Evaluation of immunodominant epitopes of human T-lymphotropic virus type 1 (HTLV-I) using synthetic peptides.

M D Lairmore, R B Lal, P T Kaumaya
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Abstract

Human T-lymphotropic virus type 1 (HTLV-I) causes adult T-cell leukemia/lymphoma (ATLL) and has been associated with a variety of immunologically-mediated diseases. Recently, the immunodominant epitopes of HTLV-I have begun to be defined through the utilization of synthetic peptides and recombinant proteins. Strategies to define the conformational features of immunogenic peptides and design chimeric and multivalent constructs that mimic native viral proteins have provided the opportunity to create an effective synthetic vaccine against HTLV-I infection. An ideal peptide vaccine to be universally immunogenic must incorporate rationally designed antigenic determinants that accurately mimic the corresponding structural architecture found in native proteins and elicit relevant components of the immune system. We have recently designed and tested chimeric and beta-sheet template constructs containing HTLV-I immunodominant peptide motifs that elicit neutralizing antibody responses and overcome genetically restricted immune responses. To further illustrate putative vaccine candidates, HTLV-I env and tax proteins were analyzed using various computer-predicted correlates of protein antigenicity, secondary structural predictions, and major histocompatibility complex class I binding motifs. These approaches provide the opportunity to design synthetic peptide vaccines against HTLV-I infection that are based on structurally defined criteria, as well as test the influence of glycosylation on peptide conformation and immunogenicity.

合成肽法评价人t淋巴细胞嗜1型病毒(HTLV-I)免疫优势表位
人类嗜t淋巴病毒1型(HTLV-I)引起成人t细胞白血病/淋巴瘤(ATLL),并与多种免疫介导的疾病有关。最近,HTLV-I的免疫优势表位已经开始通过合成肽和重组蛋白的利用来确定。确定免疫原性肽的构象特征和设计模仿天然病毒蛋白的嵌合和多价结构的策略,为创建针对HTLV-I感染的有效合成疫苗提供了机会。一种理想的具有普遍免疫原性的肽疫苗必须包含合理设计的抗原决定因子,这些抗原决定因子准确地模仿天然蛋白中发现的相应结构结构,并引发免疫系统的相关成分。我们最近设计并测试了含有HTLV-I免疫优势肽基序的嵌合和β片模板结构,这些结构可引起中和抗体反应并克服遗传限制性免疫反应。为了进一步阐明假定的候选疫苗,利用各种计算机预测的蛋白质抗原性、二级结构预测和主要组织相容性复合体I类结合基序对HTLV-I env和tax蛋白进行了分析。这些方法为设计基于结构定义标准的HTLV-I感染合成肽疫苗提供了机会,并测试糖基化对肽构象和免疫原性的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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