基于结构设计靶向CspZ的莱姆病疫苗的机制性见解。

Mechanistic insights into the structure-based design of a CspZ-targeting Lyme disease vaccine.

作者信息

Brangulis Kalvis, Malfetano Jill, Marcinkiewicz Ashley L, Wang Alan, Chen Yi-Lin, Lee Jungsoon, Liu Zhuyun, Yang Xiuli, Strych Ulrich, Tupina Dagnija, Akopjana Inara, Bottazzi Maria-Elena, Pal Utpal, Hsieh Ching-Lin, Chen Wen-Hsiang, Lin Yi-Pin

机构信息

Latvian Biomedical Research and Study Centre, Riga, Latvia.

Department of Human Physiology and Biochemistry, Riga Stradins University, Riga, Latvia.

出版信息

Nat Commun. 2025 Apr 7;16(1):2898. doi: 10.1038/s41467-025-58182-x.

DOI:10.1038/s41467-025-58182-x

PMID:40189575

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11973211/

Abstract

Borrelia burgdorferi (Bb) causes Lyme disease (LD), one of the most common vector-borne diseases in the Northern Hemisphere. Here, we solve the crystal structure of a mutated Bb vaccine antigen, CspZ-YA that lacks the ability to bind to host complement factor H (FH). We generate point mutants of CspZ-YA and identify CspZ-YA and CspZ-YA to trigger more robust bactericidal responses. Compared to CspZ-YA, these CspZ-YA mutants require a lower immunization frequency to protect mice from LD-associated inflammation and bacterial colonization. Antigenicity of wild-type and mutant CspZ-YA proteins are similar, as measured using sera from infected people or immunized female mice. Structural comparison of CspZ-YA with CspZ-YA and CspZ-YA shows enhanced interactions of two helices adjacent to the FH-binding sites in the mutants, consistent with their elevated thermostability. In line with these findings, protective CspZ-YA monoclonal antibodies show increased binding to CspZ-YA at a physiological temperature (37 °C). In summary, this proof-of-concept study applies structural vaccinology to enhance intramolecular interactions for the long-term stability of a Bb antigen while maintaining its protective epitopes, thus promoting LD vaccine development.

摘要

伯氏疏螺旋体（Bb）可引发莱姆病（LD），这是北半球最常见的媒介传播疾病之一。在此，我们解析了一种突变的Bb疫苗抗原CspZ - YA的晶体结构，该抗原缺乏与宿主补体因子H（FH）结合的能力。我们构建了CspZ - YA的点突变体，并确定CspZ - YA和CspZ - YA能引发更强有力的杀菌反应。与CspZ - YA相比，这些CspZ - YA突变体需要更低的免疫频率来保护小鼠免受与LD相关的炎症和细菌定植。使用来自感染人群或免疫雌性小鼠的血清进行检测，结果表明野生型和突变型CspZ - YA蛋白的抗原性相似。CspZ - YA与CspZ - YA和CspZ - YA的结构比较显示，突变体中与FH结合位点相邻的两个螺旋之间的相互作用增强，这与其提高的热稳定性一致。与这些发现相符的是，具有保护性的CspZ - YA单克隆抗体在生理温度（37°C）下与CspZ - YA的结合增加。总之，这项概念验证研究应用结构疫苗学来增强分子内相互作用，以实现Bb抗原的长期稳定性，同时保持其保护性表位，从而推动LD疫苗的研发。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/92f7/11973211/4af3e5d4f0ec/41467_2025_58182_Fig1_HTML.jpg

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基于结构设计靶向CspZ的莱姆病疫苗的机制性见解。

Mechanistic insights into the structure-based design of a CspZ-targeting Lyme disease vaccine.

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