DNA vaccination of bison to brucellar antigens elicits elevated antibody and IFN-γ responses

Brucella abortus remains a threat to the health and well-being of livestock in states bordering the Greater Yellowstone Area. During the past several years, cohabitation of infected wildlife with cattle has jeopardized the brucellosis-free status of Idaho, USA; Wyoming, USA; and Montana, USA. Current livestock B. abortus vaccines have not proven to be efficacious in bison (Bison bison) or elk (Cervus elaphus nelsoni). One problem with the lack of vaccine efficacy may stem from the failure to understand wildlife immune responses to vaccines. In an attempt to understand their immune responses, bison were vaccinated with eukaryotic DNA expression vectors encoding the Brucella periplasmic protein, bp26, and the chaperone protein, trigger factor (TF). These DNA vaccines have previously been shown to be protective against Brucella infection in mice. Bison were immunized intramuscularly at weeks 0, 2, and 4 with bp26 and TF DNA vaccines plus CpG adjuvant or empty vector (control) plus CpG. Blood samples were collected before vaccination and at 8, 10, and 12 wk after primary vaccination. The results showed that bison immunized with bp26 and TF DNA vaccines developed enhanced antibody, proliferative T cell, and interferon-gamma (IFN-γ) responses upon in vitro restimulation with purified recombinant bp26 or TF antigens, unlike bison immunized with empty vector. Flow cytometric analysis revealed that the percentages of CD4(+) and CD8(+) T lymphocytes from the DNA-vaccinated groups were significantly greater than they were for those bison given empty vector. These data suggest that DNA vaccination of bison may elicit strong cellular immune responses and serve as an alternative for vaccination of bison for brucellosis.     

Cloning, nucleotide sequence, and expression of the Brucella melitensis bp26 gene coding for a protein immunogenic in infected sheep

Abstract We have previously identified a Brucella melitensis 28 kDa cytosoluble protein (CP28) which was highly immunogenic in infected sheep and which in addition made possible the serological differentiation between infected and B. melitensis Rev.l vaccinated sheep. Monoclonal antibodies against CP28 were used to screen a B. melitensis 16M genomic library and to clone the corresponding gene. DNA sequencing of the gene encoding CP28 of B. melitensis 16M revealed that it was nearly identical to that of the recently published bp26 gene of Brucella abortus vaccine strain S19 coding for a periplasmic protein. The differences between the B. melitensis 16M gene and that of B. abortus S19 consisted of single nucleotide substitutions, one or two codon deletions, one codon addition, and most importantly a 21-bp deletion. The corresponding region of B. abortus S19 contains two 10-bp direct repeats which could have been involved in the genesis of the deletion. Expression of the B. melitensis 16M bp26 gene in Escherichia coli studied by the use of the monoclonal antibodies showed the same characteristics as reported for the B. abortus S19 bp26 gene, i.e. the presence of a higher molecular mass preprotein and a lower molecular mass band which probably corresponds to the mature protein exported to the periplasm. Immunoblotting performed with sera from either naturally infected or B. melitensis H38 experimentally infected sheep confirmed the importance of the B. melitensis CP28/BP26 protein as diagnostic antigen.     

HIV-1p24蛋白在大肠肝菌中的高效可溶性表达、一步纯化及抗原性分析

合成引物扩增HIV 1p2 4基因 ,并将其克隆到 pQE 30质粒中 ,使其在大肠杆菌E .coliM 15中以IPTG诱导高效表达 ,经SDS PAGE分析 ,该表达产物约占菌体总蛋白 2 0 % ,并且以可溶蛋白的形式存在于细菌裂解液上清之中。经镍离子柱亲和层析一步纯化 ,洗脱产物中 p2 4蛋白纯度达95 %。ELISA分析表明 ,该蛋白可与HIV感染者血清发生特异性免疫反应。以此蛋白交联Sepharose 4B ,亲和层析纯化HIV感染者血清中的抗体 ,用所得抗体与HIV确认试剂反应 ,发现该纯化抗体仅与确认试剂中的 p2 4蛋白反应。上述结果表明在大肠杆菌中已经高效表达了可溶性HIV 1p2 4蛋白 ,该蛋白具有良好的抗原性     

HSP and apoptosis in leukocytes from infected or vaccinated animals by Brucella abortus

The production of hsp and apoptosis of leukocytes in the peripheral blood of animals naturally infected with Brucella spp or treated with the vaccine Brucella abortus 19 have been investigated in this study. Cytokines able to induce phagocytic activity in macrophages of non treated healthy animals were found in the supernatant of bovine leukocytes cultivated in vitro. A long-lasting antibody response against hsp 60 kDa and 27 kDa, which lasts a long time, is induced in naturally infected animals, while in animals vaccinated with B. abortus 19 we detected an antibody response against hsp 60 and 70 kDa which is much shorter, disappearing in two months. During the early phase of infection, lymphocytes and monocytes of naturally infected animals show a delay of apoptosis in vitro compared to the same cells coming from healthy controls and vaccinated animals.     

3A蛋白104–115位氨基酸缺失口蹄疫A型标记病毒的构建

【目的】构建一株含3A非结构蛋白104–115位氨基酸缺失的口蹄疫A型标记病毒,分析其生物学特性和发展标记疫苗的潜力。【方法】采用融合PCR技术,在当前流行毒株A/Sea-97/CHA/2014全长感染性克隆p QAHN中引入3A104–115位氨基酸的缺失,构建全长重组质粒。全长质粒经NotI线化后转染表达T7RNA聚合酶的稳定细胞系,拯救标记病毒。RT-PCR、序列分析、间接免疫荧光和Western blotting鉴定标记病毒。噬斑表型和一步生长曲线分析标记病毒的生物学特性,并用实验室开发的针对3A优势表位(AEKNPLE)的阻断ELISA方法分析其区分亲本和标记病毒感染的动物。【结果】成功拯救到一株含3A 104–115位氨基酸缺失的口蹄疫A型标记病毒,3A表位的缺失没有影响标记病毒的噬斑表型和一步生长曲线。3A单抗阻断ELISA可以明显区分标记病毒和亲本病毒感染的动物。【结论】本研究构建的3A蛋白104–115位氨基酸缺失的标记病毒可以作为发展口蹄疫鉴别诊断疫苗的候选毒株,用于我国未来口蹄疫A型的有效防控。     

口蹄疫病毒非结构蛋白3AB 的原核表达及应用

旨在建立一种检测口蹄疫病毒非结构蛋白抗体的敏感、特异的ELISA方法。克隆、表达了口蹄疫病毒非结构蛋白3AB基因,原核表达的重组蛋白经亲和层析法纯化及Western blotting鉴定后作为包被抗原,建立检测口蹄疫病毒非结构蛋白抗体的3AB间接ELISA方法,通过与商品化试剂盒3ABC-ELISA的比对试验对其进行评价。结果显示,重组蛋白3AB以包涵体形式表达;能与口蹄疫病毒感染血清发生特异性反应,而不能与疫苗免疫动物血清发生反应;在检测田间样品时,与3ABC-ELISA具有同样的特异性和敏感性 (P＞     

Vaccination programs for reproductive disorders of small ruminants

Vaccines are available for the control of contagious epididymitis and abortion in small ruminants, although many of them have significant limitations either in efficacy or safety to both the animals vaccinated and to the people handling the vaccine or animals. Shelf-life of vaccines should be extended and improved, so that the vaccine remains effective with longer term storage and ideally without refrigeration, so that use in under-developed rural areas is not restricted (e.g., Brucella melitensis, Toxoplasma gondii). The vaccines should not be dangerous for veterinarians or producers to handle (again as examples, B. melitensis, T. gondii). The vaccines should prevent shedding of the organism, in order to prevent spread of the disease causal agent through the sale of vaccinated but shedding animals (e.g., inactivated killed Chlamydophila abortus vaccines), as well as to prevent possible exposure to people handling those vaccinated animals. Production of vaccines using zoonotic disease agents is problematic and sometime dangerous, which increases regulatory restrictions and reduces availability of those vaccines (e.g., C. abortus, Coxiella burnetii). Development of subunit recombinant DNA vaccines may offer a method to increase access to these important vaccines, as long as they are also effective, prevent shedding and remain cost effective. It is important that these vaccines are brought to international commercial production. As many of these disease agents are zoonotic and prevalent world-wide, improvement in vaccine efficacy and safety is of extreme importance.     

Brucella melitensis 16MΔhfq attenuation confers protection against wild‐type challenge in BALB/c mice

Brucellosis is a globally distributed zoonotic disease that causes animal and human diseases. Although effective, the current Brucella vaccines (Rev.1 and M5‐90) have several drawbacks. The first involves residual virulence for animals and humans and the second is the inability to differentiate natural infection from that caused by vaccination. Therefore, Brucella melitensis 16M hfq mutant (16MΔhfq) was constructed to overcome these drawbacks. Similarly to Rev.1 and M5‐90, 16MΔhfq reduces survival in macrophages and mice and induces strong protective immunity in BALB/c mice. Moreover, these vaccines elicit anti‐Brucella‐specific IgG1 and IgG2a subtype responses and induce secretion of gamma interferon and interleukin‐4. The Hfq antigen also allows serological differentiation between infected and vaccinated animals. These results show that 16MΔhfq is an ideal live attenuated vaccine candidate against virulent Brucella melitensis 16M infection. It will be further evaluated in sheep.     

马传染性贫血弱毒疫苗株核衣壳蛋白基因的表达与鉴定

从感染驴白细胞的马传染性贫血弱毒疫苗株前病毒DNA中克隆了编码核衣壳蛋白 (pll)的基因 ,在大肠杆菌中得到了表达 ,而表达的蛋白是一种可溶性的融合蛋白 ,其氨基端带有 6个组氨酸的标签 ,因此可以用固定化金属离子亲和层析法在非变性条件下进行纯化。经间接ELISA和免疫印迹试验检测 ,这种表达的融合蛋白可与马传贫阳性血清样品发生反应 ,而与健康马血清无任何反应 ,显示其具有良好的抗原性和特异性 ,可用于马传贫弱毒疫苗株在体内外复制及在接种马体内免疫应答的研究。     

马传贫驴白细胞弱毒疫苗株酸性蛋白p9基因的克隆与表达

从感染驴白细胞的马传贫驴白细胞弱毒疫苗株前病毒DNA中克隆了编码p9蛋白的基因,并在大肠杆菌中进行了表达。所表达的蛋白是一种可溶性的融合蛋白,其氨基端带有6个组氨酸的标签,因此可以用固定化金属离子亲和层析法在非变性条件下进行纯化。在间接酶联免疫吸附试验(ELISA)和免疫印迹试验中,重组的酸性蛋白p9可与马传贫阳性血清样品发生反应,而与健康马血清无任何反应。这表明该重组蛋白具有良好的抗原性和特异性,可用于马传贫弱毒疫苗株在体内外复制及在接种马体内免疫应答的研究 。     

兔多杀性巴氏杆菌C51-3株黏附蛋白的表达、纯化及其抗原性检测

应用PCR从兔多杀性巴氏杆菌C51-3株基因组DNA中扩增出编码36 kD黏附蛋白的cp36基因, 将其克隆到pMD18-T载体并对插入片段进行测序。以重组质粒pMD18-cp36为模板, 用PCR扩增得到编码信号肽除外的成熟黏附蛋白基因cpm36, 并克隆到原核表达质粒pQE30中, 得到重组质粒pQE30-cpm36, 转化大肠杆菌M15, 在IPTG诱导下表达融合蛋白CPM36, 经Ni2+-NTA亲和层析纯化。DNA测序结果表明cp36基因片段大小为1032 bp, 与已报道的16个血清型多杀性巴氏杆菌cp36基因的核苷酸序列比较, 同源性在76.9%~100%之间。SDS-PAGE结果显示, 表达分子量约为37 kD的带有6×His标签的CPM36蛋白, 与预期分子量相符。Western blotting结果表明, 抗重组蛋白抗体分别能与CPM36蛋白和多杀性巴氏杆菌36 kD蛋白发生特异性反应, 证明原核表达蛋白具有抗原性, 为进一步开展多杀性巴氏杆菌免疫保护性抗原的研究奠定了基础。     

Shrimp vaccination trials with the VP292 protein of white spot syndrome virus

AIMS: Construction of a recombinant vector that expresses VP292 protein of white spot syndrome virus (WSSV) and to exploit the possibility of obtaining the vaccine conferring protection against WSSV infection in shrimps. METHODS AND RESULTS: VP292 protein of WSSV was amplified from WSSV genomic DNA by PCR. The target 814 bp amplified product specific for VP292 protein was inserted in to pQE30 expression vector. The recombinant plasmid of VP292 protein was transformed and expressed in Escherichia coli under induction of isopropyl-1-1-thio-beta-D-galactoside (IPTG) and the immunoreactivity of the fusion protein was detected by Western blot. Shrimp were vaccinated by intramuscular injection of the purified protein VP292 of WSSV and challenged for 0-30 days. Vaccination trial experiments show that two injections with recombinant VP292 (rVP292) protein induced a higher resistance, with 52% relative percentage survival value, in the shrimp at the 30th day postvaccination. CONCLUSIONS: The expression system of protein VP292 of WSSV with a high efficiency has been successfully constructed. Vaccination trials show significant resistance in the shrimp vaccinated twice with recombinant VP292. SIGNIFICANCE AND IMPACT OF THE STUDY: Results of this study prosper the development of WSSV protein vaccine against WSSV infection in shrimps.     

禽多杀性巴氏杆菌P1059成熟黏附蛋白的原核表达、纯化和抗原性检测

目的：建立rCPM36在大肠杆菌中的表达体系,纯化表达产物并检测其抗原性。方法：运用PCR方法从禽多杀性巴氏杆菌国际标准株P1059基因组中扩增出编码36kDa成熟黏附蛋白的cpm36基因,构建原核表达载体pQE30-cpm36,转化到大肠杆菌M15中并诱导表达目的蛋白,用镍离子螯合层析柱纯化目的蛋白及制备其抗体,Western印迹分析其抗原性。结果：SDS-PAGE结果显示目标蛋白以可溶性形式表达在大肠杆菌M15细胞质中,其相对分子质量为37kDa,Western印迹结果表明表达蛋白具有良好的抗原性。结论：成功构建出原核表达载体并实现了目的蛋白表达,用镍离子螯合层析柱纯化得到具有抗原性的蛋白,为进一步开展禽多杀性巴氏杆菌黏附因子和保护性抗原的研究奠定基础。     

Expression of HA of HPAI H5N1 virus at US2 gene insertion site of turkey herpesvirus induced better protection than that at US10 gene insertion site

Herpesvirus of turkey (HVT) is being widely used as a vector for development of recombinant vaccines and US2 and US10 genes are often chosen as insertion sites for targeted gene expression. However, the different effects of the two genes for generation of recombinant HVT vaccines were unknown. In order to compare the effects of inserted genes in the two sites on the efficacy of the recombinant vaccines, host-protective haemagglutinin (HA) gene of the highly pathogenic avian influenza virus (HPAIV) H5N1 was inserted into either US2 or US10 gene locus of the HVT. The resulting US2 (rHVT-US2-HA) or US10 (rHVT-US10-HA) recombinant HVT viruses were used to infect chicken embryo fibroblasts. Plaques and the growth kinetics of rHVT-US2-HA-infected chicken embryo fibroblasts were similar to those of parental HVT whereas rHVT-US10-HA infected chicken embryo fibroblasts had different growth kinetics and plaque formation. The viremia levels in rHVT-US10-HA virus-infected chickens were significantly lower than those of rHVT-US2-HA group on 28 days post infection. The vaccine efficacy of the two recombinant viruses against H5N1 HPAIV and virulent Marek's disease virus was also evaluated in 1-day-old vaccinated chickens. rHVT-US2-HA-vaccinated chickens were better protected with reduced mortality than rHVT-US10-HA-vaccinated animals following HPAIV challenge. Furthermore, the overall hemaglutination inhibition antibody titers of rHVT-US2-HA-vaccinated chickens were higher than those of rHVT-US10-HA-vaccinated chickens. Protection levels against Marek's disease virus challenge following vaccination with either rHVT-US2-HA or rHVT-US10-HA, however, were similar to those of the parental HVT virus. These results, for the first time, indicate that US2 gene provides a favorable foreign gene insertion site for generation of recombinant HVT vaccines.     

重组蓖麻、相思子毒素A链嵌合突变体的制备与分析

目的:构建蓖麻毒素(RIC)、相思子毒素(ABR)A链突变体的嵌合体蛋白,实现嵌合体蛋白的可溶性表达、纯化及抗原性分析。方法:采用柔性linker连接RIC A链突变体(mRICAD75AV76MY80A)和ABR A链突变体(mABRAE164AR167L),构建嵌合体基因mRICA/mABRA,将该嵌合体基因亚克隆至原核载体pQE80L构建表达质粒pQE80L-mRICA/mABRA,再转化至大肠杆菌M15获得表达工程菌株M15/pQE80L-mRICA/mABRA,工程菌在18℃经0.1 mmol/L的IPTG诱导14 h,表达的嵌合体蛋白经Ni-NTA亲和层析柱纯化,通过ELISA和Western印迹检测嵌合体蛋白的抗原性。结果:所获得的mRICA/mABRA嵌合体基因经一致性比对分析,与预计嵌合基因的序列一致性为100%,其开放读框全长1572 bp,编码524个氨基酸残基;重组表达质粒pQE80L-mRICA/mABRA经PCR及双酶切鉴定证明构建正确,嵌合体蛋白相对分子质量约为62×103,与预测相符,可溶性的嵌合体蛋白经Ni-NTA亲和层析柱纯化,纯度可达99%;间接ELISA和Western印迹结果表明,嵌合体蛋白能同时与抗RIC多克隆抗体和抗ABR多克隆抗体发生特异的抗原抗体反应。结论:得到的mRICA/mABRA嵌合体蛋白具有良好的抗原性,为研制新型RIC和ABR双价疫苗奠定了重要基础。     

腐败梭菌α毒素基因的克隆表达及其类毒素的免疫原性研究

根据GenBank公布的腐败梭菌α毒素基因序列,设计了一对引物,并以腐败梭菌基因组为模板,经PCR特异性扩增出腐败梭菌菌株HeB01的α毒素基因。序列分析表明,该基因产物大小为1323bp,与GenBank报道的4个腐败梭菌参考菌株α毒素基因序列同源性高于99·5%。将扩增的α毒素基因定向克隆到原核表达载体pQE30中,得到重组质粒pQE30-α,将重组质粒转化大肠杆菌M15中,得到重组菌株M15(pQE30-α),经IPTG诱导后,SDS-PAGE分析可见表达的48kD特异条带;Westernblot和ELISA检测实验表明:表达的α毒素与抗天然α毒素抗体发生特异性反应,说明α毒素蛋白具有较好的免疫原性。将表达的α毒素蛋白制成类毒素疫苗,免疫小鼠后,具有一定的保护能力,表明该重组菌株有望作为腐败梭菌基因工程类毒素疫苗的候选生产菌株。     

An equine herpesvirus type 1 (EHV-1) expressing VP2 and VP5 of serotype 8 bluetongue virus (BTV-8) induces protection in a murine infection model

Bluetongue virus (BTV) can infect most species of domestic and wild ruminants causing substantial morbidity and mortality and, consequently, high economic losses. In 2006, an epizootic of BTV serotype 8 (BTV-8) started in northern Europe that caused significant disease in cattle and sheep before comprehensive vaccination was introduced two years later. Here, we evaluate the potential of equine herpesvirus type 1 (EHV-1), an alphaherpesvirus, as a novel vectored DIVA (differentiating infected from vaccinated animals) vaccine expressing VP2 of BTV-8 alone or in combination with VP5. The EHV-1 recombinant viruses stably expressed the transgenes and grew with kinetics that were identical to those of parental virus in vitro. After immunization of mice, a BTV-8-specific neutralizing antibody response was elicited. In a challenge experiment using a lethal dose of BTV-8, 100% of interferon-receptor-deficient (IFNAR(-/-)) mice vaccinated with the recombinant EHV-1 carrying both VP2 and VP5, but not VP2 alone, survived. VP7 was not included in the vectored vaccines and was successfully used as a DIVA marker. In summary, we show that EHV-1 expressing BTV-8 VP2 and VP5 is capable of eliciting a protective immune response that is distinguishable from that after infection and as such may be an alternative for BTV vaccination strategies in which DIVA compatibility is of importance.     

Expression, characterization and immunogenicity of a major outer membrane protein from Vibrio alginolyticus

Vibrio alginolyticus is one of the Vibrio pathogens common to humans and marine animals.During infection and induction of the host immune response,outer membrane proteins of bacteria play animportant role.In this study,an outer membrane protein gene(ompW)was cloned from V.alginolyticus andexpressed in Escherichia coli.The 645 bp open reading frame(ORF)encodes a protein of 214 amino acidresidues with a predicted molecular weight of 23.3 kDa.The amino acid sequence showed a high identitywith that of Photobacterium damselae(96.2%)and Vibrio parahaemolyticus(94.4%).The alignment analy-sis indicated that OmpW was highly conserved.Sodium dodecyl sulfate-polyacrylamide gel electrophoresisshowed that the gene was over-expressed in E.coli BL21(DE3).Western blot analysis revealed that theexpressed protein had immunoreactivity.The recombinant protein was purified by affinity chromatographyon Ni-NTA Superflow resin.Large yellow croaker vaccinated with the purified OmpW showed significantlyincreased antibody to OmpW,which could resist the infection by V.alginolyticus.A specific antibody wasdetected by enzyme-linked immunosorbent assay.This study suggested that the conserved OmpW could bean effective vaccine candidate against infection by V.alginolyticus.     

Molecular cloning and expression of a Schistosoma japonicum tegumental membrane-associated antigen from Japanese strain

Diagnosis and vaccine development form the major focus in creating strategies for the control of schistosomiasis. In this study, we established an IgG1 mouse monoclonal antibody (MoAb), SJA111, which strongly reacted with 23–25-kDa Schistosoma japonicum tegumental-associated membrane proteins, but not with eight other parasitic antigens. A λgt 11 cDNA library from the Japanese strain of the Schistosoma japonicum adult worm was screened with SJA111 as a probe. A single positive clone was isolated and the nucleotide sequence of the isolated cDNA was determined. The cDNA clone consisted of 844 bp, and the coding region contained 576 bp which was translated to a 22.6-kDa protein. This region showed 99.0% and 99.3% significant homology with those of the Chinese and Philippine strains of Schistosoma japonicum, respectively. The deduced amino acid sequence of the protein was identical to that of the Philippine strain and only one residue differed from that of the Chinese strain. The recombinant form of the tegumental protein was expressed in Escherichia coli and purified by a combination of ion exchange and affinity chromatography, and the purified protein was found to react with the sera of patients infected with Schistosoma japonicum. This result suggests that this antigen may be useful in the immunodiagnosis of schistosomiasis as well as in the development of an effective vaccine.     

Vaccination with Recombinant Adenoviruses Expressing the Peste des Petits Ruminants Virus F or H Proteins Overcomes Viral Immunosuppression and Induces Protective Immunity against PPRV Challenge in Sheep

Peste des petits ruminants (PPR) is a highly contagious disease of small ruminants caused by the Morbillivirus peste des petits ruminants virus (PPRV). Two recombinant replication-defective human adenoviruses serotype 5 (Ad5) expressing either the highly immunogenic fusion protein (F) or hemagglutinin protein (H) from PPRV were used to vaccinate sheep by intramuscular inoculation. Both recombinant adenovirus vaccines elicited PPRV-specific B- and T-cell responses. Thus, neutralizing antibodies were detected in sera from immunized sheep. In addition, we detected a significant antigen specific T-cell response in vaccinated sheep against two different PPRV strains, indicating that the vaccine induced heterologous T cell responses. Importantly, no clinical signs and undetectable virus shedding were observed after virulent PPRV challenge in vaccinated sheep. These vaccines also overcame the T cell immunosuppression induced by PPRV in control animals. The results indicate that these adenovirus constructs could be a promising alternative to current vaccine strategies for the development of PPRV DIVA vaccines.