possible therapeutic target for the treatment of HBV infection.     

HBV─C基因探针的制备及应用

应用ＰＣＲ技术扩增出ＨＢＶＤＮＡＣ基因片段并与ｐＡＴ１５３质粒重组,转化到Ｅ．ｃｏｌｉＲＲＩ中,经体内扩增,提纯,用光生物素标记,制备了Ｃ基因的重组质粒探针。该探针检测灵敏度在Ｓｏｕｔｈｅｒｎ印迹中达１ｐｇ,在点印迹中为５ｐｇ。用此探针以Ｓｏｕｔｈｅｒｎ印迹方式配合ＰＣＲ技术检测乙肝病人血清中的ＨＢＶＤＮＡ,在５３例ＰＣＲ产物电泳检测阴性的样品中,Ｓｏｕｔｈｅｒｎ杂交又检出１８例阳性。     

乙型肝炎病毒外膜大蛋白和HBVDNA血清学诊断价值

目的探讨乙型肝炎病毒外膜大蛋白和HBV-DNA在乙肝患者中的血清学诊断价值。方法收集乙肝两对半(HBV-M)中HBsAg阳性血清标本260例作为乙肝研究组,乙肝两对半(HBV-M)阴性血清标本100例作为正常对照组;在不同乙肝模式中采用酶联免疫吸附试验(ELISA)检测血清HBV-LP和Pre-S1,荧光定量PCR检测HBV DNA;比较HBeAg血清中HBV-LP与HBV-DNA和不同HBV-DNA拷贝数的条件下HBV-LP与HBV-DNA剂量关系。结果HBsAg阳性血清中HBV-LP、HBV-DNA和Pre-S1阳性率分别为68.46%、63.08%和24.23%;HBeAg阳性标本中HBV-LP、HBV-DNA和Pre-S1阳性率分别为94.87%、94.87%和79.49%;HBeAg阴性标本中HBV-LP、HBV-DNA和Pre-S1阳性率分别为62.64%、49.45%和0.55%,HBV-LP和HBV-DNA二者检出一致率为67.03%[(50+72)/182];HBV-LP吸光度(A值)与HBV DNA呈正相关。结论HBV-LP与HBV-DNA在HBeAg阳性血清中代表病毒复制具有较高检出一致率;HBV-LP与HBV-DNA在HBeAg阴性血清中具有较大的差异性,HBV-DNA阴性血清中检测HBV-LP反应乙肝病毒复制对乙肝抗病毒治疗更有重要意义;HBV DNA拷贝数与HBV-LP含量呈正相关系。     

黑龙江省乙型肝炎血清流行病学调查分析

为了掌握黑龙江省乙型肝炎(乙肝)病毒(HBV)流行现状和人群免疫水平,评价我省儿童乙肝疫苗预防接种效果,为制订乙肝预防控制策略提供依据。采用横断面调查方法,选择全省7个国家级疾病监测点,在每个监测点随机抽取2个乡级单位,1～59岁作为目标人群共调查3337名人群。黑龙江省1～59岁人群乙肝病毒表面抗原(HBsAg)阳性率、乙肝病毒表面抗体(抗-HBs)阳性率和乙肝病毒核心抗体(抗-HBc)阳性率经标化后为5.65%、55.45%、30.50%,1～3岁人群乙肝表面抗原阳性率明显低于15～59岁人群。1～3岁、4～10岁和11～14岁人群乙肝疫苗全程接种率为99.43%、89.40%和64.81%;首针及时接种率分别为86.64%、75.57%和49.87。城市和农村HbsAg阳性率分别为3.26%和5.04%。医院出生儿童乙肝疫苗首针及时接种率高于在家出生儿童。结果显示接种乙肝疫苗可明显提高抗-HBs阳性率,提高人群对HBV的免疫保护能力,降低HBsAg携带率。     

重组CHO细胞C_(28)株S基因序列的测定及分析

目的测定重组CHO细胞C28株S基因序列,研究其遗传稳定性,并与已全基因序列测定的乙型肝炎病毒的S基因序列进行比较分析,预测和揭示现有疫苗株对当前疾病流行株的防病效果。方法从C28株中选取第22代、24代2、5代2、7代、28代2、9代3、0代、31代3、2代3、3代和34代细胞,根据GenBank中C基因型adr亚型乙型肝炎病毒的全基因序列设计引物。采用酚-氯仿法抽提CHO细胞基因组DNA,用PCR法扩增各代次细胞的S基因,回收700 bp左右的目的片段,克隆至pMD18-T载体上进行序列测定。利用生物学软件MEGA4.1和BioEdit进行S基因序列同源性分析,绘制系统进化树,分析与其他HBV病毒株S基因的同源性。应用实验动物测定C28株生产的重组乙型肝炎疫苗的效价。结果 C28株十一个代次之间S基因序列核苷酸和氨基酸同源性均为100%;C28株十一个代次S基因与其他病毒株S基因比较,与C基因型乙型肝炎病毒同源性最高,与其他基因型乙型肝炎病毒的核苷酸同源性达91.4%～95.1%,氨基酸同源性达84.5%～93.3%。免疫NIH小鼠结果显示5批重组乙型肝炎疫苗的效价均符合标准。结论 C28株S基因在传代及保存过程中具有较高的稳定性,对当前疾病流行株有较好的防病效果。     

抗乙肝病毒shRNA表达载体转染条件的优化

目的优化抗乙肝病毒(HBV)短发夹样RN(A short hairpin RNA,shRNA)表达载体转染条件,从而克服过量转染所致细胞大批死亡的弊端,以便更客观地反映RNA干扰抗乙肝病毒的效率、方法,通过脂质体介导,将HBV真核表达载体pHBV1.3与我们以前研究确定为能有效抗乙肝病毒的shRNA表达载体pTZU6-C共同转染肝癌细胞HepG2,将共转染的两种质粒及所需的脂质体设立成不同浓度和比例,以pHBV1.3与不表达shRNA的空载体pTZU6的共转染作为未干扰阴性对照,转染36h后收集细胞,通过Southern杂交来观察乙肝病毒DNA明显复制和显著受抑时,所需pHBV1.3与pTZU6-C的最适剂量和比例,以及相应脂质体的用量;同时,通过Western杂交来观察HBV蛋白表达的变化。结果通过southern杂交,发现当将pHBV1.(3μg):pTZU6-C(μg)固定为6:1,脂质体(μl):质粒(μg)为1:1时,对于100ml培养瓶中90%以上融合的细胞,用3.5μl的脂质体共转染0.5μg pHBV1.3和3μg pTZU6-C,即可检测出HBV DNA的表达,此时,存活细胞总数不受任何影响;随着pHBV1.3量的增多,HBV DNA的表达亦增多;当pHBV1.3增至4μg时,虽然表达量增多,但存活的细胞总数却开始明显减少,存活细胞约为70%～80%;当用8μg时,存活的细胞不足40%～50%,检测水平反而下降。当pHBV1.(3μg):pTZU6-C(μg)为1:1时,即可观察到乙肝病毒DNA表达的明显抑制作用,其抑制率为71%;当两者的比例为1:2时,其抑制率为70%;比例为1:6时,抑制率为84%。Western杂交的结果亦证实,共转染0.5μgpHBV1.3和3μg pTZU6-C,即可检测出HBV蛋白的表达;但转染36h后,尚未能观察到HBV表面抗原(HBsAg)表达明显受抑的情况。结论抗乙肝病毒shRNA表达载体的转染条件需要优化,对于100ml培养瓶中90%以上融合的细胞,用6μl的脂质体共转染2μg pHBV1.3和4μg pTZU6-C,即可观察到明显的HBV表达和显著的RNA干扰抑制效果,本研究结果为下一步针对乙肝病毒不同靶区shRNA表达载体的转染奠定了坚实的基础。