Immunogenicity and conformational properties of an N-linked glycosylated peptide epitope of human T-lymphotropic virus type 1 (HTLV-I).

S F Conrad, I J Byeon, A M DiGeorge, M D Lairmore, M D Tsai, P T Kaumaya
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Abstract

The identification and characterization of epitopes of human T-lymphotropic virus type 1 (HTLV-I), which elicit an effective humoral or cell-mediated immune response, remains a central obstacle to the development of a peptide-based vaccine against the virus infection. The objective of the studies presented here was to examine the influence of N-linked glycosylation on peptide structure and immunogenicity. We engineered the 233-253 sequence of gp46 of HTLV-I to contain an N-acetylglucosamine (GlcNAc) residue at Asn244. Secondary structure prediction using computer algorithms indicated that this peptide may contain a beta-turn at residues 242-246. Recent work with model glycopeptides suggests that beta-turn conformation in peptides may be induced, and probably is stabilized, by the presence of even a single sugar residue. In the present study, the structures of the 233-253 peptide, SC1, and the 233-253(Asn244-GlcNAc) glycopeptide, SC2, were determined. Similar conformation was exhibited by both the glycosylated and nonglycosylated peptide displaying a beta-turn at residues 243-246 and extended-chain structure at the peptide/glycopeptide termini. Both peptides were engineered into chimeric constructs with a promiscuous T-cell epitope from measles virus and were used as immunogens in rabbits. Both chimeric peptides were highly immunogenic in rabbits, producing high-titered antibodies as early as primary + three weeks. The antibodies generated against either construct were able to bind to whole virus (ELISA) and to gp46 (radioimmunoprecipitation assay). Additionally, human sera of individuals known to be positive for HTLV-I recognized both the glycosylated and nonglycosylated constructs. It appears that the 233-253 peptide is able to adopt a conformation that mimics the structure in native gp46, and addition of a GlcNAc residue at Asn244 does not affect the conformational preference or stability of this construct; nor does glycosylation alter immunogenicity but instead appears to enhance immune recognition.

人嗜t淋巴病毒1型(HTLV-I) n -链糖基化肽表位的免疫原性和构象特性
人类嗜t淋巴病毒1型(HTLV-I)抗原表位的鉴定和表征,可引发有效的体液或细胞介导的免疫反应,仍然是开发基于肽的病毒感染疫苗的主要障碍。本研究的目的是研究n -链糖基化对肽结构和免疫原性的影响。我们设计了HTLV-I的gp46的233-253序列,在Asn244处含有一个n -乙酰氨基葡萄糖(GlcNAc)残基。利用计算机算法进行的二级结构预测表明,该肽可能在242-246位残基处含有β -转位。最近对模型糖肽的研究表明,即使存在一个糖残基,肽中的β -转构象也可能被诱导,并可能被稳定。在本研究中,测定了233-253肽SC1和233-253(Asn244-GlcNAc)糖肽SC2的结构。糖基化肽和非糖基化肽均表现出类似的构象,在残基243-246处显示出β -转折,在肽/糖肽末端显示出延伸链结构。这两种肽均与麻疹病毒混杂t细胞表位嵌合构建,并作为兔免疫原使用。这两种嵌合肽在家兔体内具有高度的免疫原性,早在初级+ 3周就能产生高滴度抗体。针对这两种构建体产生的抗体均能与全病毒(ELISA)和gp46(放射免疫沉淀试验)结合。此外,已知HTLV-I阳性个体的人血清可以识别糖基化和非糖基化结构。研究表明,233-253肽能够采用一种模仿天然gp46结构的构象,并且在Asn244上添加GlcNAc残基不会影响该结构的构象偏好或稳定性;糖基化也不会改变免疫原性,反而会增强免疫识别。
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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