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Live-cell observation of cytosolic HIV-1 assembly onset reveals RNA-interacting Gag oligomers.活细胞观察胞质HIV-1组装起始揭示了与RNA相互作用的Gag寡聚体。
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HIV-1 integrase multimerization as a therapeutic target.HIV-1整合酶多聚化作为一种治疗靶点。
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A critical role of the C-terminal segment for allosteric inhibitor-induced aberrant multimerization of HIV-1 integrase.C末端片段在变构抑制剂诱导的HIV-1整合酶异常多聚化中起关键作用。
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HIV-1整合酶中保留的螺旋-转角-螺旋对接裂隙在功能上至关重要。

The Preserved HTH-Docking Cleft of HIV-1 Integrase Is Functionally Critical.

作者信息

Galilee Meytal, Britan-Rosich Elena, Griner Sarah L, Uysal Serdar, Baumgärtel Viola, Lamb Don C, Kossiakoff Anthony A, Kotler Moshe, Stroud Robert M, Marx Ailie, Alian Akram

机构信息

Department of Biology, Technion - Israel Institute of Technology, Haifa 320003, Israel.

Department of Immunology and Pathology, The Lautenberg Center for General and Tumor Immunology, The Hebrew University Hadassah Medical School, Jerusalem 91120, Israel.

出版信息

Structure. 2016 Nov 1;24(11):1936-1946. doi: 10.1016/j.str.2016.08.015. Epub 2016 Sep 29.

DOI:10.1016/j.str.2016.08.015
PMID:27692964
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5093063/
Abstract

HIV-1 integrase (IN) catalyzes viral DNA integration into the host genome and facilitates multifunctional steps including virus particle maturation. Competency of IN to form multimeric assemblies is functionally critical, presenting an approach for anti-HIV strategies. Multimerization of IN depends on interactions between the distinct subunit domains and among the flanking protomers. Here, we elucidate an overlooked docking cleft of IN core domain that anchors the N-terminal helix-turn-helix (HTH) motif in a highly preserved and functionally critical configuration. Crystallographic structure of IN core domain in complex with Fab specifically targeting this cleft reveals a steric overlap that would inhibit HTH-docking, C-terminal domain contacts, DNA binding, and subsequent multimerization. While Fab inhibits in vitro IN integration activity, in vivo it abolishes virus particle production by specifically associating with preprocessed IN within Gag-Pol and interfering with early cytosolic Gag/Gag-Pol assemblies. The HTH-docking cleft may offer a fresh hotspot for future anti-HIV intervention strategies.

摘要

人类免疫缺陷病毒1型整合酶(IN)催化病毒DNA整合到宿主基因组中,并促进包括病毒颗粒成熟在内的多功能步骤。IN形成多聚体组装体的能力在功能上至关重要,这为抗HIV策略提供了一种方法。IN的多聚化取决于不同亚基结构域之间以及侧翼原体之间的相互作用。在这里,我们阐明了IN核心结构域一个被忽视的对接裂隙,该裂隙以高度保守且功能关键的构型锚定N端螺旋-转角-螺旋(HTH)基序。与特异性靶向该裂隙的Fab复合的IN核心结构域的晶体结构揭示了一种空间重叠,这种重叠会抑制HTH对接、C端结构域接触、DNA结合以及随后的多聚化。虽然Fab在体外抑制IN整合活性,但在体内它通过与Gag-Pol中预处理的IN特异性结合并干扰早期胞质Gag/Gag-Pol组装体来消除病毒颗粒的产生。HTH对接裂隙可能为未来的抗HIV干预策略提供一个新的热点。