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HIV 特异性抗体 Fc 糖基化的自然变异影响抗病毒活性。

Natural variation in Fc glycosylation of HIV-specific antibodies impacts antiviral activity.

机构信息

Thayer School of Engineering, Dartmouth College, Hanover, New Hampshire, USA.

出版信息

J Clin Invest. 2013 May;123(5):2183-92. doi: 10.1172/JCI65708. Epub 2013 Apr 8.

DOI:10.1172/JCI65708
PMID:23563315
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3637034/
Abstract

While the induction of a neutralizing antibody response against HIV remains a daunting goal, data from both natural infection and vaccine-induced immune responses suggest that it may be possible to induce antibodies with enhanced Fc effector activity and improved antiviral control via vaccination. However, the specific features of naturally induced HIV-specific antibodies that allow for the potent recruitment of antiviral activity and the means by which these functions are regulated are poorly defined. Because antibody effector functions are critically dependent on antibody Fc domain glycosylation, we aimed to define the natural glycoforms associated with robust Fc-mediated antiviral activity. We demonstrate that spontaneous control of HIV and improved antiviral activity are associated with a dramatic shift in the global antibody-glycosylation profile toward agalactosylated glycoforms. HIV-specific antibodies exhibited an even greater frequency of agalactosylated, afucosylated, and asialylated glycans. These glycoforms were associated with enhanced Fc-mediated reduction of viral replication and enhanced Fc receptor binding and were consistent with transcriptional profiling of glycosyltransferases in peripheral B cells. These data suggest that B cell programs tune antibody glycosylation actively in an antigen-specific manner, potentially contributing to antiviral control during HIV infection.

摘要

虽然诱导针对 HIV 的中和抗体反应仍然是一个艰巨的目标,但来自自然感染和疫苗诱导的免疫反应的数据表明,通过接种疫苗可能诱导具有增强的 Fc 效应子活性和改善的抗病毒控制的抗体。然而,允许有效招募抗病毒活性的天然诱导的 HIV 特异性抗体的特定特征以及调节这些功能的方式尚未明确界定。由于抗体效应子功能严重依赖于抗体 Fc 结构域糖基化,我们旨在定义与强大的 Fc 介导的抗病毒活性相关的天然糖型。我们证明,HIV 的自发控制和抗病毒活性的改善与抗体糖基化谱向半乳糖基化糖型的剧烈转变有关。HIV 特异性抗体表现出更高频率的半乳糖基化、去岩藻糖化和去唾液酸化聚糖。这些糖型与增强的 Fc 介导的病毒复制减少以及增强的 Fc 受体结合相关,并且与外周 B 细胞中转录糖基转移酶的基因表达谱一致。这些数据表明,B 细胞程序以抗原特异性的方式主动调节抗体糖基化,可能有助于 HIV 感染期间的抗病毒控制。

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