Chambers Thomas J, Liang Yan, Droll Deborah A, Schlesinger Jacob J, Davidson Andrew D, Wright Peter J, Jiang Xiaoshan
Department of Molecular Microbiology and Immunology, St. Louis University School of Medicine, St. Louis, Missouri 63104, USA.
J Virol. 2003 Mar;77(6):3655-68. doi: 10.1128/jvi.77.6.3655-3668.2003.
Two yellow fever virus (YFV)/dengue virus chimeras which encode the prM and E proteins of either dengue virus serotype 2 (dengue-2 virus) or dengue-4 virus within the genome of the YFV 17D strain (YF5.2iv infectious clone) were constructed and characterized for their properties in cell culture and as experimental vaccines in mice. The prM and E proteins appeared to be properly processed and glycosylated, and in plaque reduction neutralization tests and other assays of antigenic specificity, the E proteins exhibited profiles which resembled those of the homologous dengue virus serotypes. Both chimeric viruses replicated in cell lines of vertebrate and mosquito origin to levels comparable to those of homologous dengue viruses but less efficiently than the YF5.2iv parent. YFV/dengue-4 virus, but not YFV/dengue-2 virus, was neurovirulent for 3-week-old mice by intracerebral inoculation; however, both viruses were attenuated when administered by the intraperitoneal route in mice of that age. Single-dose inoculation of either chimeric virus at a dose of 10(5) PFU by the intraperitoneal route induced detectable levels of neutralizing antibodies against the homologous dengue virus strains. Mice which had been immunized in this manner were fully protected from challenge with homologous neurovirulent dengue viruses by intracerebral inoculation compared to unimmunized mice. Protection was associated with significant increases in geometric mean titers of neutralizing antibody compared to those for unimmunized mice. These data indicate that YFV/dengue virus chimeras elicit antibodies which represent protective memory responses in the mouse model of dengue encephalitis. The levels of neurovirulence and immunogenicity of the chimeric viruses in mice correlate with the degree of adaptation of the dengue virus strain to mice. This study supports ongoing investigations concerning the use of this technology for development of a live attenuated viral vaccine against dengue viruses.
构建了两种黄热病毒(YFV)/登革病毒嵌合体,它们在YFV 17D株(YF5.2iv感染性克隆)的基因组内编码登革病毒血清型2(登革-2病毒)或登革-4病毒的prM和E蛋白,并对其在细胞培养中的特性以及作为小鼠实验疫苗的特性进行了表征。prM和E蛋白似乎得到了正确的加工和糖基化,在蚀斑减少中和试验和其他抗原特异性测定中,E蛋白表现出与同源登革病毒血清型相似的特征。两种嵌合病毒在脊椎动物和蚊子来源的细胞系中复制,其水平与同源登革病毒相当,但效率低于YF5.2iv亲本。通过脑内接种,YFV/登革-4病毒对3周龄小鼠具有神经毒性,而YFV/登革-2病毒则没有;然而,当以腹腔注射途径给该年龄的小鼠接种时,两种病毒均减毒。通过腹腔注射途径以10(5) PFU的剂量单剂量接种任何一种嵌合病毒,均可诱导出可检测水平的针对同源登革病毒株的中和抗体。与未免疫的小鼠相比,以这种方式免疫的小鼠通过脑内接种可完全免受同源神经毒性登革病毒的攻击。与未免疫的小鼠相比,保护作用与中和抗体几何平均滴度的显著增加有关。这些数据表明,YFV/登革病毒嵌合体在登革热脑炎小鼠模型中引发了具有保护性记忆反应的抗体。嵌合病毒在小鼠中的神经毒性和免疫原性水平与登革病毒株对小鼠的适应程度相关。这项研究支持了正在进行的关于利用该技术开发抗登革病毒减毒活疫苗的研究。