HPV16L1核浆运输的动力学过程

利用增强型绿色荧光蛋白(Enhancegreenflurenscentprotein,EGFP)标记不同的截短型HPV16L1蛋白(Humanpapillomavirustype16L1protein,HPV16L1),分析HPV16L1蛋白核定位信号(Nucleuslocationsignal,NLS)的作用。构建重组pFB-EGFP、pFB-EGFP-HPV16L1、pFB-EGFP-HPV16L1△NLS和pFB-EGFP-NLSHPV16L1p转移载体;在DH10Bac宿主菌内经Tn7转座子介导的同源重组后转染Sf-9细胞,获得重组Ac-EGFP、Ac-EGFP-HPV16L1、Ac-EGFP-HPV16L1△NLS和Ac-EGFP-NLSHPV16L1杆状病毒,感染Sf-9昆虫细胞表达相应截短型HPV16L1融合蛋白;利用荧光显微镜和激光共聚焦显微镜观察不同融合蛋白的荧光特性和核浆转运动力学过程。结果发现Ac-EGFP杆状病毒感染的Sf-9细胞内明亮的绿色荧光均匀分布;重组Ac-EGFP-HPV16L1和Ac-EGFP-NLSHPV16L1杆状病毒感染的Sf-9细胞,明亮的绿色荧光主要位于细胞核内;重组Ac-EGFP-HPV16L1△NLS杆状病毒感染的Sf-9细胞,绿色荧光局限于细胞浆内,细胞核内无绿色荧光。说明HPV16L1蛋白羧基端的23个氨基酸(GKRKATPTTSSTSTTAKRKKRKL)具有完全核定位作用,能引导HPV16L1蛋白和EGFP突破核膜屏障进入Sf-9细胞核内。     

HPV16L1VLP纯化、鉴定及血凝抑制实验方法的建立

摘要通过昆虫细胞-杆状病毒表达系统表达HPV16L1 VLP,纯化鉴定后利用其建立血凝抑制实验,检测HPV16L1单克隆抗体的血凝抑制活性。利用重组杆状病毒感染悬浮培养的昆虫细胞表达HPV16L1蛋白,大量获得VLP;优化扩增蛋白的条件并用SDS-PAGE分析鉴定;经氯化铯密度梯度离心法纯化VLP;利用所得VLP建立血凝抑制试验,鉴定制备的HPV16L1单克隆抗体的血凝抑制活性。优化蛋白表达条件结果显示,当重组杆状病毒感染细胞的MOI=10时目的蛋白表达量最大;按此滴度感染悬浮培养的昆虫细胞,收获、纯化VLP并鉴定其特异性;利用所得VLP建立了血凝抑制实验,鉴定HPV16L1单克隆抗体的血凝抑制效价为1∶16。建立的血凝实验,可用于鉴定和检测HPV16L1相关抗体,为HPV诊断试剂的开发提供实验基础。     

利用昆虫-杆状病毒表达系统表达人乳头瘤病毒16/18/33/58亚型L1蛋白

目的:通过昆虫-杆状病毒表达系统获得人乳头瘤病毒(HPV)16/18/33/58亚型的主要衣壳蛋白L1。方法:克隆了HPV16/18/33/58亚型的L1蛋白基因,并采用密码子优化策略进行改造(记为HPV16/18/33/58亚型mL1),将优化基因片段插入pFastBac Dual载体获得重组载体,转化大肠杆菌DH10Bac感受态细胞后得到重组Bacmid,转染昆虫Sf9细胞,Western印迹和SDS-PAGE检测重组蛋白的表达。结果:获得了表达HPV16/18/33/58亚型mL1蛋白的重组杆状病毒;Western印迹和SDS-PAGE分析表明该重组杆状病毒感染昆虫Sf9细胞后表达mL1蛋白,且mL1蛋白主要分布在细胞中;优化了蛋白表达时间和感染复数,获得目的蛋白mL1的高效表达。结论:多个亚型HPV L1蛋白的克隆表达,为中国优势血清型疫苗的研制奠定了基础。     

HPV 58 L1改造基因的表达及其VLP产物抗血清制备

高危型人乳头瘤病毒（human papillomavirus, HPV）慢性持续性感染是诱发宫颈癌的主要病因．体外表达的HPV主要衣壳蛋白（L1）可自组装成病毒样颗粒（virus-like particle, VLP）,免疫后可诱导产生型别特异性中和抗体,有效保护机体免受同型病毒的感染,因此可望预防病毒感染及感染相关的宫颈癌等病变．HPV 58是诱发我国妇女宫颈癌的主要高危型病毒之一,目前尚无针对HPV 58的疫苗问世．本研究联合采用多种策略对HPV 58 L1野生型基因进行改造,获得HPV 58 L1改造基因,命名为HPV 58mL1,用杆状病毒 昆虫细胞表达系统进行HPV 58 mL1的表达,CsCl密度梯度离心法纯化获得HPV 58 mL1重组蛋白,电镜分析结果显示,重组蛋白形成直径约55 nm的VLP．皮下免疫新西兰兔和豚鼠,ELISA检测显示,免疫动物产生高滴度针对HPV 58 mL1 VLP的抗血清,免疫斑点印迹检测显示,抗血清是针对VLP表面表位的．本研究表达了均一性好的HPV 58 mL1 VLP,并获得两个种属的HPV 58 mL1 VLP抗血清,为进一步研究有效预防HPV 58感染的疫苗打下基础．     

16型人乳头瘤病毒衣壳蛋白在真核细胞中的表达

为了构建HPV16型晚期蛋白重组杆状病毒,并使其在昆虫细胞中获得高效表达.首先构建2株重组杆状病毒转移质粒,分别携带人乳头瘤病毒晚期基因L1及L1和L2,再用线性化的杆状病毒DNA与该重组杆状病毒转移质粒共转染sf9昆虫细胞进行同源重组,获得2株重组杆状病毒.经鉴定该重组病毒中有目的基因存在且可表达所编码的L1或L2晚期蛋白.结果表明HPV16型晚期蛋白在昆虫细胞中获得成功表达,为HPV16型预防性基因工程亚单位疫苗的研制和诊断试剂的研究开发奠定了基础.     

原核表达系统制备HPV58L1 VLP可诱发高滴度且持久的中和抗体

目的:采用大肠杆菌表达系统制备人乳头瘤病毒58型(human papillomavirus type 58,HPV58)病毒样颗粒(virus-like particle,VLP)疫苗。方法:合成法获得HPV58 L1大肠杆菌密码子优化基因,构建HPV58 L1重组原核表达质粒mpET22b/HPV58 L1,检测其在BL21(DE3)中表达水平,饱和硫酸铵沉淀加阳离子交换层析法纯化蛋白后进行动态光散射(dynamic light scatter,DLS)分析。小鼠免疫后,检测免疫血清针对HPV58假病毒的中和抗体水平。结果:HPV58 L1蛋白在BL21(DE3)细胞中大部分以可溶形式表达,纯化获得的HPV58 L1蛋白可组装成水动力学直径约为74 nm的VLP。0.5μg的HPV58 L1 VLP可诱发小鼠产生高滴度的HPV58特异性中和抗体,可维持至少20周。结论:原核表达系统制备的HPV58 L1 VLP可诱发高滴度且持久的中和抗体,可用于成本低的HPV58疫苗的研究。     

分子伴侣促进截短型人乳头瘤病毒58亚型L1蛋白在大肠杆菌中的可溶性表达

目的:采用分子伴侣pTf16共表达的形式促进截短型人乳头瘤病毒(HPV)58亚型L1蛋白在大肠杆菌中的可溶性表达。方法:将重组表达质粒pGEX-6P-HPV58-L1转入含有分子伴侣pTf16的大肠杆菌BL21感受态细胞中,在2.0 mg/mL L-阿拉伯糖诱导表达20 min之后加入1.0 mmol/L的IPTG,18℃诱导表达24 h,使目的蛋白与伴侣蛋白共表达;重组蛋白经GST亲和纯化后去除GST标签免疫昆明鼠,ELISA检测免疫血清效价。结果:分子伴侣pTf16能显著提高目的蛋白的可溶性表达,经纯化及去除GST标签,用SDS-PAGE与Western印迹检测,约在相对分子质量50×103处出现特异性反应条带,该条带与截短型HPV58 L1蛋白预期大小相符,免疫动物后经ELISA检测小鼠血清的抗体效价为1∶6400。结论:获得了截短型HPV58 L1蛋白,动物免疫试验证实该蛋白具有较好的免疫原性,为进一步研制HPV58预防型疫苗奠定了基础。     

重组人乳头瘤病毒6型病毒样颗粒诱导中和抗体

为研究重组病毒样颗粒（virus-like particle,VLP)免疫血清的抗感染作用,用重组杆状病毒在昆虫细胞中表达制备的人乳头瘤病毒6型（human papillomavirus type 6,HPV-6)L1 VLP的HPV－6L1＋L2 VLP免疫BALB／c小鼠,获得抗血清,ELISA法测定抗体滴度,在细胞水平和裸鼠异源组织移植模型中评价了免疫血清的中和病毒抗感染作用。VLP诱导了高滴度（＞1：10000）的血清抗体,抗血清可以特异地阻断人胚上皮细胞对VLP的摄入,并且能抑制从尖锐湿疣活检标本提取的HPV对人上皮细胞的感染。重组HPV－6VLP免疫小鼠诱导的血清抗体具有中和病毒、抑制感染的作用。提示重组VLP可以用于研制HVP预防性疫苗。     

HPV16 L1蛋白在大肠杆菌中的表达、纯化及免疫原性研究

用IPTG诱导目的工程菌pQE31-HPV16L1/M15(pREP4),对表达产物进行SDSPAGE和Western blot分析;用表达的L1蛋白免疫BAL B/C小鼠得到抗血清后,利用真核源性的VLP粗提物验证小鼠抗血清的特异性.利用IMAC金属亲和层析柱纯化L1蛋白.SDSPAGE结果显示表达产物在约57 ku处有蛋白条带;Western blot结果证实此条带可与HPV16 L1蛋白的单克隆抗体反应;纯化后的L1蛋白也同样保留免疫特异性;小鼠抗血清可与HPV16L1 VLP(病毒样颗粒)发生特异性反应,证实重组表达的L1蛋白具有免疫原性.本实验表明HPV16 L1蛋白在工程菌M15(pREP4)中高效表达,为研制HPV16预防性基因工程疫苗和感染的诊断试剂提供了物质基础和技术方法.     

在昆虫细胞中表达能自聚成病毒样颗粒的兔出血症病毒衣壳蛋白

将兔出血症病毒衣壳蛋白VP60基因插入杆状病毒转移载体pBLUEBAC 4,获得重组转移载体pBLUEBAC4-VP60.在脂质体转染试剂介导下,将重组杆状病毒转移载体pBLUEBAC4-VP60 与线性化的野生型杆状病毒基因组DNA共转染对数生长期的Sf9昆虫细胞,经过三轮蚀斑纯化后,获得了克隆化的重组杆状病毒pBLUEBAC4-VP60.以重组杆状病毒感染Sf9细胞后,收获细胞培养上清和细胞裂解液上清,SDS-PAGE电泳分析显示,重组病毒pBLUEBAC4-VP60表达一分子量各为60kD左右的特异性重组蛋白,并且该重组蛋白经Western blot检测,皆可被兔抗RHDV高免血清所识别,表明VP60蛋白基因在重组杆状病毒感染的Sf9昆虫细胞中得到了表达,并且具有与天然VP60相似的抗原性.血凝试验表明,表达的重组蛋白具有血凝特性,可以凝集人"O"型红细胞,血凝价为213.同时,该血凝性可被抗RHDV的高免血清所抑制.经电镜观察,重组病毒表达的衣壳蛋白可以在没有其他任何成分存在的条件下,在昆虫细胞内也能自然聚合成不包裹核酸的、与天然RHDV病毒粒子在物理形态上类似的病毒样颗粒(VLPs).在与兔抗RHDV高免血清37℃作用1h后,该病毒样颗粒于电镜下观察可出现凝集成团的现象,表明该VLPs与天然RHDV在抗原性上也极为相似.     

Expression of human papillomavirus type 11 L1 protein in insect cells: in vivo and in vitro assembly of viruslike particles.

The L1 coat protein of human papillomavirus type 11 (HPV-11) was expressed in Sf-9 insect cells with the recombinant baculovirus vector Ac11L1. Viruslike particles (VLPs) were identified by electron microscopy in the nucleus and cytoplasm of Sf-9 cells infected with Ac11L1. The L1 protein was purified from Ac11L1-infected insect cells. The purified protein spontaneously assembled in vitro into various aggregates, including particles appearing similar to empty virions. Reaction of VLP-containing insect cell extracts with antisera directed against either denatured or nondenatured capsid epitopes in Western blot (immunoblot) and immuno-dot blot assays suggested that conformational epitopes present in native HPV-11 infectious virions were also present on the baculovirus-produced HPV-11 VLPs. Immuno-dot blot assays using human sera obtained from individuals with biopsy-proven condyloma acuminatum correlated closely with results previously obtained in HPV-11 whole virus particle-based enzyme-linked immunosorbent assays. These morphologic and immunologic similarities to native HPV-11 virions suggest that recombinant VLPs produced in the baculovirus system may be useful in seroepidemiology and pathogenesis studies of genital HPV infection and that they may also be potential candidates for vaccine development.     

人乳头瘤病毒18型L1蛋白在大肠埃希菌中的可溶性表达及病毒样颗粒的形成

目的利用大肠埃希菌系统可溶性表达人乳头瘤病毒18型(HPV18)L1蛋白,纯化和重组装获得HPV18病毒样颗粒(VLPs),为进一步研制HPV18基因工程疫苗奠定基础。方法首先按大肠埃希菌密码子偏好进行HPV18L1全基因合成,经PCR扩增出截短的HPV18L1基因,构建重组表达载体PET30a-L1,通过优化表达在大肠埃希菌BL21中可溶性表达L1蛋白,其次采用硫酸铵沉淀、离子交换层析、疏水层析后,获得高纯度的的L1蛋白,再通过解聚和重聚获得VLPs。结果全基因优化并截短的HPV18L1蛋白在大肠埃希菌系统中以可溶形式表达,纯化后的蛋白纯度达到90%以上,电镜下观察到直径为60 nm的VLPs颗粒。结论利用大肠埃希菌系统可溶性表达非融合HPV18L1蛋白,并获得均一的VLPs颗粒,为疫苗的开发奠定基础。     

Highly efficient and economical baculovirus expression system for preparing human papillomavirus type16 virus-like particle

To improve the existing human papillomavirus type16 (HPV16) virus-like particle (VLP) preparation, a highly efficient, economical and timesaving system was established. Sf-9 cells were infected with recombinant baculovirus containing the target gene encoding HPV16L1 protein with 6xHis tag, and harvested 72 h postinfection (p.i.) at 27 degrees. The ProBond(TM) purification system was used for protein purification. The molecular weight of expressed HPV16L1 protein was 58 kD as revealed by SDS-PAGE, and confirmed by Western blot. The purity of denatured and native HPVL1 proteins that were prepared were 91.9% and 71.5%, respectively, which corresponded to a yield of 2.26 mg denatured protein and 1.84 mg native protein per 2x10(7) cells. The proteins were further analyzed by mouse erythrocyte hemagglutination assay and hemagglutination inhibition assay, and there effects on VLP formation were also visualized by transmission electron microscopy. Results showed that the native protein purified was biologically active as natural HPVL1 protein, inducing the murine erythrocyte agglutination and VLP formation. In addition, the purified recombinant HPV16L1 native protein with 6xHis tag could self-assemble into virions in vitro. Hopefully, the present expression and purification system is promising to be convenient, timesaving and economical for preparation of HPV16 VLP vaccine.     

Gene transfer using recombinant rabbit hemorrhagic disease virus capsids with genetically modified DNA encapsidation capacity by addition of packaging sequences from the L1 or L2 protein of human papillomavirus type 16

The aim of this study was to produce gene transfer vectors consisting of plasmid DNA packaged into virus-like particles (VLPs) with different cell tropisms. For this purpose, we have fused the N-terminally truncated VP60 capsid protein of the rabbit hemorrhagic disease virus (RHDV) with sequences which are expected to be sufficient to confer DNA packaging and gene transfer properties to the chimeric VLPs. Each of the two putative DNA-binding sequences of major L1 and minor L2 capsid proteins of human papillomavirus type 16 (HPV-16) were fused at the N terminus of the truncated VP60 protein. The two recombinant chimeric proteins expressed in insect cells self-assembled into VLPs similar in size and appearance to authentic RHDV virions. The chimeric proteins had acquired the ability to bind DNA. The two chimeric VLPs were therefore able to package plasmid DNA. However, only the chimeric VLPs containing the DNA packaging signal of the L1 protein were able efficiently to transfer genes into Cos-7 cells at a rate similar to that observed with papillomavirus L1 VLPs. It was possible to transfect only a very limited number of RK13 rabbit cells with the chimeric RHDV capsids containing the L2-binding sequence. The chimeric RHDV capsids containing the L1-binding sequence transfer genes into rabbit and hare cells at a higher rate than do HPV-16 L1 VLPs. However, no gene transfer was observed in human cell lines. The findings of this study demonstrate that the insertion of a DNA packaging sequence into a VLP which is not able to encapsidate DNA transforms this capsid into an artificial virus that could be used as a gene transfer vector. This possibility opens the way to designing new vectors with different cell tropisms by inserting such DNA packaging sequences into the major capsid proteins of other viruses.     

In vitro generation and type-specific neutralization of a human papillomavirus type 16 virion pseudotype.

We report a system for generating infectious papillomaviruses in vitro that facilitates the analysis of papillomavirus assembly, infectivity, and serologic relatedness. Cultured hamster BPHE-1 cells harboring autonomously replicating bovine papillomavirus type 1 (BPV1) genomes were infected with recombinant Semliki Forest viruses that express the structural proteins of BPV1. When plated on C127 cells, extracts from cells expressing L1 and L2 together induced numerous transformed foci that could be specifically prevented by BPV neutralizing antibodies, demonstrating that BPV infection was responsible for the focal transformation. Extracts from BPHE-1 cells expressing L1 or L2 separately were not infectious. Although Semliki Forest virus-expressed L1 self-assembled into virus-like particles (VLPs), viral DNA was detected in particles only when L2 was coexpressed with L1, indicating that genome encapsidation requires L2. Expression of human papillomavirus type 16 (HPV16) L1 and L2 together in BPHE-1 cells also yielded infectious virus. These pseudotyped virions were neutralized by antiserum to HPV16 VLPs derived from European (114/K) or African (Z-1194) HPV16 variants but not by antisera to BPV VLPs, to a poorly assembling mutant HPV16 L1 protein, or to VLPs of closely related genital HPV types. Extracts from BPHE-1 cells coexpressing BPV L1 and HPV16 L2 or HPV16 L1 and BPV L2 were not infectious. We conclude that (i) mouse C127 cells express the cell surface receptor for HPV16 and are able to uncoat HPV16 capsids; (ii) if a papillomavirus DNA packaging signal exists, then it is conserved between the BPV and HPV16 genomes; (iii) functional L1-L2 interaction exhibits type specificity; and (iv) protection by HPV virus-like particle vaccines is likely to be type specific.     

Polyglutamine aggregation behavior in vitro supports a recruitment mechanism of cytotoxicity

The L1 major capsid proteins of human papillomavirus (HPV) types 11 and 16 were purified and analyzed for structural integrity and in vitro self-assembly. Proteins were expressed in Escherichia coli as glutathione-S-transferase-L1 (GST-L1) fusions and purified to near homogeneity as pentamers (equivalent to viral capsomeres), after thrombin cleavage from the GST moiety and removal of tightly associated GroEL protein. Sequences at the amino and carboxy termini contributing to formation of L1 pentamers and to in vitro capsid assembly were identified by deletion analysis. For both HPV11 and HPV16 L1, up to at least ten residues could be deleted from the amino terminus (Delta N10) and 30 residues from the carboxy terminus (Delta C30) without affecting pentamer formation. The HPV16 pentamers assembled into relatively regular, 72-pentamer shells ("virus-like particles" or VLPs) at low pH, with the exception of HPV16 L1 Delta N10, which assembled into a 12-pentamer, T=1 capsid (small VLP) under all conditions tested. The production of large quantities of assembly-competent L1, using the expression and purification protocol described here, has been useful for crystallographic analysis, and will be valuable for studies of virus-receptor interactions and potentially for vaccine design.     

HPV16 L2肽段偶联AP205 VLP的原核表达及免疫原性分析

目的:将编码HPV16衣壳蛋白L2的65～71、112～120免疫优势表位连接到RNA噬菌体衣壳蛋白AP205氮端,组装形成病毒样颗粒,通过在大肠杆菌中实现表达及纯化,对其免疫原性进行研究。方法:合成编码AP205衣壳蛋白基因和HPV16 L2的65～71、112～120位氨基酸表位的基因序列,PCR连接并克隆至pET30a(+)原核表达载体,构建重组表达质粒pET30-AP205-HPV16ΔL2,转化大肠杆菌BL21(DH3)感受态细胞,IPTG诱导表达。表达蛋白经凝胶层析纯化及SDS-PAGE、Western blot等理化性质检测,免疫接种ICR小鼠,通过间接ELISA法检测其免疫原性。结果:成功构建重组表达质粒,重组蛋白在大肠杆菌中以可溶性表达,透射电镜观察可见典型病毒样颗粒,该VLP在动物实验中表现出较好的免疫原性。结论:成功将HPV16 L2表位偶联AP205以形成VLP,在大肠杆菌中实现可溶性表达。