重组可溶性Env三聚体BG505 SOSIP.664对HIV失活肽三唑的识别

Recognition of HIV-inactivating peptide triazoles by the recombinant soluble Env trimer, BG505 SOSIP.664.

作者信息

Acharya Kriti, Rashad Adel A, Moraca Francesca, Klasse Per Johan, Moore John P, Abrams Cameron, Chaiken Irwin

机构信息

Department of Biochemistry and Molecular Biology, Drexel University, Philadelphia, Pennsylvania, 19102.

Department of Chemical and Biological Engineering, Drexel University, Philadelphia, Pennsylvania, 19104.

出版信息

Proteins. 2017 May;85(5):843-851. doi: 10.1002/prot.25238. Epub 2017 Mar 11.

DOI:10.1002/prot.25238

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5389922/

Abstract

Peptide triazole (PT) antagonists interact with gp120 subunits of HIV-1 Env trimers to block host cell receptor interactions, trigger gp120 shedding, irreversibly inactivate virus and inhibit infection. Despite these enticing functions, understanding the structural mechanism of PT-Env trimer encounter has been limited. In this work, we combined competition interaction analysis and computational simulation to demonstrate PT binding to the recombinant soluble trimer, BG505 SOSIP.664, a stable variant that resembles native virus spikes in binding to CD4 receptor as well as known conformationally-dependent Env antibodies. Binding specificity and computational modeling fit with encounter through complementary PT pharmacophore Ile-triazolePro-Trp interaction with a 2-subsite cavity in the Env gp120 subunit of SOSIP trimer similar to that in monomeric gp120. These findings argue that PTs are able to recognize and bind a closed prefusion state of Env trimer upon HIV-1 encounter. The results provide a structural model of how PTs exert their function on virion trimeric spike protein and a platform to inform future antagonist design. Proteins 2017; 85:843-851. © 2016 Wiley Periodicals, Inc.

摘要

肽三唑（PT）拮抗剂与HIV-1包膜三聚体的gp120亚基相互作用，以阻断宿主细胞受体相互作用，触发gp120脱落，不可逆地使病毒失活并抑制感染。尽管具有这些诱人的功能，但对PT与包膜三聚体相互作用的结构机制的了解仍然有限。在这项工作中，我们结合竞争相互作用分析和计算模拟，证明PT与重组可溶性三聚体BG505 SOSIP.664结合，该稳定变体在与CD4受体以及已知的构象依赖性包膜抗体结合方面类似于天然病毒刺突。结合特异性和计算建模符合通过互补的PT药效团异亮氨酸-三唑-脯氨酸-色氨酸与SOSIP三聚体的包膜gp120亚基中的2-亚位点腔相互作用，类似于单体gp120中的情况。这些发现表明，PT能够在遇到HIV-1时识别并结合包膜三聚体的封闭预融合状态。结果提供了一个PT如何对病毒粒子三聚体刺突蛋白发挥作用的结构模型，以及一个为未来拮抗剂设计提供信息的平台。《蛋白质》2017年；85:843 - 851。©2016威利期刊公司。

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