Immune potential of a novel multiple-epitope vaccine to FMDV type Asia 1 in guinea pigs and sheep

To develop a safe and efficient recombinant subunit vaccine to foot-and-mouth disease virus(FMDV)type Asia 1 in sheep,a tandem repeated multiple-epitope gene consisting of residues 137-160 and 197-211 of the VP1 gene of FMDV was designed and artificially synthesized.The biologically functional molecule,the ovine IgG heavy constant region(oIgG)as a protein carrier was introduced for design of the multiple-epitope recombinant vaccine and recombinant expression plasmids pET-30a-RE and pET-30a-RE-oIgG were successfully constructed.The recombinant proteins,RE and RE-oIgG,were expressed as a formation of inclusion bodies in E.coli.The immune potential of this vaccine regime in guinea pigs and sheep was evaluated.The results showed that IgG could significantly enhance the immune potential of antigenic epitopes.The recombinant protein RE-oIgG could not only elicit the high levels of neutralizing antibodies and lymphocytes proliferation responses in the vaccinated guinea pigs,but confer complete protection in guinea pigs against virus challenge.Although the recombinant protein RE could not confer protection in the vaccinated animals,it could delay the appearance of the clinical signs and reduce the severity of disease.Inspiringly,the titers of anti-FMDV neutralizing antibodies elicited in sheep vaccinated with RE-oIgG was significantly higher than that for the RE vaccination.Therefore,we speculated that this vaccine formulation may be a promising strategy for designing a novel vaccine against FMDV in the future.     

共表达口蹄疫病毒衣壳前体蛋白P1-2A基因和蛋白酶3C基因牛肾细胞株的筛选及稳定性

[目的]筛选稳定表达口蹄疫病毒衣壳蛋白的牛肾细胞(Madin-Darby bovinekidney,MDBK)株.[方法]采用聚合酶链式反应(Polymerase chain reaction,PCR)方法从重组质粒pMD-P1-2A和pMD-3C中分别扩增口蹄疫病毒衣壳前体蛋白P1-2A基因和蛋白酶3C基因,将两基因依次插入逆转录病毒载体pBABE-puro.重组逆转录病毒载体pBABE-puro/P1-2A-3C和pVSV-G质粒载体用脂质体介导共转染GP2-293包装细胞.产生的重组逆转录病毒感染MDBK细胞后使用嘌呤霉素筛选抗性细胞.利用克隆环套取法得到单克隆细胞.经间接免疫荧光和酶联免疫吸附测定(Enzyme-linkedimmunosorbent assay,ELISA)方法检测MDBK细胞中衣壳蛋白的表达,并在电镜下观察口蹄疫病毒空衣壳.[结果]成功筛选到稳定表达口蹄疫病毒衣壳蛋白的MDBK细胞株,衣壳前体蛋白P1-2A在蛋白酶3C裂解作用下正确组装成空衣壳.[结论]该研究为口蹄疫亚单位疫苗的研制提供了实验材料.     

猪口蹄疫病毒多抗原表位重组腺病毒的构建与鉴定

本研究设计构建了含有猪O型口蹄疫病毒VP1（21—60）-（141-160）-（200—213）位氨基酸的基因的重组腺病毒质粒pAd-VP,经PacI酶切后转染HEK-293A细胞,3次噬斑纯化获得了重组腺病毒rAd—VP。该重组腺病毒于HEK-293A细胞连续传代至20代效价稳定,TCID50为10^-10／mL。RT—PCR检测证明目的基因在mRNA水平上可有效表达;应用O型口蹄疫病毒标准阳性血清进行间接荧光抗体试验,在rAdVP感染的HEK-293A细胞的胞质可见清晰荧光。证明该重组腺病毒对VP1（21-60）-（141—160）-（200—213）位氨基酸的基因进行了成功的表达,从而为FMDV多抗原表位腺病毒活载体疫苗的研究奠定了基础。     

Asia 1型口蹄疫病毒抗原表位突变株的构建及其生物学特性分析

为了研制口蹄疫抗原表位突变标记疫苗,本研究以含有Asia 1型口蹄疫病毒(FMDV)c DNA全长的感染性克隆p Asia 1-FMDV作为骨架,将3D蛋白中第27位氨基酸的H和31位的氨基酸N分别突变成Y和R,从而突变3D蛋白的一个抗原表位,将构建的带有突变表位的重组质粒转染BHK-21细胞,成功拯救出一株突变FMDV。经比较后发现,重组病毒的生物学特性与亲本毒株相似。病毒中和试验结果显示,抗重组病毒的血清与亲本病毒有良好的反应性。Western blotting结果表明重组病毒诱导的抗体能与突变的表位合成肽反应而不与野生型病毒的表位合成肽发生反应,从而区分重组病毒与亲本病毒。综上所述,这株抗原表位突变FMDV有望作为口蹄疫标记疫苗候株进一步评估。     

Synthesis, cloning, and expression of artificial genes, coding antigenic determinants of the foot-and-mouth virus substrain A22]

Chemical-enzymatic synthesis and cloning in Escherichia coli of double-stranded DNAs, coding for simple and complex antigenic determinants of foot-and-mouth disease virus (FMDV) strain A22, have been carried out. The simple antigenic determinants are a part of the viral coat protein VP1 (amino acid sequence 131-152 or 131-160) whereas the complex antigenic determinants comprise additionally the amino acid sequence 200-213 of VP1 linked to N-terminus of simple antigenic determinants through a tetrapeptide spacer Pro-Pro-Ser-Pro. Recombinant DNAs containing genes for antigenic determinants of FMDV fused with C-terminus of gene for human tumor necrosis factor (hrTNF) have been constructed. Expression of the hybrid genes and properties of the proteins coded were studied. All recombinant proteins were shown to interact specifically with polyclonal antibodies both against hrTNF and FMDV strain A22. The recombinant proteins produced by bacteria are perspective for study as a vaccine against FMDV.     

A型口蹄疫病毒VP0基因的克隆及原核表达

从实验室冻存的含A型口蹄疫病毒的细胞中提取FMDV总RNA,通过RT-PCR获得cDNA.并根据FMDV全基因组序列设计了一对针对VP0基因的引物,通过PCR扩增得到目的基因VP0并亚克隆入pMD18-T载体.将鉴定出的阳性质粒和表达载体pET32a用BamH Ⅰ和HindⅢ双酶切回收后连接获得阳性重组质粒pET32-VP0.用IPTG诱导重组质粒表达目的蛋白VP0并用SDS-PAGE进行检测.表达产物用镍亲和树脂进行了纯化.结果证明,口蹄疫病毒VP0蛋白在大肠杆菌中获得了高效表达且表达产物得到了纯化,为实验室进一步的研究提供了重要的材料.     

细菌内同源重组法制备FMDV聚蛋白编码基因重组腺病毒

采用PCR方法从重组质粒pMD18_T/PP中扩增出FMDV的聚蛋白(PP)编码基因,再亚克隆至腺病毒穿梭质粒中,形成重组穿梭质粒rpAd_CMV/PP;将获得的重组穿梭质粒与腺病毒骨架载体通过在大肠杆菌内质粒间同源重组获得重组腺病毒质粒rpAd/PP。将腺病毒载体线性化后用脂质体介导转染293细胞从而获得含有口蹄疫病毒PP编码基因的重组腺病毒。通过倒置显微镜观测,可见明显的细胞病变,利用荧光显微镜可观测到报告基因绿色荧光蛋白的表达,并在电镜下观察到FMDV的空衣壳。结果证明已成功获得了含有口蹄疫病毒PP编码基因的重组腺病毒rAd/PP,并成功表达组装FMDV空衣壳,为FMDV腺病毒活载体疫苗的研究奠定了基础。     

鸡贫血病毒衣壳蛋白的表达纯化及多克隆抗体制备

利用PCR技术,以pPrpo-VP1为模板扩增得到鸡贫血病毒的衣壳蛋白基因(VP1),以T4多聚核苷酸激酶磷酸化处理、纯化后,克隆至表达载体pET-30a( )中,从而构建了原核表达质粒pET30-VP1。将pET30-VP1转化至感受态细胞E.coliBL21(DE3)中,经IPTG诱导后,SDS-PAGE分析,可见约45kDa的目的蛋白获得表达。该蛋白经亲和层析纯化后,免疫6-8w的雌性Balb/c鼠,三次免疫后,采血分离血清,制得抗VP1的多克隆血清。以纯化的VP1为包被抗原,用ELISA方法检测,制备的血清效价达12800×以上。以Westernblot检测,该血清可与目的蛋白发生特异性反应,证明其具有良好的免疫原性。VP1蛋白的成功表达及其多克隆抗体的制备为进一步研究VP1蛋白的功能及开展CAV疫苗及诊断制剂的研制奠定了基础。     

嗜水气单胞菌溶血素基因的克隆表达及其类毒素的免疫原性分析

根据嗜水气单胞菌溶血素保护性抗原基因序列(GenBank Accession No. AF539467)设计一对引物, 以嗜水气单胞菌河北分离株基因组为模板, 经PCR扩增得到hly基因。序列分析表明, 该基因产物大小为1485 bp, 经测序与GenBank报道的多个嗜水气单胞菌hly基因序列一致性高于99%。将得到的hly基因定向克隆到原核表达载体pET-28a中构建原核重组质粒pET-28a- hly, 转化大肠杆菌 BL21(DE3)中, 得到重组菌株BL21(DE3)(pET-28a-hly), 经IPTG诱导后, SDS-PAGE分析可见一条56 kD的特异条带。Western blotting分析结果显示表达的Hly蛋白能与抗体发生特异性结合,说明其具有较好的免疫原性。将表达的溶血素蛋白制成类毒素疫苗免疫小鼠后, 具有较高的保护效力, 表明该类毒素疫苗有望作为预防由嗜水气单胞菌引起疾病的基因工程类毒素疫苗。     

Transient Gene Expression in Serum-Free Suspension-Growing Mammalian Cells for the Production of Foot-and-Mouth Disease Virus Empty Capsids

Foot-and-mouth disease (FMD) is a highly contagious disease of cloven-hoofed animals. It produces severe economic losses in the livestock industry. Currently available vaccines are based on inactivated FMD virus (FMDV). The use of empty capsids as a subunit vaccine has been reported to be a promising candidate because it avoids the use of virus in the vaccine production and conserves the conformational epitopes of the virus. In this report, we explored transient gene expression (TGE) in serum-free suspension-growing mammalian cells for the production of FMDV recombinant empty capsids as a subunit vaccine. The recombinant proteins produced, assembled into empty capsids and induced protective immune response against viral challenge in mice. Furthermore, they were recognized by anti-FMDV bovine sera. By using this technology, we were able to achieve expression levels that are compatible with the development of a vaccine. Thus, TGE of mammalian cells is an easy to perform, scalable and cost-effective technology for the production of a recombinant subunit vaccine against FMDV.     

重组鸡痘病毒和DNA疫苗对口蹄疫病毒的豚鼠免疫保护

将构建的携带FMDV衣壳蛋白P1-2A和蛋白酶3C编码基因的重组鸡痘病毒活载体疫苗vUTAL3CP1以及编码FMDVP1-2A基因和猪IL-18基因的重组DNA疫苗pVIRIL18P1,分别以单独和混合的方式给豚鼠进行2次免疫,然后测定FMDV特异性结合抗体、中和抗体和T淋巴细胞增殖反应,并用250ID50的FMDV进行攻击,观察其保护效果。结果表明这2种基因工程疫苗均能诱导豚鼠产生特异性的体液免疫及细胞免疫应答。其中以vUTAL3CP1两次免疫组的效果最好,其诱导的抗体水平已接近于常规灭活疫苗,而细胞免疫水平则比后者高得多。攻击保护结果表明该组完全保护率可达3/4,而另外两组也具有一定保护效果。上述研究结果为进一步进行大动物免疫攻毒试验,并最终筛选出最佳疫苗和免疫程序奠定了基础。     

西藏株小反刍兽疫病毒H蛋白的原核表达及其多克隆抗体的制备

【背景】小反刍兽疫是由小反刍兽疫病毒(Peste des petits ruminants virus,PPRV)引起的一种急性、烈性、接触性传染病,严重威胁我国养羊业的发展。【目的】原核表达PPRVH蛋白,并制备其多克隆抗体。【方法】根据GenBank中PPRV西藏株h基因序列,对其进行密码子大肠杆菌偏爱性优化,采用两步PCR法全化学合成全长h基因。将测序验证正确的h基因克隆至原核表达载体pET-28a、pET-30a、pET-32a,转化E. coli BL21(DE3)并利用IPTG诱导H蛋白表达。以经SDS-PAGE割胶纯化的重组H蛋白免疫新西兰大白兔制备抗PPRV H蛋白多克隆抗体。【结果】重组E. coli [pET-28a(-30a,-32a)-H]表达的重组H蛋白相对分子质量分别约为70、68和86 kD;诱导7 h时PRRV H蛋白表达量最高,而且主要以包涵体形式表达;重组E.coli(pET-30a-H)表达的H蛋白经SDS-PAGE割胶纯化后免疫新西兰大白兔制备的多抗血清能与表达的重组H蛋白发生特异性反应;ELISA法检测抗体效价在1:6400-1:25600之间。【结论】原核表达了PPRVH蛋白,并制备了高效价的抗H蛋白多克隆抗体,为进一步研究PPRV H蛋白的功能及H蛋白的线性B细胞表位作图奠定了基础。     

以猪IgG重链恒定区为抗原载体的抗口蹄疫病毒DNA疫苗的研制

口蹄疫(Foot-and-Mouth Disease, FMD)是当今世界上最为严重的家畜传染病之一,主要危害猪、牛、羊等偶蹄动物.FMD的致病原为FMD病毒(FMDV),属小RNA病毒科口蹄疫病毒属,有A、O、C、SATⅠ、SATⅡ、SATⅢ及AsiaⅠ共7个血清型.FMDV结构较简单,完整的病毒颗粒由4种结构蛋白VP1、VP2、VP3及VP4各60个拷贝构成的衣壳包裹一条单股正链RNA组成,其中VP1是主要的抗原蛋白[1].     

A recombinant pseudorabies virus co-expressing capsid proteins precursor P1-2A of FMDV and VP2 protein of porcine parvovirus: a trivalent vaccine candidate

Pseudorabies (PR), foot-and-mouth disease (FMD), and porcine parvovirus disease are three important infectious diseases in swine worldwide. The gene-deleted pseudorabies virus (PRV) has been used as a live-viral vector to develop multivalent genetic engineering vaccine. In this study, a recombinant PRV, which could co-express protein precursor P1-2A of FMDV and VP2 protein of PPV, was constructed using PRV TK⁻/gE⁻/LacZ⁺ mutant as the vector. After homologous recombination and plaque purification, recombinant virus PRV TK⁻/gE⁻/P1-2A-VP2 was acquired and identified. Immunogenicity, safety of the recombinant PRV and its protection against PRV were confirmed in a mouse model by indirect ELISA and serum neutralization test. The results show that the recombinant PRV is a candidate vaccine strain to develop a novel trivalent vaccine against PRV, FMDV and PPV in swine.     

高致病性猪繁殖与呼吸综合征病毒ORF7基因的克隆与原核表达

猪繁殖与呼吸综合征(PRRS)是严重危害全球养猪业的重要病毒性传染病。通过PCR方法从高致病性PRRSV WUH1株中扩增得到结构蛋白ORF7的基因片段,并将目的基因插入原核表达载体pET-30a中,得到重组表达质粒pET-30a-ORF7。重组表达质粒转化大肠杆菌BL21(DE3)细胞,经IPTG诱导,SDS-PAGE聚丙烯酰胺凝胶电泳分析表明,融合蛋白得到了高效表达,表达的融合蛋白分子量约20kD。     

Correlation between efficacy and structure of recombinant epitope vaccines against bovine type O foot and mouth disease virus

To develop recombinant epitope vaccines against foot-and-mouth disease virus (FMDV), genes coding for six recombinant proteins (rP1–rP6) consisting of different combinations of B cell and T cell epitope from VP1 capsid protein (VP1) of type O FMDV were constructed and the 3D structure of these proteins analyzed. This revealed a surface-exposed RGD sequence of B cell epitopes in all six recombinant proteins as that in VP1 of FMDV and rP1, rP2 and rP4 globally mimicked the backbone conformation of the VP1. rP1, rP2 and rP4 stimulated guinea pigs to produce higher level of neutralizing antibodies capable of protecting suckling mice against FMDV challenge. rP1 stimulated cattle to produce FMDV-neutralizing antibody. The data suggest that an efficient recombinant epitope vaccine against FMDV should share local similarities with the natural VP1 of FMDV.     

嵌合型口蹄疫病毒样颗粒构建、表达及鉴定

为提高口蹄疫病毒(Foot-and-mouthdiseasevirus,FMDV)病毒样颗粒(Virus-likeparticles,VLPs)的特异性识别和递呈,为靶向疫苗研究奠定基础,利用反向PCR技术,将卵清蛋白(Ovalbumin,OVA)第257–264位氨基酸(Amino acids,aa)的短肽嵌入FMDV结构蛋白VP3第171–172位aa或第173–174位aa,通过大肠杆菌表达FMDV结构蛋白VP0、VP1和嵌合型VP3,体外组装得到嵌合OVA257-264肽的病毒样颗粒(VLPOVA)。用动态光散射、透射电镜检测VLPOVA大小和形态,免疫印迹、酶联免疫吸附试验和激光共聚焦显微镜检测短肽的嵌入情况。结果显示在VP3的第173–174位aa嵌入OVA,不影响蛋白表达和VLPs的组装且OVA位于VLPOVA的表面,VLPOVA粒径比VLPs稍大。     

Expression of foot-and-mouth disease virus capsid proteins in silkworm-baculovirus expression system and its utilization as a subunit vaccine

Background

Foot-and-mouth disease (FMD) is a highly contagious disease of livestock that causes severe economic loss in susceptible cloven-hoofed animals. Although the traditional inactivated vaccine has been proved effective, it may lead to a new outbreak of FMD because of either incomplete inactivation of FMDV or the escape of live virus from vaccine production workshop. Thus, it is urgent to develop a novel FMDV vaccine that is safer, more effective and more economical than traditional vaccines.

Methodology and Principal Findings

A recombinant silkworm baculovirus Bm-P12A3C which contained the intact P1-2A and 3C protease coding regions of FMDV Asia 1/HNK/CHA/05 was developed. Indirect immunofluorescence test and sandwich-ELISA were used to verify that Bm-P12A3C could express the target cassette. Expression products from silkworm were diluted to 30 folds and used as antigen to immunize cattle. Specific antibody was induced in all vaccinated animals. After challenge with virulent homologous virus, four of the five animals were completely protected, and clinical symptoms were alleviated and delayed in the remaining one. Furthermore, a PD₅₀ (50% bovine protective dose) test was performed to assess the bovine potency of the subunit vaccine. The result showed the subunit vaccine could achieve 6.34 PD₅₀ per dose.

Conclusion

The results suggest that this strategy might be used to develop the new subunit FMDV vaccine.     

日本脑炎病毒SA14-14-2 E蛋白结构域Ⅲ的抗原性和免疫原性分析

为了表达日本脑炎病毒囊膜蛋白(E蛋白)结构域DⅢ区,了解其作为亚单位疫苗的可能性,本研究根据SA14-14-2病毒株序列(GenBank Accession No.D90195)设计两条引物,以全长JEV感染性克隆pBR-JTF为模板,通过PCR扩增出JEVE蛋白DⅢ的cDNA片段,构建了原核表达载体pET-JEDⅢ,转化大肠杆菌Rosetta(DE3)进行融合表达。融合蛋白为可溶性表达,表达量约占菌体蛋白的75%。用纯化后蛋白免疫新西兰兔和BALB/C鼠,通过ELISA,Western blotting,噬斑减少实验,及乳鼠攻毒实验验证JEDⅢ的抗原性和免疫原性。Western blotting及ELISA结果表明纯化后的表达产物具有良好的抗原性,纯化的JEDⅢ蛋白免疫新西兰兔,可以获得高达1:7×105滴度的抗JEV特异性抗体;JEDⅢ蛋白免疫BALB/C鼠,可以获得1:8.2×104滴度的抗JEV特异性抗体。并且获得1:256滴度的中和抗体,乳鼠攻毒实验能达到75%的保护效果。以上结果说明本研究表达、纯化的重组JEDⅢ蛋白,免疫小鼠以及兔后,能产生抗JEV的特异性抗体,中和性抗体,能够保护部分乳鼠接受毒...