Greenstein J L, Schad V C, Goodwin W H, Brauer A B, Bollinger B K, Chin R D, Kuo M C
ImmuLogic Pharmaceutical Corporation, Cambridge, MA 02139.
J Immunol. 1992 Jun 15;148(12):3970-7.
Peptide-based vaccines that directly target T cell or B cell epitopes may have significant advantages over conventional vaccines. Further, synthetic chimeric peptides that combine strong T cell epitopes with poorly immunogenic, but immunodominant, B cell epitopes or strain-conserved B cell epitopes may be useful in eliciting antibody to such important regions. Here we characterize a human T cell epitope analyzed in 54 individuals immunized with a hepatitis B virus surface Ag vaccine. Primary cultures from a total of 59 immunized donors were assessed for their ability to respond to hepatitis B virus surface Ag and peptides, and five were non-responders (8.5%). T cell lines were established from the remaining 54 responders. Of the responders, it was found that the peptide representing amino acids 19 through 33 (19-33) elicited significant proliferation in lines derived from 50 donors. This "universal" T cell epitope, which was recognized in donors of many different HLA-DR and -DQ haplotypes, was then used to construct a chimeric peptide containing 19-33 and the third V region loop structure (V3 loop) of HIV-1 envelope gp 120, in an attempt to augment the immune response to the V3 loop peptide. The V3 loop is the region to which significant neutralizing antibody is directed. Thus, a strong immune response to a synthetic peptide that contains the strain-conserved V3 loop region could have significant therapeutic implications. The V3 loop/19-33 peptide was then used to prime mice, to determine whether V3 loop-specific antibody could be induced. The peptide elicited potent 19-33-specific proliferation in T cells isolated from draining lymph nodes, and in six of six mice anti-V3 loop antibody was elicited. Further, V3 loop/19-33-primed animals made significant levels of antibody that bound rgp120. These data suggest that, when a major T cell epitope is synthesized in tandem with the V3 loop, a significant immune response against the loop can be elicited. Thus, given the finding that neutralizing antibody may play a role in the control and/or prevention of HIV infection, an HIV vaccine composed of a T cell epitope-containing peptide may prove effective. In addition, this type of approach can be generalized to the design of peptide-based vaccines.
直接靶向T细胞或B细胞表位的肽基疫苗可能比传统疫苗具有显著优势。此外,将强T细胞表位与免疫原性差但免疫显性的B细胞表位或毒株保守B细胞表位结合的合成嵌合肽,可能有助于引发针对此类重要区域的抗体。在此,我们对54名接种乙肝病毒表面抗原疫苗的个体中分析的一种人T细胞表位进行了表征。对总共59名免疫供体的原代培养物进行了评估,以确定其对乙肝病毒表面抗原和肽的反应能力,其中5名无反应者(8.5%)。从其余54名反应者中建立了T细胞系。在这些反应者中,发现代表氨基酸19至33(19-33)的肽在来自50名供体的细胞系中引发了显著的增殖。然后,这种在许多不同HLA-DR和-DQ单倍型的供体中都能被识别的“通用”T细胞表位,被用于构建一种嵌合肽,该嵌合肽包含19-33和HIV-1包膜糖蛋白120的第三个V区环结构(V3环),试图增强对V3环肽的免疫反应。V3环是产生显著中和抗体的区域。因此,对包含毒株保守V3环区域的合成肽产生强烈免疫反应可能具有重要的治疗意义。然后使用V3环/19-33肽对小鼠进行免疫,以确定是否能诱导出V3环特异性抗体。该肽在从引流淋巴结分离的T细胞中引发了强烈的19-33特异性增殖,并且在6只小鼠中均诱导出了抗V3环抗体。此外,用V3环/19-33免疫的动物产生了大量与重组gp120结合的抗体。这些数据表明,当一个主要的T细胞表位与V3环串联合成时,可以引发针对该环的显著免疫反应。因此,鉴于中和抗体可能在控制和/或预防HIV感染中发挥作用这一发现,由含T细胞表位的肽组成的HIV疫苗可能被证明是有效的。此外,这种方法可以推广到肽基疫苗的设计中。
