Mealey Robert H, Leib Steven R, Littke Matt H, Wagner Bettina, Horohov David W, McGuire Travis C
Department of Veterinary Microbiology and Pathology, Washington State University, Pullman, 99164-7040, United States.
Vaccine. 2009 Apr 21;27(18):2453-68. doi: 10.1016/j.vaccine.2009.02.048. Epub 2009 Feb 24.
Effective DNA-based vaccines against lentiviruses will likely induce CTL against conserved viral proteins. Equine infectious anemia virus (EIAV) infects horses worldwide, and serves as a useful model for lentiviral immune control. Although attenuated live EIAV vaccines have induced protective immune responses, DNA-based vaccines have not. In particular, DNA-based vaccines have had limited success in inducing CTL responses against intracellular pathogens in the horse. We hypothesized that priming with a codon-optimized plasmid encoding EIAV Gag p15/p26 with co-administration of a plasmid encoding an equine IL-2/IgG fusion protein as a molecular adjuvant, followed by boosting with a vaccinia vector expressing Gag p15/p26, would induce protective Gag-specific CTL responses. Although the regimen induced Gag-specific CTL in four of seven vaccinated horses, CTL were not detected until after the vaccinia boost, and protective effects were not observed in EIAV challenged vaccinates. Unexpectedly, vaccinates had significantly higher viral loads and more severe clinical disease, associated with the presence of vaccine-induced CTL. It was concluded that (1) further optimization of the timing and route of DNA immunization was needed for efficient CTL priming in vivo, (2) co-administration of the IL-2/IgG plasmid did not enhance CTL priming by the Gag p15/p26 plasmid, (3) vaccinia vectors are useful for lentivirus-specific CTL induction in the horse, (4) Gag-specific CTL alone are either insufficient or a more robust Gag-specific CTL response is needed to limit EIAV viremia and clinical disease, and (5) CTL-inducing vaccines lacking envelope immunogens can result in lentiviral disease enhancement. Although the mechanisms for enhancement associated with this vaccine regimen remain to be elucidated, these results have important implications for development of lentivirus T cell vaccines.
有效的基于DNA的慢病毒疫苗可能会诱导针对保守病毒蛋白的细胞毒性T淋巴细胞(CTL)。马传染性贫血病毒(EIAV)感染全球范围内的马匹,是慢病毒免疫控制的有用模型。尽管减毒活EIAV疫苗已诱导出保护性免疫反应,但基于DNA的疫苗却没有。特别是,基于DNA的疫苗在诱导马匹针对细胞内病原体的CTL反应方面取得的成功有限。我们假设,先用编码EIAV Gag p15/p26的密码子优化质粒进行初次免疫,并同时给予编码马IL-2/IgG融合蛋白的质粒作为分子佐剂,然后用表达Gag p15/p26的痘苗病毒载体进行加强免疫,会诱导出保护性的Gag特异性CTL反应。尽管该方案在七匹接种疫苗的马匹中有四匹诱导出了Gag特异性CTL,但直到痘苗病毒加强免疫后才检测到CTL,并且在EIAV攻击的接种动物中未观察到保护作用。出乎意料的是,接种动物的病毒载量显著更高,临床疾病更严重,这与疫苗诱导的CTL的存在有关。得出的结论是:(1)为了在体内有效启动CTL,需要进一步优化DNA免疫的时间和途径;(2)IL-2/IgG质粒的共同给药并未增强Gag p15/p26质粒对CTL的启动作用;(3)痘苗病毒载体可用于在马中诱导慢病毒特异性CTL;(4)单独的Gag特异性CTL要么不足以限制EIAV病毒血症和临床疾病,要么需要更强有力的Gag特异性CTL反应;(5)缺乏包膜免疫原的CTL诱导疫苗可能会导致慢病毒疾病加重。尽管与该疫苗方案相关的增强机制仍有待阐明,但这些结果对慢病毒T细胞疫苗的开发具有重要意义。
