PvMSP3α block II内低复杂度区域对蛋白三级结构的影响及其对免疫逃逸机制的影响

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2019-03-27 DOI:10.1186/s12900-019-0104-0

Alebachew Messele Kebede, Fitsum Girma Tadesse, Adey Desta Feleke, Lemu Golassa, Endalamaw Gadisa

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引用次数: 0

摘要

间日疟原虫merozoite surface protein 3α (PvMSP3α)是一种很有前途的候选疫苗，具有很强的免疫原性和保护性。然而，它的使用由于增强免疫逃避的进化可塑性特征而变得复杂。低复杂性区(lcr)提供了疟原虫表面蛋白的可塑性，但其在疫苗设计中的意义尚不清楚。本文对编码PvMSP3α的基因进行了群体遗传、比较系统发育和结构生物学分析。在PvMSP3α block II中发现3个lcr。lcr的存在对蛋白质三级结构的预测和基于该区域的系统发育树都有影响。lcr主要为B细胞内或邻近的表位。此外，在PvMSP3a block II低复杂度区发现了一个模仿B细胞表位的重复基序。这种特殊的B细胞表位也具有猖獗的丙氨酸取代，这可能会损害抗体的结合。这些发现表明PvMSP3α block II具有lcr，这可能赋予了PvMSP3α block II很强的表型可塑性。lcr的表型可塑性现象及其在疟疾免疫学和疫苗候选基因中的意义值得进一步探讨。

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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Effect of low complexity regions within the PvMSP3α block II on the tertiary structure of the protein and implications to immune escape mechanisms

Plasmodium vivax merozoite surface protein 3α (PvMSP3α) is a promising vaccine candidate which has shown strong association with immunogenicity and protectiveness. Its use is however complicated by evolutionary plasticity features which enhance immune evasion. Low complexity regions (LCRs) provide plasticity in surface proteins of Plasmodium species, but its implication in vaccine design remain unexplored. Here population genetic, comparative phylogenetic and structural biology analysis was performed on the gene encoding PvMSP3α.

Three LCRs were found in PvMSP3α block II. Both the predicted tertiary structure of the protein and the phylogenetic trees based on this region were influenced by the presence of the LCRs. The LCRs were mainly B cell epitopes within or adjacent. In addition a repeat motif mimicking one of the B cell epitopes was found within the PvMSP3a block II low complexity region. This particular B cell epitope also featured rampant alanine substitutions which might impair antibody binding.

The findings indicate that PvMSP3α block II possesses LCRs which might confer a strong phenotypic plasticity. The phenomenon of phenotypic plasticity and implication of LCRs in malaria immunology in general and vaccine candidate genes in particular merits further exploration.

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来源期刊

BMC Structural Biology 生物-生物物理

CiteScore

3.60

自引率

0.00%

发文量

期刊介绍： BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.