HIV-1整合酶与转录共激活因子p75之间识别的结构基础

Structural basis for the recognition between HIV-1 integrase and transcriptional coactivator p75.

作者信息

Cherepanov Peter, Ambrosio Andre L B, Rahman Shaila, Ellenberger Tom, Engelman Alan

机构信息

Department of Cancer Immunology and AIDS, Dana-Farber Cancer Institute, Boston, MA 02115, USA.

出版信息

Proc Natl Acad Sci U S A. 2005 Nov 29;102(48):17308-13. doi: 10.1073/pnas.0506924102. Epub 2005 Oct 31.

DOI:10.1073/pnas.0506924102

PMID:16260736

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1297672/

Abstract

Integrase (IN) is an essential retroviral enzyme, and human transcriptional coactivator p75, which is also referred to as lens epithelium-derived growth factor (LEDGF), is the dominant cellular binding partner of HIV-1 IN. Here, we report the crystal structure of the dimeric catalytic core domain of HIV-1 IN complexed to the IN-binding domain of LEDGF. Previously identified LEDGF hotspot residues anchor the protein to both monomers at the IN dimer interface. The principal structural features of IN that are recognized by the host factor are the backbone conformation of residues 168-171 from one monomer and a hydrophobic patch that is primarily comprised of alpha-helices 1 and 3 of the second IN monomer. Inspection of diverse retroviral primary and secondary sequence elements helps to explain the apparent lentiviral tropism of the LEDGF-IN interaction. Because the lethal phenotypes of HIV-1 mutant viruses unable to interact with LEDGF indicate that IN function is highly sensitive to perturbations of the structure around the LEDGF-binding site, we propose that small molecule inhibitors of the protein-protein interaction might similarly disrupt HIV-1 replication.

摘要

整合酶（IN）是逆转录病毒的一种必需酶，而人类转录共激活因子p75（也称为晶状体上皮衍生生长因子，LEDGF）是HIV-1整合酶的主要细胞结合伴侣。在此，我们报告了与LEDGF的整合酶结合结构域复合的HIV-1整合酶二聚体催化核心结构域的晶体结构。先前鉴定出的LEDGF热点残基将该蛋白锚定在整合酶二聚体界面处的两个单体上。宿主因子识别的整合酶的主要结构特征是来自一个单体的168-171位残基的主链构象以及一个主要由第二个整合酶单体的α-螺旋1和3组成的疏水区域。对多种逆转录病毒一级和二级序列元件的检查有助于解释LEDGF-整合酶相互作用明显的慢病毒嗜性。由于无法与LEDGF相互作用的HIV-1突变病毒的致死表型表明整合酶功能对LEDGF结合位点周围结构的扰动高度敏感，我们提出蛋白质-蛋白质相互作用的小分子抑制剂可能同样会破坏HIV-1复制。

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