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HIV-1的进入机制及广谱中和抗体如何指导基于结构的疫苗设计。

How HIV-1 entry mechanism and broadly neutralizing antibodies guide structure-based vaccine design.

作者信息

Pancera Marie, Changela Anita, Kwong Peter D

机构信息

aVaccine Research Center, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, Maryland bVaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA.

出版信息

Curr Opin HIV AIDS. 2017 May;12(3):229-240. doi: 10.1097/COH.0000000000000360.

DOI:10.1097/COH.0000000000000360
PMID:28422787
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5557343/
Abstract

PURPOSE OF REVIEW

An HIV-1 vaccine that elicits broadly neutralizing antibodies (bNAbs) remains to be developed. Here, we review how knowledge of bNAbs and HIV-1 entry mechanism is guiding the structure-based design of vaccine immunogens and immunization regimens.

RECENT FINDINGS

Isolation of bNAbs from HIV-1-infected donors has led to an unprecedented understanding of the sites of vulnerability that these antibodies target on the HIV-1 envelope (Env) as well as of the immunological pathways that these antibody lineages follow to develop broad and potent neutralization. Sites of vulnerability, however, reside in the context of diverse Env conformations required for HIV-1 entry, including a prefusion-closed state, a single-CD4-bound intermediate, a three-CD4-bound intermediate, a prehairpin intermediate and postfusion states, and it is not always clear which structural state optimally presents a particular site of vulnerability in the vaccine context. Furthermore, detailed knowledge of immunological pathways has led to debate among vaccine developers as to how much of the natural antibody-developmental pathway immunogens should mimic, ranging from only the recognized epitope to multiple antigens from the antibody-virus coevolution process.

SUMMARY

A plethora of information on bNAbs is guiding HIV-1-vaccine development. We highlight consideration of the appropriate structural context from the HIV-1-entry mechanism and extraordinary progress with replicating template B-cell ontogenies.

摘要

综述目的

一种能引发广泛中和抗体(bNAbs)的HIV-1疫苗仍有待研发。在此,我们综述了关于bNAbs和HIV-1进入机制的知识如何指导基于结构的疫苗免疫原和免疫方案设计。

最新发现

从感染HIV-1的供体中分离出bNAbs,使人们对这些抗体在HIV-1包膜(Env)上靶向的脆弱位点以及这些抗体谱系产生广泛强效中和作用所遵循的免疫途径有了前所未有的认识。然而,脆弱位点存在于HIV-1进入所需的多种Env构象背景中,包括预融合封闭状态、单CD4结合中间体、三CD4结合中间体、前发夹中间体和融合后状态,在疫苗背景下,并不总是清楚哪种结构状态能最佳呈现特定的脆弱位点。此外,对免疫途径的详细了解引发了疫苗开发者之间的争论,即免疫原应在多大程度上模拟天然抗体发育途径,范围从仅识别的表位到抗体-病毒共同进化过程中的多种抗原。

总结

关于bNAbs的大量信息正在指导HIV-1疫苗的研发。我们强调要考虑HIV-1进入机制中合适的结构背景以及在复制模板B细胞个体发育方面取得的非凡进展。

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