Antiviral Effect of Interferon-Induced Guanylate Binding Protein-1 against Coxsackie Virus and Hepatitis B Virus B3 in Vitro

Guanylate binding protein-1(GBP-1) is an interferon-induced protein. To observe its antiviral effect against Hepatitis B virus (HBV) and Coxsackie virus B3 (CVB3), we constructed an eukaryotic expression vector of human GBP-1(hGBP-1). Full-length encoding sequence of hGBP-1 was amplified by long chain RT-PCR and inserted into a pCR2.1 vector, then subcloned into a pCDNA3.1(-) vector. Recombinant hGBP-1 plasmids and pHBV1.3 carrying 1.3-fold genome of HBV were contransfected into HepG2 cells, and inhibition effect of hGBP-1 against HBV replication was observed. Hela cells transfected with recombinant hGBP-1 plasmids were challenged with CVB3, and viral yield in cultures were detected. The results indicated that recombinant eukaryotic expression plasmid of hGBP-1 was constructed successfully and the hGBP-1 gene carried in this plasmid could be efficiently expressed in HepG2 cells and Hela cells. hGBP-1 inhibit CVB3 but not HBV replication in vitro. These results demonstrate that hGBP-1 mediates an antiviral effect against CVB3 but not HBV and perhaps plays an important role in the interferon-mediated antiviral response against CVB3.     

Antiviral effect of interferon-induced guanylate binding protein-1 against Coxsackie virus and Hepatitis B virus B3 <Emphasis Type="Italic">in Vitro</Emphasis>

Guanylate binding protein-1(GBP-1) is an interferon-induced protein. To observe its antiviral effect against Hepatitis B virus (HBV) and Coxsackie virus B3 (CVB3), we constructed an eukaryotic expression vector of human GBP-1(hGBP-1). Full-length encoding sequence of hGBP-1 was amplified by long chain RT-PCR and inserted into a pCR2.1 vector, then subcloned into a pCDNA3.1(−) vector. Recombinant hGBP-1 plasmids and pHBV1.3 carrying 1.3-fold genome of HBV were contransfected into HepG2 cells, and inhibition effect of hGBP-1 against HBV replication was observed. Hela cells transfected with recombinant hGBP-1 plasmids were challenged with CVB3, and viral yield in cultures were detected. The results indicated that recombinant eukaryotic expression plasmid of hGBP-1 was constructed successfully and the hGBP-1 gene carried in this plasmid could be efficiently expressed in HepG2 cells and Hela cells. hGBP-1 inhibit CVB3 but not HBV replication in vitro. These results demonstrate that hGBP-1 mediates an antiviral effect against CVB3 but not HBV and perhaps plays an important role in the interferon-mediated antiviral response against CVB3. Foundation item: National Natural Science Foundation (No.30271170, No.30170889).     

白细胞介素-21与乙型肝炎病毒前S2S抗原融合蛋白在293T细胞中的表达

目的:构建白细胞介素-21(interleukin-21,IL-21)和乙型肝炎病毒前S2S抗原(S2S)的融合表达质粒,并研究其在293T细胞中的表达。方法:采用PCR方法扩增IL-21和HBV前S2S基因片段,分别克隆入pcDNA3真核表达质粒,用分子克隆方法构建融合表达质粒,并以脂质体2000转染293T细胞,分别应用ELISA法和Western Blot法检测细胞上清及细胞中IL-21和HBsAg的表达水平。结果:经酶切鉴定及DNA序列证实重组质粒内插入片段序列正确,三种重组质粒分别命名为pcDNA-IL-21、pcDNA-S2S和pcDNA-IL-21-S2S,并且重组质粒能在293T细胞内表达并分泌相关蛋白。结论:成功构建IL-21和乙型肝炎病毒前S2S抗原的融合表达质粒,重组质粒能在真核细胞内表达。     

乙型肝炎病毒X基因真核表达载体的构建及表达

目的:构建含有天然完整的乙型肝炎病毒(HBV)X基因序列的真核表达载体,观察其在肝癌细胞株中的表达。方法:设计并合成HBV X基因的引物,用PCR方法从含完整HBV全基因的HepG2细胞中扩增X基因序列,并将其连接到真核表达载体pVAX-1上,酶切、PCR鉴定;用Triton X-114去除质粒内毒素后,采用电穿孔法将重组质粒pVAX-HBV X和空质粒pVAX-1分别转染SMMC-7721细胞,RT-PCR法检测HBV X基因mRNA的表达,Western印迹鉴定HBV X蛋白(HBx)的表达。结果:酶切和PCR鉴定证实pVAX-HBV X载体中包含完整的HBVX基因片段,该重组质粒转染的SMMC-7721细胞中HBV X基因mRNA及HBx蛋白的表达稳定。结论:构建了HBV X基因的真核表达载体,为X基因及其编码蛋白的生物学功能的研究提供了可靠的基因材料。     

从干扰素诱导蛋白MxA筛选抗乙肝病毒活性肽

黏病毒抗性蛋白A（myxovirus resistance protein A,MxA）是由干扰素诱导的具有重要抗乙肝病毒（hepatitis B virus,HBV）功能的蛋白质,我们前期工作发现,MxA主要依赖其中心互作结构域（central interactive domain,CID）与病毒直接相互作用发挥功能,但其具体的抗病毒功能区以及功能区是否具有独立的抗病毒活性仍不清楚。本研究拟鉴定MxA蛋白上的抗乙肝病毒活性肽。首先从全长MxA构建缺失突变体ΔCID和截短体CID,以HepG2-2-15细胞为病毒模型,分别转染空载质粒、MxA、ΔCID和CID,免疫荧光法检测转染效率,Western印迹法检测质粒表达,酶联免疫法测定细胞培养液中HBsAg、HBeAg的量及荧光定量PCR法测定乙肝病毒 DNA的量,评估CID段的抗乙肝病毒活性。根据CID段的晶体结构,缩短肽段长度,构建α1、α2、α3等9段肽段质粒,鉴定各段的抗乙肝病毒活性和细胞毒性（MTT法）。运用计算生物学手段--分子对接法预测MxA蛋白与病毒相互作用的模式和位点。结果显示,ΔCID、CID和9段肽段质粒的序列及表达正确,9段肽段的表达量未见显著性差异,无显著的细胞毒性。CID组和黏病毒抗性蛋白A组较对照组乙肝病毒的复制水平显著降低,CID组细胞上清中HBsAg、HBeAg及乙肝病毒 DNA的量分别减少了55.57%±8.48%、68.37%±6.24%、66.67%±6.40%,P＜0.01;MxA组的3个指标分别减少了61.63%±3.11%、70.77%±7.25%、73.73%±6.18%,P＜0.01;ΔCID组较对照组无明显变化。9段肽段中α1组较对照组HBsAg、HBeAg及乙肝病毒 DNA的量有显著下降,分别减少了48.33%±1.70%、70.67%±3.30%、68.95%±2.55%,P＜0.001,表明α1对乙肝病毒具有强抑制活性。分子对接的结果显示,384 ～ 408位氨基酸是MxA蛋白与病毒互作的关键位点,该区域落在α1肽段上,验证了α1是MxA蛋白抗乙肝病毒及与乙肝病毒相互作用中的关键区段。本研究筛选并鉴定出人干扰素诱导蛋白MxA上最有效的抗乙肝病毒活性肽α1,研究结果为抗乙肝病毒多肽类新药的研发奠定了基础。     

受miRNA-205调控的重组柯萨奇病毒B3的构建及其复制

本研究在柯萨奇病毒B3(coxsackievirus B3,CVB3)基因组P1编码区与P2编码区之间插入一段has-miRNA-205-3p和has-miRNA-205-5p(简称miR-205)的靶序列,得到重组病毒v205T,并比较分析了它在人宫颈癌细胞系HeLa细胞(miR-205低水平表达)和非小细胞肺癌细胞系A549细胞(miR-205高水平表达)中的复制情况。结果表明,插入的miR-205靶序列不影响病毒在HeLa细胞中的复制水平,但抑制了病毒在A549细胞中的复制,病毒滴度为对照的1%以下。为探讨v205T在2株细胞中复制差异的原因,进一步加入miR-205的类似物和抑制物。miR-205类似物可抑制v205T在HeLa细胞中复制和杀伤细胞的水平,而miR-205抑制物可提高v205T在A549细胞中的复制和杀伤细胞的水平。结果表明,v205T的复制确实受miR-205的调控。本研究为开发基于CVB3载体的溶瘤病毒和针对CVB3的减毒活疫苗提供了依据。     

共表达siRNA和hIL-12的新型乙肝多表位DNA疫苗的研究

目的 构建含有靶向乙肝表面抗原(HBsAg)基因的siRNA、乙肝复合多表位抗原基因和hIL-12共质粒表达的新型DNA疫苗,并在HepG2细胞中检测siRNA的效果以及各基因的表达。方法 设计并合成复合多表位HBV抗原基因,将其与增强型绿色荧光蛋白（EGFP）基因融合克隆进真核表达载体pVAX1的多克隆位点中,同时将带CMV启动子的完整hIL-12表达单元克隆进载体的BspH I位点之间,再设计并合成乙肝siRNA表达单元,将其克隆进载体的Mlu I位点之间,得到真核三元共表达重组质粒pVAX1-siHB-HB-EGFP-hIL12。以该重组质粒瞬时转染人肝癌细胞系HepG2,通过EGFP的荧光标记观察多表位抗原的表达,以ELISA测定培养细胞上清中hIL-12的表达,以rtPCR检测siRNA对HBsAg基因的沉默效果。结果 经酶切鉴定和测序证实共表达siRNA、hIL-12的HBV 多表位DNA疫苗构建成功。转染细胞中检测到绿色荧光,证实抗原表达;转染后48 h hIL-12的检出量为1 289 pg/mL细胞上清,72 h检出量为1 712 pg/mL细胞上清;转染后HBsAg表达量明显降低,证实siRNA效果良好。结论 成功构建乙肝复合多表位抗原基因与siRNA、hIL-12共质粒表达的DNA疫苗,并能在真核细胞中有效表达抗原与hIL-12基因,而且siRNA对HBsAg显示出明显的沉默效果。我们的工作为进一步研究该复合型DNA疫苗抗HBV的治疗效果打下基础。     

柯萨奇B3病毒基因在重组痘苗病毒中的表达

将编码柯萨奇Ｂ３病毒（ＣＶＢ３）衣壳蛋白ＶＰ１和ＶＰ２的基因,分别克隆到具有７．５ｋ启动子的痘苗病毒表达载体ｐＧＪＰ５上;将ＣＶＢ３衣壳蛋白全基因克隆到具有Ｔ７启动子的痘苗表达载体ｐＴＭ１上,并筛先到相应的重组痘苗病毒ＶＶＰ１、ＶＶＰ２和ＶＶＰ／４／２／３／１。ＶＶＰ１和ＶＶＰ２稳定表达产物为ＣＶＢ３衣壳蛋白ＶＰ１和ＶＰ２,而ＶＶＰ４／２／３／１为一无分泌性的多聚蛋白,且这三种表达产物均属无分泌性     

小环载体介导的siRNA 稳定抑制乙肝病毒的复制和表达

【目的】尝试构建表达小干扰RNA(small interfering RNA,siRNA)的小环载体,并初步鉴定其对乙肝病毒(hepatitis B virus,HBV)复制及其基因表达的抑制作用。【方法】设计并合成靶向HBV S区的siRNA,将其克隆到小环载体pMC.BESPX-MCS2上,测序正确后将重组体pMC-H1-siHBS-U6转化入感受态E.coliZYCY10P3S2T,然后在培养基中加入L-阿拉伯糖,诱导其降解细菌骨架,获取只含有目的基因表达盒的小环RNA干扰载体pmc-H1-siHBS-U6。将小环RNA干扰载体与HBV真核表达质粒pHBV1.3共转染Huh-7细胞,分别在转染后1-7天,ELISA法检测Huh-7细胞上清中的HBsAg、HBeAg,并且通过Real-time RT-PCR法分析干扰RNA对HBV DNA及mRNA的抑制效果。【结果】成功构建了靶向HBV S基因的siRNA小环表达载体pmc-H1-siHBS-U6。该载体能显著抑制Huh-7细胞HBsAg和HBeAg分泌,并且其抑制效果能够维持2-3周时间。Real-time PCR证实HBV的DNA与mRNA水平分别降低了71%和80%,而对照siRNA及空载体则无此作用。【结论】成功构建了靶向HBV的小环RNA干扰载体,并且其能稳定、高效、特异地抑制HBV基因的表达与复制,该研究不仅对探索HBV的基因治疗提供了重要线索,而且为RNA干扰的应用提供了新的运载体系。     

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。     

Activation of pattern recognition receptor-mediated innate immunity inhibits the replication of hepatitis B virus in human hepatocyte-derived cells

Recognition of virus infections by pattern recognition receptors (PRRs), such as Toll-like receptors (TLRs), retinoic acid-inducible gene I (RIG-I), and melanoma differentiation associated gene 5 (MDA5), activates signaling pathways, leading to the induction of inflammatory cytokines that limit viral replication. To determine the effects of PRR-mediated innate immune response on hepatitis B virus (HBV) replication, a 1.3mer HBV genome was cotransfected into HepG2 or Huh7 cells with plasmid expressing TLR adaptors, myeloid differentiation primary response gene 88 (MyD88), and TIR-domain-containing adaptor-inducing beta interferon (TRIF), or RIG-I/MDA5 adaptor, interferon promoter stimulator 1 (IPS-1). The results showed that expressing each of the three adaptors dramatically reduced the levels of HBV mRNA and DNA in both HepG2 and Huh7 cells. However, HBV replication was not significantly affected by treatment of HBV genome-transfected cells with culture media harvested from cells transfected with each of the three adaptors, indicating that the adaptor-induced antiviral response was predominantly mediated by intracellular factors rather than by secreted cytokines. Analyses of involved signaling pathways revealed that activation of NF-κB is required for all three adaptors to elicit antiviral response in both HepG2 and Huh7 cells. However, activation of interferon regulatory factor 3 is only essential for induction of antiviral response by IPS-1 in Huh7 cells, but not in HepG2 cells. Furthermore, our results suggest that besides NF-κB, additional signaling pathway(s) are required for TRIF to induce a maximum antiviral response against HBV. Knowing the molecular mechanisms by which PRR-mediated innate defense responses control HBV infections could potentially lead to the development of novel therapeutics that evoke the host cellular innate antiviral response to control HBV infections.     

RNA干扰抑制人乙型肝炎病毒复制的研究

采用表达shRNA的载体构建了表达针对病毒HBsAgmRNA保守区的shRNA的质粒psiHBs,利用细胞模型和高压注射小鼠模型评价RNA干扰对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,用ELISA检测细胞培养上清和血清中的HBsAg,采用Southern印迹检测HBV的复制中间体,最后通过免疫组化的方法检测肝组织切片中HBcAg的表达情况。结果显示pHBV1.3和psiHBs共转染HepG2后,与对照组相比病毒HBsAg和HBeAg的表达和病毒复制中间体的水平下降了90%以上,并且shRNA的作用效率存在序列特异性和剂量依赖性。在高压注射小鼠模型中,psiHBs表达的shRNA使小鼠血清中HBsAg的水平下降了80%以上,免疫组化检测显示,小鼠肝组织内HBcAg阳性细胞数减少了75.1%,而且shRNA的抑制作用至少能持续4d。研究显示载体表达的shRNA无论是在细胞或是在小鼠模型中都能对HBV的复制和基因的表达发挥序列特异性的抑制作用。本研究为我们下一步实现由RNAi介导的基因治疗提供了理论和技术支持。     

过氧化物酶蛋白1 真核表达载体构建及在Hela 细胞的表达与定位

目的:构建过氧化物酶蛋白1(PRDX 1)的真核表达载体,观察其在Hela细胞内表达及定位。方法:提取BALB/c小鼠肝脏组织总RNA,通过RT-PCR方法扩增得到小鼠PRDX 1编码序列,酶切后克隆至pcDNA3-myc载体。重组质粒通过PCR、酶切、测序证明构建正确后经脂质体转染Hela细胞,然后利用Western blot和荧光显微镜技术观察该融合蛋白在细胞内表达及定位。结果:经鉴定证明重组质粒构建正确;Western blot实验显示,该质粒能够在Hela细胞中特异表达;免疫荧光试验显示,蛋白产物分布在胞浆和胞核,证明该蛋白在细胞内高表达。结论:成功构建带有myc标签的PRDX 1真核表达载体,该质粒能够在哺乳细胞中特异表达并且外源性PRDX 1蛋白分布在Hela细胞胞浆胞核内,为深入研究PRDX 1蛋白在细胞内相关生物学研究奠定了基础。     

乙肝病毒感染对细胞基本自噬的影响

【目的】慢性乙肝病毒(Hepatitis B virus,HBV)感染在肝硬化和肝癌的发生过程中起着重要的作用,通过研究HBV感染对细胞基本自噬的影响,为HBV感染诱发肝癌以及HBV的免疫逃逸机理研究提供新的思路。【方法】本研究利用乙肝病毒表达质粒瞬时或稳定转染不同肝细胞,通过计数绿色荧光蛋白(greenfluorescent protein,GFP)聚集数目检测自噬小体形成,western blot检测LC3(microtubule-associated proteinlight chain 3,微管相关蛋白质轻链3)脂酰化和p62的降解,通过构建HBV B型和C型X蛋白(HBx)的表达质粒并瞬时转染肝癌细胞和正常肝细胞,对不同基因型X蛋白对细胞自噬的影响进行了分析。【结果】乙肝病毒感染后促进了LC3的脂酰化和p62的降解,增加了自噬小体的形成,增强了细胞的基本自噬。进一步研究发现,HBV感染增强的细胞基本自噬水平由HBx所引发,且C型HBx比B型对细胞基本自噬的增加更加显著。【结论】HBV通过HBx增强细胞的基本自噬,且不同基因型HBx对细胞基本自噬的增强程度不同,为进一步阐明HBV感染机理奠定了基础。     

登革3型病毒prM-E基因重组质粒DNA的构建和真核表达

构建登革 3型病毒 prM E基因的真核表达重组质粒 ,并进行体外表达 ,为登革DNA疫苗的研究奠定基础。用RT -PCR法获得 prM -E基因片段 ,然后将其克隆到真核表达载体中。用电穿孔法将重组质粒DNA转入BHK细胞 ,通过免疫荧光法检测外源基因在真核细胞中的表达。结果 ,通过酶切和序列测定证实了构建的重组质粒DNA含序列正确的 prM- E基因。用免疫荧光法检测到转染了重组质粒DNA的BHK细胞的胞浆中有登革 3型病毒特异蛋白的表达。说明含有登革 3型病毒prM -E基因的真核表达重组质粒可以在BHK细胞中表达 ,该结果为观察该重组质粒的免疫原性奠定了基础。     

ATP1B3 Restricts Hepatitis B Virus Replication Via Reducing the Expression of the Envelope Proteins

Our recent study reported that ATP1B3 inhibits hepatitis B virus(HBV) replication via inducing NF-κB activation.However, ATP1B3 mutants which were defective in NF-κB activation still maintained the moderate degree of suppression on HBV replication, suggesting that another uncharacterized mechanism is also responsible for ATP1B3-mediated HBV suppression. Here, we demonstrated that ATP1B3 reduced the expression of HBV envelope proteins LHBs, MHBs and SHBs, but had no effect on intracellular HBV DNA, RNA levels as well as HBV promoter activities. Further investigation showed that proteasome inhibitor MG132 rescued ATP1B3-mediated envelope proteins degradation, demonstrating that proteasome-dependent pathway is involved in ATP1B3-induced degradation of envelope proteins. Co-IP showed that ATP1B3 interacts with LHBs and MHBs and induces LHBs and MHBs polyubiquitination. Immunofluorescence colocalization analysis confirmed LHBs and MHBs colocalized with ATP1B3 together. Our work provides important information for targeting ATP1B3 as a potential therapeutic molecule for HBV infection.