HIV-1的肽基三唑失活剂利用Env gp120内外结构域交界处保守的双腔结合位点。

Peptide Triazole Inactivators of HIV-1 Utilize a Conserved Two-Cavity Binding Site at the Junction of the Inner and Outer Domains of Env gp120.

作者信息

Aneja Rachna, Rashad Adel A, Li Huiyuan, Kalyana Sundaram Ramalingam Venkat, Duffy Caitlin, Bailey Lauren D, Chaiken Irwin

机构信息

†Biochemistry and Molecular Biology, Drexel University College of Medicine, Philadelphia, Pennsylvania 19102, United States.

‡School of Biomedical Engineering, Science and Health Systems, Drexel University, Philadelphia, Pennsylvania 19104, United States.

出版信息

J Med Chem. 2015 May 14;58(9):3843-58. doi: 10.1021/acs.jmedchem.5b00073. Epub 2015 Apr 28.

DOI:10.1021/acs.jmedchem.5b00073

PMID:25860784

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4497506/

Abstract

We used coordinated mutagenesis, synthetic design, and flexible docking to investigate the structural mechanism of Env gp120 encounter by peptide triazole (PT) inactivators of HIV-1. Prior results demonstrated that the PT class of inhibitors suppresses binding at both CD4 and coreceptor sites on Env and triggers gp120 shedding, leading to cell-independent irreversible virus inactivation. Despite these enticing anti-HIV-1 phenotypes, structural understanding of the PT-gp120 binding mechanism has been incomplete. Here we found that PT engages two inhibitor ring moieties at the junction between the inner and outer domains of the gp120 protein. The results demonstrate how combined occupancy of two gp120 cavities can coordinately suppress both receptor and coreceptor binding and conformationally entrap the protein in a destabilized state. The two-cavity model has common features with small molecule gp120 inhibitor binding sites and provides a guide for further design of peptidomimetic HIV-1 inactivators based on the PT pharmacophore.

摘要

我们运用协同诱变、合成设计和柔性对接技术，研究了HIV-1肽三唑（PT）灭活剂与Env gp120相互作用的结构机制。先前的研究结果表明，PT类抑制剂可抑制Env上CD4和共受体位点的结合，并引发gp120脱落，从而导致细胞非依赖性的不可逆病毒灭活。尽管这些抗HIV-1表型颇具吸引力，但对PT与gp120结合机制的结构理解仍不完整。在此，我们发现PT在gp120蛋白的内外结构域交界处与两个抑制剂环部分结合。结果表明，两个gp120腔的共同占据如何协同抑制受体和共受体结合，并将蛋白构象捕获在不稳定状态。双腔模型与小分子gp120抑制剂结合位点具有共同特征，并为基于PT药效团的肽模拟HIV-1灭活剂的进一步设计提供了指导。

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