Bactericidal human monoclonal antibody 1B1 shows specificity for meningococcal factor H binding protein variant 2 and displaces human factor H

IF 2.5 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Daniele Veggi, Chelsy C. Chesterman, Laura Santini, Ying Huang, Nicola Pacchiani, Jeannette Sierra, Lynn Chen, Jason Laliberte, Federica Bianchi, Roberta Cozzi, Elisabetta Frigimelica, Domenico Maione, Oretta Finco, Matthew J. Bottomley
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Abstract

Thousands of disease cases and hundreds of deaths occur globally each year due to invasive meningococcal disease. Neisseria meningitidis serogroup B (MenB) is the leading cause of such disease in developed countries. Two vaccines, 4CMenB and MenB-fHbp, that protect against MenB are available and include one or two forms respectively of factor H binding protein (fHbp), a key protective antigen. Studies of circulating meningococci have identified over 1380 different fHbp amino acid sequences, which form three immunologically distinct clusters, termed variants 1, 2, and 3. Neither of the current vaccines contains a variant 2 antigen, which is less well characterized than fHbp variants 1 and 3. We characterized the interaction of fHbp variant 2 with humAb 1B1 using biochemical methods and live meningococcal assays. Further, we determined the crystal structure of the complex at 2.4 Å resolution, clearly revealing the epitope and providing the first detailed report of an antibody with distinct specificity for fHbp variant 2. Extensive mutagenesis and binding studies elucidated key hotspots in the interface. This combination of structural and functional studies provides a molecular explanation for the bactericidal potency and specificity of humAb 1B1 for fHbp variant 2. Our studies, focused on fHbp variant 2, expand the understanding of this previously under characterized group of the vast family of variants of fHbp, a virulence factor present on all meningococci. Moreover, the definition of a protective conformational epitope on fHbp variant 2 may support the design and development of novel variant 2-containing MenB vaccines affording greater breadth of protection.

Abstract Image

杀菌人类单克隆抗体 1B1 对脑膜炎球菌因子 H 结合蛋白变体 2 具有特异性,并能取代人类因子 H。
全球每年因侵袭性脑膜炎球菌疾病导致数千病例和数百人死亡。在发达国家,脑膜炎奈瑟菌 B 血清群(MenB)是导致此类疾病的主要原因。目前有两种可预防 MenB 的疫苗,即 4CMenB 和 MenB-fHbp,其中分别含有一种或两种形式的 H 结合蛋白(fHbp),这是一种关键的保护性抗原。对循环脑膜炎球菌的研究发现了 1380 多种不同的 fHbp 氨基酸序列,它们形成了三个免疫学上不同的群组,分别称为变体 1、2 和 3。目前的疫苗都不含变体 2 抗原,其特征不如 fHbp 变体 1 和 3。我们利用生化方法和活脑膜炎球菌试验确定了 fHbp 变体 2 与 humAb 1B1 相互作用的特征。此外,我们还测定了该复合物 2.4 Å 分辨率的晶体结构,清楚地揭示了其表位,并首次详细报告了 fHbp 变体 2 具有独特特异性的抗体。广泛的诱变和结合研究阐明了界面中的关键热点。结构和功能研究的结合为 humAb 1B1 对 fHbp 变体 2 的杀菌效力和特异性提供了分子解释。我们的研究以 fHbp 变体 2 为重点,扩大了人们对 fHbp 变异体大家族中这一以前特征不清的变体群的了解,fHbp 变异体是存在于所有脑膜炎球菌中的致病因子。此外,fHbp 变体 2 上保护性构象表位的定义可能有助于设计和开发新型含变体 2 的 MenB 疫苗,从而提供更广泛的保护。
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来源期刊
FASEB bioAdvances
FASEB bioAdvances Multiple-
CiteScore
5.40
自引率
3.70%
发文量
56
审稿时长
10 weeks
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