HIV-1 中和抗体 PG16 识别多样化 N-糖链的结构基础。
Structural basis for diverse N-glycan recognition by HIV-1-neutralizing V1-V2-directed antibody PG16.
机构信息
Vaccine Research Center, National Institute of Allergy and Infectious Diseases, US National Institutes of Health, Bethesda, Maryland, USA.
出版信息
Nat Struct Mol Biol. 2013 Jul;20(7):804-13. doi: 10.1038/nsmb.2600. Epub 2013 May 26.
Abstract
HIV-1 uses a diverse N-linked-glycan shield to evade recognition by antibody. Select human antibodies, such as the clonally related PG9 and PG16, recognize glycopeptide epitopes in the HIV-1 V1-V2 region and penetrate this shield, but their ability to accommodate diverse glycans is unclear. Here we report the structure of antibody PG16 bound to a scaffolded V1-V2, showing an epitope comprising both high mannose-type and complex-type N-linked glycans. We combined structure, NMR and mutagenesis analyses to characterize glycan recognition by PG9 and PG16. Three PG16-specific residues, arginine, serine and histidine (RSH), were critical for binding sialic acid on complex-type glycans, and introduction of these residues into PG9 produced a chimeric antibody with enhanced HIV-1 neutralization. Although HIV-1-glycan diversity facilitates evasion, antibody somatic diversity can overcome this and can provide clues to guide the design of modified antibodies with enhanced neutralization.
摘要
HIV-1 利用多样化的 N 连接聚糖屏蔽来逃避抗体的识别。某些人类抗体,如克隆相关的 PG9 和 PG16,可识别 HIV-1 V1-V2 区的糖肽表位并穿透该屏蔽,但它们对多样化聚糖的适应能力尚不清楚。在这里,我们报告了抗体 PG16 与支架化 V1-V2 结合的结构,显示了一个包含高甘露糖型和复杂型 N 连接聚糖的表位。我们结合结构、NMR 和突变分析来表征 PG9 和 PG16 对聚糖的识别。PG16 特有的三个残基,精氨酸、丝氨酸和组氨酸(RSH),对结合复杂型糖上的唾液酸至关重要,并且将这些残基引入 PG9 中产生了具有增强的 HIV-1 中和能力的嵌合抗体。虽然 HIV-1-聚糖的多样性促进了逃逸,但抗体的体细胞多样性可以克服这一点,并为指导设计具有增强中和能力的修饰抗体提供线索。
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