用于多价蛋白疫苗的嵌合抗原的基于结构的设计。

Structure-based design of chimeric antigens for multivalent protein vaccines.

作者信息

Hollingshead S, Jongerius I, Exley R M, Johnson S, Lea S M, Tang C M

机构信息

Sir William Dunn School of Pathology, University of Oxford, South Parks Road, Oxford, OX1 3RE, UK.

Department of Medical Microbiology, University Medical Centre Utrecht, Heidelberglaan 100, 3584 CX, Utrecht, Netherlands.

出版信息

Nat Commun. 2018 Mar 13;9(1):1051. doi: 10.1038/s41467-018-03146-7.

DOI:10.1038/s41467-018-03146-7

PMID:29535307

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5849709/

Abstract

There is an urgent need to develop vaccines against pathogenic bacteria. However, this is often hindered by antigenic diversity and difficulties encountered manufacturing membrane proteins. Here we show how to use structure-based design to develop chimeric antigens (ChAs) for subunit vaccines. ChAs are generated against serogroup B Neisseria meningitidis (MenB), the predominant cause of meningococcal disease in wealthy countries. MenB ChAs exploit factor H binding protein (fHbp) as a molecular scaffold to display the immunogenic VR2 epitope from the integral membrane protein PorA. Structural analyses demonstrate fHbp is correctly folded and the PorA VR2 epitope adopts an immunogenic conformation. In mice, immunisation with ChAs generates fHbp and PorA antibodies that recognise the antigens expressed by clinical MenB isolates; these antibody responses correlate with protection against meningococcal disease. Application of ChAs is therefore a potentially powerful approach to develop multivalent subunit vaccines, which can be tailored to circumvent pathogen diversity.

摘要

迫切需要开发针对病原菌的疫苗。然而，这一过程常常受到抗原多样性以及生产膜蛋白时遇到的困难的阻碍。在此，我们展示了如何利用基于结构的设计来开发用于亚单位疫苗的嵌合抗原（ChA）。ChA是针对B群脑膜炎奈瑟菌（MenB）产生的，MenB是富裕国家中脑膜炎球菌病的主要病因。MenB ChA利用因子H结合蛋白（fHbp）作为分子支架来展示来自整合膜蛋白PorA的免疫原性VR2表位。结构分析表明fHbp折叠正确，且PorA VR2表位呈现出免疫原性构象。在小鼠中，用ChA免疫可产生识别临床MenB分离株表达的抗原的fHbp和PorA抗体；这些抗体反应与预防脑膜炎球菌病相关。因此，ChA的应用是开发多价亚单位疫苗的一种潜在有力方法，这种疫苗可经定制以规避病原体的多样性。

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用于多价蛋白疫苗的嵌合抗原的基于结构的设计。

Structure-based design of chimeric antigens for multivalent protein vaccines.

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