EIAV弱毒疫苗免疫马外周血单核细胞IL-2表达水平的研究

目的:通过定量监测马传染性贫血病毒(EIAV)弱毒疫苗免疫马外周血单核细胞(PBMC)IL-2表达水平的变化特征,探讨EIAV弱毒疫苗的免疫保护机制。方法:用实时定量RT-PCR技术建立了马外周血PBMCIL-2表达水平的定量检测方法。在不同的时间点定期对4组(疫苗免疫组、健康对照组、强毒攻毒组和EIAV自然感染组)12匹马的外周血PBMCIL-2表达水平进行了检测,同时观察了临床症状及体温变化等指标。疫苗株免疫动物8个月后用强毒攻毒,观察了攻毒前后IL-2表达水平的变化。结果:(1)疫苗免疫马外周血PBMCIL-2的表达量显著高于健康对照组及自然感染组(P<0.01),且免疫后攻毒IL2继续升高,4匹疫苗免疫马均获得完全保护;(2)强毒攻毒对照组IL2表达量随疾病进展波动,发热期明显下降。结论:首次证明EIAV弱毒疫苗可诱导马外周血PBMC表达高水平的IL-2,提示IL-2在疫苗的免疫保护应答中发挥了重要作用;IL-2表达水平还与EIAV感染后的疾病进展密切相关。     

马传染性贫血病毒弱毒疫苗株与亲本强毒株的体内病毒载量与诱导保护性免疫关系的研究

慢病毒免疫应答的载量阈值学说认为病毒载量决定了机体对病毒反应的类型。为了探讨马传染性贫血病毒(EIAV)血浆病毒载量与马体免疫保护的相关性,本研究利用Real-time RT-PCR方法对EIAV弱毒疫苗株(EIA-VDLV125)免疫马和EIAV强毒株(EIAVLN40)非致死剂量接种马血浆中病毒载量进行了动态比较。结果显示两组马在监测过程中皆可检测到相似水平的病毒载量(103～105copies/mL),且两者之间差异不显著(P0.05)。以上毒株接种23周后,对马匹进行了强毒株(EIAVLN40)的致死剂量攻毒,根据攻毒后典型马传贫急性发病与否确定接种保护率。结果显示,疫苗组的保护率为67%而非致死剂量强毒组的保护率为0。以上结果提示,病毒血浆载量不是决定EIAV弱毒疫苗诱导免疫保护能力的主要或单一因素。     

T细胞IFN-g表达水平检测方法的建立及其在马传染性 贫血疫苗免疫机理研究中的应用

[目的]马传染性贫血病毒(EIAV)弱毒疫苗致弱机制和免疫保护机理的研究可以为慢病毒疫苗的研究提供重要的模型.为探讨IFN-γ表达水平与疫苗保护性免疫的关系,本研究旨在建立一种准确、有效地检测EIAV感染马不同T细胞亚型表达IFN-γ水平的方法.[方法]我们将分离的马传贫弱毒疫苗免疫马(FDDV)、强毒感染马(LV)和健康马的外周血单核细胞(PBMC),体外分别经病毒(FDDV)和PMA/Inomycin激活、 BFA 阻断蛋白分泌、荧光标记马的特异性表面抗体和IFN-γ抗体等过程后,进行流式检测.[结果]疫苗免疫马产生的特异性IFN-γ水平为CD4 1.7(0.9%/CD8 6.1(1.2%,而强毒组则为CD4 0.6(0.1%/CD8 2.4(0.9%.[结论]本研究建立的多荧光参数流式细胞术同时检测细胞内IFN-γ染色和淋巴细胞亚型的方法,具有良好的特异性,稳定性和重复性.为研究EIAV弱毒疫苗免疫保护机制奠定了基础.     

马传染性贫血病毒弱毒疫苗株跨膜蛋白截短突变对其体外复制特性影响

马传染性贫血病毒(EIAV)减毒疫苗是世界首例慢病毒疫苗,但其作用机理尚不明了.研究发现,EIAV疫苗株EIAVFDDV12的跨膜蛋白gp45在马体内发生高频率261W位点翻译终止突变,使该蛋白质C端出现154个氨基酸的截短.为了探讨该截短对EIAV疫苗株生物学特性的作用,以EIAV弱毒疫苗株感染性克隆为骨干,构建了gp45截短型感染性病毒株,检测该截短突变对EIAV疫苗株在体外培养的马外周血单核细胞由来的巨噬细胞(MDM)、驴MDM和驴胎皮细胞(FDD)中的复制.实验结果表明,gp45截短型毒株在马和驴MDM中复制能力比未截短型毒株显著降低(P<0.01),特别是在马MDM中此差异更明显.相反,截短型毒株在FDD中的复制能力则显著高于未截短型毒株(P<0.01).此外,结果显示gp45截短型毒株在马MDM中的低水平复制降低了EIAV对其靶细胞诱导的凋亡.以上结果提示,EIAV疫苗的gp45截短型毒株是适应在体外FDD细胞中传代致弱的变异,该变异导致疫苗株在EIAV体内主要靶细胞巨噬细胞中复制能力的降低,导致毒力进一步减弱.     

马传染性贫血病毒弱毒疫苗致弱及免疫保护机制研究进展

马传染性贫血病毒(equine infectious anemia virus, EIAV)弱毒疫苗是中国科学家在20世纪70年代研制成功的世界上首例慢病毒疫苗,是迄今为止唯一在临床大规模应用的慢病毒弱毒疫苗。EIAV弱毒疫苗的成功应用不仅消除了该疫病对马业的威胁,而且在学术上突破了慢病毒不能免疫的理论。该疫苗克服了灭活疫苗免疫原性差的难点,能有效地提供对同源和异源毒株的免疫保护。因此,在分子水平上阐明EIAV弱毒疫苗的减毒机理和免疫保护机制对于研究慢病毒免疫保护具有极其重要的科学意义。作者所在的研究团队多年来一直从事EIAV弱毒疫苗的致弱机理及其诱导免疫保护机制的研究,解析了EIAV弱毒疫苗及其强毒株的基因组进化特征、揭示了疫苗致弱规律和疫苗有效组成、提出了"EIAV弱毒疫苗可能起源于EIAV准种的一个小分支"的假说;发现EIAV弱毒疫苗可有效激活天然免疫和特异性免疫,早期诱导的高水平细胞免疫与免疫保护呈正相关;证明了疫苗株的抗原多样性组成是其诱导保护性免疫应答的关键因素。相关研究成果拓展了慢病毒疫苗研究理论和实践认知,可为其他慢病毒尤其是HIV-1免疫原的设计以及免疫保护理论提供有价值的参考。     

拼接信号序列单碱基变异提高马传染性贫血病毒mRNA拼接效率

分别以马传染性贫血(马传贫)驴强毒(D—A EIAV)RNA和马传贫驴白细胞弱毒疫苗(DLA EIAV)RNA为模板,利用RT—PCR的方法,克隆到马传贫强、弱毒株基因组外显子2及其下游的核苷酸序列。然后将报告基因CAT插入到EIAV内含子2env阅读框架中,构成CAT拼接报告系统。同时在强毒株重组表达质粒的基础上,将其外显子-3上游拼接受体位点的核苷酸序列CAG突变为弱毒株相应位置的核苷酸序列TAG,得到强毒单核苷酸突变株重组表达质粒。用构建的3个重组表达质粒DNA转染驴血白细胞,ELISA检测转染细胞CAT浓度。结果表明：EIAV强毒株重组表达质粒中CAT蛋白表达量最高,EIAV强毒株重组表达质粒次之,EIAV强毒突变株重组表达质粒最低。由于CAT基因被插入于各重组质粒中的EIAV内含子-2里,EIAV外显子-2、3之间的拼接可导致该基因的删除,因而其拼接效率低于EIAVmRNA外显子-2、3之间的拼接效率。实验数据表明,EIAV SA2拼接信号序列单碱基变异提高了SD2-SA2拼接效率;D—AEIAV SA2-SD2拼接效率比DLA EIAV相应位点拼接效率高。     

马传染性贫血病毒强、弱毒株dUTPase结构与酶活性比较

为研究尿嘧啶脱氧核糖核苷三磷酸酶(dUTPase)在马传染性贫血病毒(equine infectous anemia virus,EIAV)致弱过程中的作用,探索dUTPase结构与功能的关系,分别对EIAV强、弱毒株dUTPase的编码基因进行了结构分析,并在大肠杆菌中进行了表达.经镍-次氮基三乙酸(Ni-NTA)金属亲合层析方法对表达产物纯化后,用3H标记底物的方法测定了重组强、弱毒株dUTPase的活性.证明所表达的两种重组dUTPase均具有水解dUTP的功能,但重组弱毒株dUTPase的活性显著高于重组强毒株dUTPase的活性.结果提示,由于EIAV疫苗株在驴白细胞上连续传代培养,使病毒dUTPase的活性增强和复制能力提高,而决定酶活性改变的分子基础是dUTPase编码基因中的两个氨基酸发生了突变.此结果对其它慢病毒病的免疫预防具有重要参考价值.     

表达马传染性贫血病毒受体和荧光素酶报告基因的293细胞系的建立

为了在体外精确、简便地测定马传染性贫血病毒(EIAV)的中和抗体和研究不同毒株与受体的亲和性,克隆了马慢病毒受体1(ELR1)cDNA并插入真核表达载体pcDNA3.1( ),构建了表达载体pELR1。该载体瞬时转染293细胞后,经Western blot和间接免疫荧光(IFA)检测,确认了ELR1的表达。在pELR1质粒的基础上,插入EIAV疫苗株前病毒基因组转录调控区LTR以及萤火虫荧光素酶报告基因(Luc)构建了表达载体pELR1-LTR-Luc,并转染293细胞,建立了ELR1-LTR-Luc(293-E)细胞系。该细胞系能稳定表达ELR1基因,并且能在LTR的调控下表达萤火虫荧光素酶基因。用1000TCID50的EIAV驴胎皮肤细胞疫苗株D18V13接种该细胞,24h后检测其荧光素酶活性是未接毒对照的3.15倍。同时用IFA检测证明了病毒在细胞内的增殖。EIAV强毒株L21的接毒试验显示,ELR1-LTR(293-E)细胞的萤火虫荧光素酶活性与该毒株的接毒量在10-2~10-7稀释范围内呈正相关。该细胞系传35代后,外源基因的表达特征未发生改变。该细胞系的建立为进一步开展EIAV与细胞受体相互作用以及中和抗体评价等研究奠定了重要基础。     

马传染性贫血病毒美洲流行株与我国弱毒疫苗株鉴别诊断方法的研究

马传染性贫血病毒(Equine infectious anemia virus,EIAV)是反转录病毒科慢病毒属的成员,是马传染性贫血病的病原.二十世纪七十年代我国就研制出马传染性贫血驴白细胞弱毒疫苗,成为世界第一个成功地应用该疫苗控制了我国的马传贫的发生[1].而且我国的马传贫弱毒疫苗对异源的美国、古巴和阿根廷等毒株也有很高的保护率[2].因此将我国的马传贫驴细胞弱毒疫苗推向国际市场成为可能.然而目前制约该苗出口的技术问题是现行的OIE推荐的琼脂扩散实验和ELISA等血清学方法不能鉴别自然感染马与我国弱毒疫苗免疫马,针对这个关键问题,本试验采用PCR方法初步建立了一种能够鉴别美洲(美国和阿根廷)流行毒株感染马和我国弱毒疫苗免疫马的实验室检测方法,为我国疫苗能在世界范围内应用提供了配套技术.     

表达HBHA和hIL-12融合蛋白的重组耻垢分枝杆菌在小鼠体内诱导的免疫应答及保护力

目的:测定表达肝素结合血凝素(HBHA)和人白细胞介素12(hIL-12)融合蛋白的重组耻垢分枝杆菌在小鼠体内诱导产生的免疫应答及对结核分枝杆菌感染的保护作用。方法:将表达HBHA和hIL-12融合蛋白的重组耻垢分枝杆菌采用同源加强免疫的方法免疫小鼠,检测小鼠外周血中IFN-γ、IL-2和IL-12的表达水平;用结核分枝杆菌感染免疫小鼠,检测小鼠肺部荷菌量和组织病理变化。结果:表达HBHA和hIL-12融合蛋白的重组耻垢分枝杆菌诱导小鼠产生以IFN-γ、IL-2分泌量增加为主的Th1型免疫应答,并能有效减少感染小鼠肺部结核分枝杆菌的荷菌量和病理损伤。结论:表达HBHA和hIL-12融合蛋白的重组耻垢分枝杆菌免疫小鼠可诱导产生与卡介苗相当的保护作用,可能成为控制结核病的有效疫苗。     

马传染性贫血病毒美洲流行株与我国弱毒疫苗株鉴别诊断方法的研究

马传染性贫血病毒(Equine infectious anemia virus,EIAV)是反转录病毒科慢病毒属的成员,是马传染性贫血病的病原。二十世纪七十年代我国就研制出马传染性贫血驴白细胞弱毒疫苗,成为世界第一个成功地应用该疫苗控制了我国的马传贫的发生[1]。而且我国的马传贫弱毒疫苗对异源的美国、古巴和阿根廷等毒株也有很高的保护率[2]。因此将我国的马传贫驴细胞弱毒疫苗推向国际市场成为可能。然而目前制约该苗出口的技术问题是现行的OIE推荐的琼脂扩散实验和ELISA等血清学方法不能鉴别自然感染马与我国弱毒疫苗免疫马,针对这个关键问题,本试验…     

A live attenuated equine infectious anemia virus proviral vaccine with a modified S2 gene provides protection from detectable infection by intravenous virulent virus challenge of experimentally inoculated horses

Previous evaluations of inactivated whole-virus and envelope subunit vaccines to equine infectious anemia virus (EIAV) have revealed a broad spectrum of efficacy ranging from highly type-specific protection to severe enhancement of viral replication and disease in experimentally immunized equids. Among experimental animal lentivirus vaccines, immunizations with live attenuated viral strains have proven most effective, but the vaccine efficacy has been shown to be highly dependent on the nature and severity of the vaccine virus attenuation. We describe here for the first time the characterization of an experimental attenuated proviral vaccine, EIAV(UK)deltaS2, based on inactivation of the S2 accessory gene to down regulate in vivo replication without affecting in vitro growth properties. The results of these studies demonstrated that immunization with EIAV(UK)deltaS2 elicited mature virus-specific immune responses by 6 months and that this vaccine immunity provided protection from disease and detectable infection by intravenous challenge with a reference virulent biological clone, EIAV(PV). This level of protection was observed in each of the six experimental horses challenged with the reference virulent EIAV(PV) by using a low-dose multiple-exposure protocol (three administrations of 10 median horse infectious doses [HID(50)], intravenous) designed to mimic field exposures and in all three experimentally immunized ponies challenged intravenously with a single inoculation of 3,000 HID(50). In contrast, na?ve equids subjected to the low- or high-dose challenge develop a detectable infection of challenge virus and acute disease within several weeks. Thus, these data demonstrate that the EIAV S2 gene provides an optimal site for modification to achieve the necessary balance between attenuation to suppress virulence and replication potential to sufficiently drive host immune responses to produce vaccine immunity to viral exposure.     

马传染性贫血病毒非编码区LTR嵌合克隆的生物学特性

将已构建的马传染性贫血病毒LTR强弱毒嵌合克隆衍生毒vLGFD9-12体内接种健康试验马,在150d观察期内,各组试验动物体症均未见异常。血液学分析发现,vLGFD9-12嵌合克隆衍生病毒与亲本弱毒疫苗株的白细胞与血红蛋白含量总体上没有明显的规律性的变化。在动物外周血中均检测到一定的病毒RNA拷贝数,但拷贝数较低。二者在诱导EIAV特异性淋巴细胞增殖功能和特异性细胞毒性杀伤反应中,亦具有相似的变化趋势和效应。本项研究为进一步确定我国马传贫弱毒疫苗株毒力致弱及免疫保护的分子机制奠定了重要的分子生物学基础。     

Envelope determinants of equine infectious anemia virus vaccine protection and the effects of sequence variation on immune recognition

A highly effective attenuated equine infectious anemia virus (EIAV) vaccine (EIAV(D9)) capable of protecting 100% of horses from disease induced by a homologous Env challenge strain (EIAV(PV)) was recently tested in ponies to determine the level of protection against divergent Env challenge strains (J. K. Craigo, B. S. Zhang, S. Barnes, T. L. Tagmyer, S. J. Cook, C. J. Issel, and R. C. Montelaro, Proc. Natl. Acad. Sci. USA 104:15105-15110, 2007). An inverse correlation between challenge strain Env variation and vaccine protection from disease was observed. Given the striking differences in protective immunity, we hypothesized that analysis of the humoral and cellular immune responses to the Env protein could reveal potential determinants of vaccine protection. Neutralization activity against the homologous Env or challenge strain-specific Env in immune sera from the vaccinated ponies did not correlate with protection from disease. Cellular analysis with Env peptide pools did not reveal an association with vaccine protection from disease. However, when individual vaccine-specific Env peptides were utilized, eight cytotoxic-T-lymphocyte (CTL) peptides were found to associate closely with vaccine protection. One of these peptides also yielded the only lymphoproliferative response associated with protective immunity. The identified peptides spanned both variable and conserved regions of gp90. Amino acid divergence within the principal neutralization domain and the identified peptides profoundly affected immune recognition, as illustrated by the inability to detect cross-reactive neutralizing antibodies and the observation that certain peptide-specific CTL responses were altered. In addition to identifying potential Env determinants of EIAV vaccine efficacy and demonstrating the profound effects of defined Env variation on immune recognition, these data also illustrate the sensitivity offered by individual peptides compared to peptide pools in measuring cellular immune responses in lentiviral vaccine trials.     

Discerning an effective balance between equine infectious anemia virus attenuation and vaccine efficacy

Among the diverse experimental vaccines evaluated in various animal lentivirus models, live attenuated vaccines have proven to be the most effective, thus providing an important model for examining critical immune correlates of protective vaccine immunity. We previously reported that an experimental live attenuated vaccine for equine infectious anemia virus (EIAV), based on mutation of the viral S2 accessory gene, elicited protection from detectable infection by virulent virus challenge (F. Li et al., J. Virol. 77:7244-7253, 2003). To better understand the critical components of EIAV vaccine efficacy, we examine here the relationship between the extent of virus attenuation, the maturation of host immune responses, and vaccine efficacy in a comparative study of three related attenuated EIAV proviral vaccine strains: the previously described EIAV(UK)DeltaS2 derived from a virulent proviral clone, EIAV(UK)DeltaS2/DU containing a second gene mutation in the virulent proviral clone, and EIAV(PR)DeltaS2 derived from a reference avirulent proviral clone. Inoculations of parallel groups of eight horses resulted in relatively low levels of viral replication (average of 10(2) to 10(3) RNA copies/ml) and a similar maturation of EIAV envelope-specific antibody responses as determined in quantitative and qualitative serological assays. However, experimental challenge of the experimentally immunized horses by our standard virulent EIAV(PV) strain by using a low-dose multiple exposure protocol (three inoculations with 10 median horse infective doses, administered intravenously) revealed a marked difference in the protective efficacy of the various attenuated proviral vaccine strains that was evidently associated with the extent of vaccine virus attenuation, time of viral challenge, and the apparent maturation of virus-specific immunity.     

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。     

Protective Efficacy of Centralized and Polyvalent Envelope Immunogens in an Attenuated Equine Lentivirus Vaccine

Lentiviral Envelope (Env) antigenic variation and related immune evasion present major hurdles to effective vaccine development. Centralized Env immunogens that minimize the genetic distance between vaccine proteins and circulating viral isolates are an area of increasing study in HIV vaccinology. To date, the efficacy of centralized immunogens has not been evaluated in the context of an animal model that could provide both immunogenicity and protective efficacy data. We previously reported on a live-attenuated (attenuated) equine infectious anemia (EIAV) virus vaccine, which provides 100% protection from disease after virulent, homologous, virus challenge. Further, protective efficacy demonstrated a significant, inverse, linear relationship between EIAV Env divergence and protection from disease when vaccinates were challenged with viral strains of increasing Env divergence from the vaccine strain Env. Here, we sought to comprehensively examine the protective efficacy of centralized immunogens in our attenuated vaccine platform. We developed, constructed, and extensively tested a consensus Env, which in a virulent proviral backbone generated a fully replication-competent pathogenic virus, and compared this consensus Env to an ancestral Env in our attenuated proviral backbone. A polyvalent attenuated vaccine was established for comparison to the centralized vaccines. Additionally, an engineered quasispecies challenge model was created for rigorous assessment of protective efficacy. Twenty-four EIAV-naïve animals were vaccinated and challenged along with six-control animals six months post-second inoculation. Pre-challenge data indicated the consensus Env was more broadly immunogenic than the Env of the other attenuated vaccines. However, challenge data demonstrated a significant increase in protective efficacy of the polyvalent vaccine. These findings reveal, for the first time, a consensus Env immunogen that generated a fully-functional, replication-competent lentivirus, which when experimentally evaluated, demonstrated broader immunogenicity that does not equate to higher protective efficacy.