Mathews J H, Roehrig J T, Brubaker J R, Hunt A R, Allan J E
Division of Vector-Borne Infectious Diseases, Centers for Disease Control, Fort Collins, Colorado 80522.
J Virol. 1992 Nov;66(11):6555-62. doi: 10.1128/JVI.66.11.6555-6562.1992.
Synthetic peptides from the envelope glycoprotein sequence of Murray Valley encephalitis (MVE) virus were previously evaluated in various strains of mice for both the induction of antibody and the in vitro proliferation of peptide-primed T-helper (Th) cells. MVE peptide 6 (amino acids 230 to 251) elicited reciprocal Th- and B-cell reactivity with native MVE virus after primary inoculation of C57BL/6 mice. In this study, we prepared overlapping subunit peptides of MVE peptide 6 and evaluated their immunogenicity. Analysis of these peptides delineated at least two B-cell epitopes that induced antibody reactive with MVE and other Japanese encephalitis serocomplex viruses. This antibody at low titer neutralized MVE virus. Genetic restriction of the antibody response to various T-cell elements within peptide 6 was observed in C3H, BALB/c, C57BL/6, and B10 congenic mice. One element demonstrable after primary immunization, located in the carboxy terminus, associated only with major histocompatibility complex class II IAb and IAbiEk glycoproteins. Functional stimulation with the peptides in association with IAkIEk and IAdIEd molecules was observed only after in vivo secondary stimulation. Peptide 6-1 (amino acids 230 to 241) was nonimmunogenic but could be recognized by Th cells from peptide 6-immunized mice. Further association of peptide 6 with the IAkIEk and IAdIEd subregions was demonstrated by the finding that T cells from MVE peptide 6-inoculated C3H and BALB/c mice primed for an antibody response to MVE virus. These results suggest that the peptide 6 sequence, which is relatively conserved among a number of flaviviruses, should be given consideration when synthetic immunogens for vaccine purposes are designed.
先前对来自墨累谷脑炎(MVE)病毒包膜糖蛋白序列的合成肽在多种小鼠品系中进行了评估,以研究其诱导抗体的能力以及肽引发的T辅助(Th)细胞的体外增殖情况。在初次接种C57BL/6小鼠后,MVE肽6(氨基酸230至251)引发了与天然MVE病毒相互的Th细胞和B细胞反应性。在本研究中,我们制备了MVE肽6的重叠亚基肽,并评估了它们的免疫原性。对这些肽的分析确定了至少两个B细胞表位,它们可诱导与MVE及其他日本脑炎血清复合群病毒发生反应的抗体。这种低滴度的抗体可中和MVE病毒。在C3H、BALB/c、C57BL/6和B10同源小鼠中观察到了针对肽6内各种T细胞元件的抗体反应的基因限制。初次免疫后可证明的一个元件位于羧基末端,仅与主要组织相容性复合体II类IAb和IAbiEk糖蛋白相关。仅在体内二次刺激后才观察到与IAkIEk和IAdIEd分子结合的肽的功能刺激。肽6 - 1(氨基酸230至241)无免疫原性,但可被来自肽6免疫小鼠的Th细胞识别。通过以下发现进一步证明了肽6与IAkIEk和IAdIEd亚区域的关联:来自接种MVE肽6的C3H和BALB/c小鼠的T细胞引发了针对MVE病毒的抗体反应。这些结果表明,在设计用于疫苗目的的合成免疫原时,应考虑在多种黄病毒中相对保守的肽6序列。