核酸疫苗--一种新型疫苗

核酸疫苗是指将含有编码某种抗原蛋白基因序列的质粒载体作为疫苗,直接导入动物细胞内,从而通过宿主细胞的转录系统合成抗原蛋白,诱导宿主产生对该抗原蛋白的免疫应答,达到免疫的目的.核酸疫苗又称为基因疫苗或裸DNA疫苗,这种免疫称为核酸免疫、基因免疫、DNA介导的免疫以及遗传免疫等.     

细菌蛋白的免疫学特性及其作为多糖蛋白结合疫苗载体的可行性

多糖蛋白结合疫苗(polysaccharide-protein conjugate vaccine)是将病原菌的荚膜多糖与载体蛋白通过共价结合的方式制备而成的疫苗。在上市的多糖蛋白结合疫苗中,载体蛋白(carrier protein)预先接种或共同接种时可能介导免疫干扰,降低结合物中多糖的免疫应答,影响疫苗接种效果。另外,多糖作为疫苗抗原有血清型别的限制,疫苗中所含的血清型别无法保护所有型别的细菌感染。因此,考虑将细菌自身具有保护性的抗原蛋白作为载体蛋白,其中,肺炎链球菌溶血素蛋白、金黄色葡萄球菌蛋白、B群链球菌菌毛蛋白和沙门菌表面蛋白都是目前经过实验室证实的具有免疫原性的载体蛋白。现对这些细菌蛋白的免疫学特性及其作为多糖蛋白结合疫苗载体的可行性作一概述。     

乙型脑炎病毒DNA初免-蛋白加强策略在小鼠模型上的免疫效应评价

为了评价基因Ⅰ型乙型脑炎病毒prM-E DNA疫苗与prM和EⅢ融合抗原亚单位疫苗采用DNA初免-蛋白加强免疫策略对小鼠的免疫效果,本研究将prM-E融合基因插入到pVAX1真核表达载体中,构建重组表达载体prM-E-pVAX1作为DNA疫苗进行初免,利用原核表达系统获得的prM和EⅢ融合抗原作为亚单位疫苗进行加强免疫。将32只4−6周龄雌性BALB/c小鼠随机分成4组,设置prM-E-pVAX1 DNA疫苗组、DNA初免-蛋白加强免疫组、prM和EⅢ融合抗原亚单位疫苗组及pVAX1载体对照组,通过ELISA检测血清中特异性抗体水平;通过噬斑减少中和试验滴定中和抗体滴度;通过细胞因子表达丰度和淋巴细胞增殖试验分析不同疫苗免疫组诱导产生的细胞免疫反应。结果表明,用DNA初免-蛋白加强策略免疫的小鼠诱导产生的中和抗体滴度略高于prM和EⅢ融合抗原亚单位疫苗免疫组,显著高于prM-E-pVAX1 DNA疫苗免疫组。DNA初免-蛋白加强策略在小鼠模型中诱导产生了有效的Th1/Th2型免疫反应,特别是显著诱导了Th1型细胞免疫反应。本研究为预防流行性乙型脑炎提供了新的免疫策略和理论参考依据。     

核酸疫苗—— —种新型疫苗

核酸疫苗———一种新型疫苗姜新（辽宁省畜牧兽医科学研究所１１１０００）核酸疫苗是指将含有编码某种抗原蛋白基因序列的质粒载体作为疫苗,直接导入动物细胞内,从而通过宿主细胞的转录系统合成抗原蛋白,诱导宿主产生对该抗原蛋白的免疫应答,达到免疫的目的。核酸疫...     

乳酸乳球菌载体疫苗

乳酸乳球菌是一种在食品工业中广泛应用的安全级微生物,应用基因工程手段能使乳酸乳球菌表达多种病毒、细菌、寄生虫的外源蛋白。乳酸乳球菌可经粘膜途径免疫,能有效递呈抗原,诱导外源蛋白的特异性免疫应答,并能同时诱导粘膜免疫与全身免疫,因此可作为潜在的疫苗载体。本文对乳酸乳球菌载体疫苗的优势、应用以及疫苗设计时需要考虑的问题进行了概述。     

呼吸道合胞病毒G蛋白基因片段的克隆及高效表达

呼吸道合胞病毒(RSV)感染遍布全球,并可导致严重的疾病,但目前尚无成功的疫苗问世.为寻求可能用于RSV疫苗研制的重组蛋白抗原,我们在克隆RSV-A全长G蛋白基因的基础上,构建了多种共表达载体蛋白和G蛋白片段的表达载体,并从中筛选出能以可溶形式高效表达抗原蛋白的原核表达体系.通过亲和层析纯化了重组蛋白抗原DsbA-G101,将其免疫Balb/c小鼠后获得了相应的抗血清.经ELISA检测表明DsbA-G101具有良好的免疫原性.基于本研究所构建的系列表达载体,可以比较不同的G蛋白片段免疫原性的强弱及载体蛋白的优劣,从中发现最佳的RSV抗原蛋白.     

呼吸道合胞病毒G蛋白基因片段的克隆及高效表达

呼吸道合胞病毒(RSV)感染遍布全球,并可导致严重的疾病,但目前尚无成功的疫苗问世。为寻求可能用于RSV疫苗研制的重组蛋白抗原,我们在克隆RSV-A全长G蛋白基因的基础上,构建了多种共表达载体蛋白和G蛋白片段的表达载体,并从中筛选出能以可溶形式高效表达抗原蛋白的原核表达体系。通过亲和层析纯化了重组蛋白抗原DsbA-G101,将其免疫Balb／c小鼠后获得了相应的抗血清。经ELISA检测表明DsbA-G101具有良好的免疫原性。基于本研究所构建的系列表达载体,可以比较不同的G蛋白片段免疫原性的强弱及载体蛋白的优劣,从中发现最佳的RSV抗原蛋白。     

表达HIV多价抗原的重组痘苗病毒的构建及免疫效果研究

为了构建适用于中国的HIV候选疫苗,利用痘苗病毒天坛株表达中国HIV-1主要流行毒株CN54的gagpol△和gpl40TM基因。实验结果显示,重组痘苗病毒能正确表达Gag和gpl40TM蛋白。获得的重组痘苗病毒与DNA疫苗、重组腺病毒联合免疫Balb／c小鼠,并检测不同免疫程序在小鼠中诱导的细胞和体液免疫。免疫实验表明,DNA疫苗初始免疫,重组腺病毒与重组痘苗病毒依次加强所诱导的CTL应答、T淋巴细胞增殖以及中和抗体均高于其他免疫方案。DNA疫苗与两种活载体疫苗的联合运用,在小动物模型中取得了较好的免疫效果,这将为艾滋病疫苗的研究增加新的免疫策略。     

基于甲病毒的RNA复制子疫苗

RNA复制子疫苗利用源自病毒能够自主复制的RNA,结构蛋白基因由外源抗原基因取代,保留了非结构蛋白基因,非结构蛋白可控制载体RNA在胞浆中高水平复制和外源基因的高水平表达。RNA复制子疫苗克服了传统疫苗和普通DNA疫苗存在的缺点,具有免疫效果显著、安全性好、应用范围广等优点,具有很好的应用前景。用于RNA复制子疫苗的载体主要源自甲病毒,本文以甲病毒载体为例,简要阐明RNA复制子疫苗的基本原理和特点,并对其应用作一综述。     

细菌菌影在DNA疫苗研究中的作用

免疫应答水平低下是制约DNA疫苗发展的一个障碍。细菌菌影(bacterialghost,BG)是利用φX174噬菌体的裂解蛋白将革兰氏阴性细菌裂解后形成的空腔,它保留了细菌结构的完整性,具有免疫佐剂的特性,可以作为递送载体,靶向性的将DNA疫苗导入到抗原递呈细胞,从而提高DNA疫苗的免疫应答水平,此外,装载核酸疫苗的细菌菌影可以通过多种方式进行免疫,例如,肌肉注射、皮下注射、口服、黏膜免疫等,更是从根本上提高了DNA疫苗的免疫水平,因此可以说BG是一个极具潜力的核酸疫苗递送载体。现就BG的特性及其在DNA疫苗递送载体中应用的最新进展做一综述。     

Enhancement of the protective efficacy of an oprF DNA vaccine against Pseudomonas aeruginosa

The outer membrane protein F gene (oprF) of Pseudomonas aeruginosa was recently shown by us to protect mice from P. aeruginosa chronic pulmonary infection when used as a DNA vaccine administered by three biolistic (gene gun) intradermal inoculations given at 2-week intervals. In the present study, we used two different strategies to improve the protective efficacy of the DNA vaccine. In the first strategy, mice were primed with two biolistic intradermal inoculations with the oprF vaccine and then were given a final intramuscular booster immunization containing either a synthetic peptide-keyhole limpet hemocyanin (KLH) conjugate or a chimeric influenza virus. Both the synthetic peptide conjugate and the chimeric virus contained peptide 10, a previously identified immunoprotective epitope of protein F. The second strategy involved the addition of a second outer membrane protein to the vaccine. DNA encoding a fusion protein comprised of the C-terminal half of protein F fused to OprI was administered by three biolistic intradermal inoculations. Challenge with P. aeruginosa in a chronic pulmonary infection model demonstrated that boosting with the chimeric virus (but not with peptide-KLH) or adding oprI to the DNA vaccine significantly enhanced protection as compared to that afforded by the oprF vaccine given alone. Thus, both strategies appear to augment the protection afforded by an oprF-only DNA vaccine.     

Improved cellular immune response elicited by a ubiquitin-fused ESAT-6 DNA vaccine against Mycobacterium tuberculosis

The present study evaluated the immune response elicited by a ubiquitin-fused ESAT-6 DNA vaccine against Mycobacterium tuberculosis. BALB/c mice were vaccinated with plasmid DNA encoding ESAT-6 protein, ubiquitin-fused ESAT-6 DNA vaccine (UbGR-ESAT-6), pcDNA3-ubiquitin and blank vector, respectively. ESAT-6 DNA vaccine immunization induced a Thl-polarized immune response. The production of Thl-type cytokine (IFN-γ) and proliferative T-cell responses was enhanced significantly in mice immunized with UbGR-ESAT-6 fusion DNA vaccine, compared to non-fusion DNA vaccine. This fusion DNA vaccine also resulted in an increased relative ratio of IgG_2a to IgG_l and the cytotoxicity of T cells. Thus, the present study demonstrated that the UbGR-ESAT-6 fusion DNA vaccine inoculation improved antigen-specific cellular immune responses, which is helpful for protection against tuberculosis infection.     

Protection against Atlantic halibut nodavirus in turbot is induced by recombinant capsid protein vaccination but not following DNA vaccination

Fish nodaviruses (betanodaviruses) are small, non-enveloped icosahedral single-stranded positive-sense RNA viruses that can cause viral encephalopathy and retinopathy (VER) in a number of cultured marine teleost species, including Atlantic halibut (Hippoglossus hippoglossus). A recombinant protein vaccine and a DNA vaccine were produced, based on the same capsid-encoding region of the Atlantic halibut nodavirus (AHNV) genome, and tested for protection in juvenile turbot (Scophthalmus maximus). Vaccine efficacy was demonstrated in the fish vaccinated with recombinant capsid protein but not in the DNA-vaccinated fish, despite the fact that in vivo expression of the DNA vaccine-encoded antigen was confirmed by RNA in situ hybridisation and immunohistochemistry. Combined DNA and recombinant vaccine administration did not improve the effect of the latter. Surprisingly, fish vaccinated with 50 microg recombinant protein demonstrated a threefold lower survival rate than the two groups that received 10 microg recombinant protein. Neither the recombinant protein vaccine nor the DNA vaccine induced anti-viral antibodies 9 weeks after immunisation, while antibodies reactive with the recombinant protein were detectable mainly in fish vaccinated with 50 microg recombinant protein. The study also demonstrates evidence of viral replication inside the myocytes of intramuscularly challenged fish.     

牛疱疹病毒Ⅰ型VP22和猪繁殖与呼吸综合征病毒GP5融合基因DNA疫苗的免疫效应

为了提高表达GP5的猪繁殖与呼吸综合征病毒（PRRSV）DNA疫苗的免疫效应,将具有蛋白转导功能的牛疱疹病毒1型（BHV-1）VP22基因插入到经过修饰具有更好免疫原性的PRRSV修饰型ORF5基因（ORF5M）上游,构建VP22和ORF5M融合表达的真核表达质粒pCI-VP22-ORF5M。经间接免疫荧光试验（IFA）和Westernblot检测证实体外表达后,免疫BALB/c小鼠,检测小鼠免疫后的GP5特异性ELISA抗体、抗PRRSV中和抗体和脾淋巴细胞增殖反应,并与非融合的真核表达质粒pCI-ORF5M进行比较。结果显示,融合表达VP22-GP5的DNA疫苗 pCI-VP22ORF5M诱导的体液免疫和细胞免疫反应均明显高于非融合表达的DNA疫苗pCI-ORF5M,表明蛋白转导相关蛋白BHV-1 VP22能显著增强表达GP5的PRRSV DNA 疫苗的免疫效应,有效发挥了基因免疫佐剂效应;这为研制PRRSV高效DNA疫苗奠定了基础,同时也为其它疾病的高效新型疫苗研究提供了思路。     

Improved cellular immune response elicited by a ubiquitin-fused DNA vaccine against Mycobacterium tuberculosis

This study evaluated the immune response elicited by a ubiquitin (Ub)-fused MPT64 DNA vaccine against Mycobacterium tuberculosis. BALB/c mice were vaccinated with plasmid DNA encoding MPT64 protein, Ub-fused MPT64 DNA vaccine (UbGR-MPT64), and negative DNA vaccines, respectively. MPT64 DNA vaccine immunization induced a Thl-polarized immune response. The production of Thl-type cytokine (interferon-gamma [IFN-γ]) and proliferative T cell responses were enhanced significantly in mice immunized with UbGR-MPT64 fusion DNA vaccine, compared with nonfusion DNA vaccine. Moreover, this fusion DNA vaccine also resulted in an increased relative ratio of IgG2a to IgGl and the cytotoxicity of T cells. IFN-γ intracellular staining of splenocytes indicated that UbGR-mpt64 fusion DNA vaccine activated CD4+ and CD8+ T cells, particularly CD8+ T cells. Thus, this study demonstrated that the UbGR-MPT64 fusion DNA vaccine inoculation could improve antigen-specific cellular immune responses, which is helpful for protection against TB.     

Comparison of immune responses against FMD by a DNA vaccine encoding the FMDV/O/IRN/2007 VP1 gene and the conventional inactivated vaccine in an animal model

Foot-and-mouth disease virus (FMDV) is highly contagious and responsible for huge outbreaks among cloven hoofed animals. The aim of the present study is to evaluate a plasmid DNA immunization system that expresses the FMDV/O/IRN/2007 VP1 gene and compare it with the conventional inactivated vaccine in an animal model. The VP1 gene was sub-cloned into the unique Kpn I and BamH I cloning sites of the pcDNA3.1+ and pEGFP-N1 vectors to construct the VP₁ gene cassettes. The transfected BHKT7 cells with sub-cloned pEGFP-N1-VP1 vector expressed GFP-VP1 fusion protein and displayed more green fluorescence spots than the transfected BHKT7 cells with pEGFP-N1 vector, which solely expressed the GFP protein. Six mice groups were respectively immunized by the sub-cloned pcDNA3.1⁺-VP1 gene cassette as the DNA vaccine, DNA vaccine and PCMV-SPORT-GMCSF vector (as molecular adjuvant) together, conventional vaccine, PBS (as negative control), pcDNA3.1⁺ vector (as control group) and PCMV-SPORT vector that contained the GMCSF gene (as control group). Significant neutralizing antibody responses were induced in the mice which were immunized using plasmid vectors expressing the VP1 and GMCSF genes together, the DNA vaccine alone and the conventional inactivated vaccine (P<0.05). Co-administration of DNA vaccine and GMCSF gene improved neutralizing antibody response in comparison with administration of the DNA vaccine alone, but this response was the most for the conventional vaccine group. However, induction of humeral immunity response in the conventional vaccine group was more protective than for the DNA vaccine, but T-cell proliferation and IFN-γ concentration were the most in DNA vaccine with the GMCSF gene. Therefore the group that was vaccinated by DNA vaccine with the GMCSF gene, showed protective neutralizing antibody response and the most Th1 cellular immunity.     

Identification and evaluation of an outer membrane protein OmpU from a pathogenic Vibrio harveyi isolate as vaccine candidate in turbot (Scophthalmus maximus)

Aims: The main aims of this study were to clone and express a new outer membrane protein U (OmpU) from a pathogenic Vibrio harveyi SF‐1 and investigate its immune efficiency as a vaccine candidate against V. harveyi infection in turbot (Scophthalmus maximus). Methods and Results: In this study, a new gene, ompU was cloned from the genomic DNA of pathogenic V. harveyi SF‐1. The ompU gene encoded a 35 kDa protein, which was purified by Ni‐NTA His‐Bind Resin column. A DNA vaccine was constructed by inserting ompU gene into pEGFP‐N1 plasmid. Turbot were injected intramuscularly with the purified OmpU protein and the recombinant pEGFP‐N1/ompU plasmid, respectively. The fish vaccinated with the purified OmpU protein were completely protected with a relative per cent of survival (RPS) of 100% against pathogenic V. harveyi infection. Efficient protection was also found in the pEGFP‐N1/ompU vaccinated group, with a RPS of 51·4%. Significant specific antibody responses were detected in the vaccinated turbot by indirect enzyme‐linked immunosorbent assay. Conclusions: A new OmpU was cloned and expressed. Both OmpU protein vaccine and DNA vaccine showed good immune protections in turbot. Significance and Impact of the Study: The OmpU was identified to be a new effective vaccine candidate and could be used as subunit vaccine and DNA vaccine for disease control caused by pathogenic V. harveyi.     

鸡传染性喉气管炎病毒gB基因重组DNA疫苗的构建与免疫试验

本研究构建了编码ILTV主要抗原gB基因的重组DNA疫苗pcDNA-gB,质粒转染293-T细胞的间接免疫表明其表达的蛋白具有免疫反应性。为测定该DNA疫苗的免疫效果,将其与本室保存的重组鸡痘病毒rFPV-gB-gD-IgY分别以单独和混合的方式给4周龄非免疫鸡进行免疫,然后测定ILTV特异性抗体和T淋巴细胞增殖反应。结果表明这2种基因工程疫苗均能诱导鸡产生特异性的体液免疫及细胞免疫应答。其中以pcDNA-gB/rFPV-gB-gD-IgY联合免疫组的效果最好,其诱导的抗体水平已接近于常规弱毒疫苗,而细胞免疫水平则比后者高得多。上述研究结果为ILTV新型疫苗的研究奠定了基础。     

Comparison of protective effect of protein and DNA vaccines hsp90 in murine model of systemic candidiasis

Preventive vaccination by a hsp90-expressing DNA vaccine and recombinant hsp90 protein vaccine, both derived from the Candida albicans hsp90 using BALB-c mouse model of systemic candidiasis, was performed. Hsp90 mRNA was cloned from a clinical isolate of C. albicans, converted to cDNA and cloned into vaccination plasmid pVAX1. Two methods of DNA application were tested: intramuscular (i.m.) and intradermal (i.d.) injection. Recombinant protein was applied by i.d. injection with Freund's adjuvant; the control groups received PBS or Freund's adjuvant only. Mice were vaccinated and after 19 d re-vaccinated. After 3 weeks, the mice were challenged with the live C. albicans in a dose of 5 x 10(6) CFU per mouse. After the challenge, the mice vaccinated i.d. with DNA vaccine survived for 39 and 64% longer compared to those receiving Freund's adjuvant and/or PBS, respectively. The i.m. application of the DNA vaccine did not provide any significant protectivity. The serum level of anti-candida-hsp90 serum IgG antibodies correlated with the survival rate in both i.d. protein and DNA vaccination approaches. We stressed the importance of specific humoral immunity in the mouse model of systemic candidiasis.