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HIV-1整合酶多聚化作为一种治疗靶点。

HIV-1 integrase multimerization as a therapeutic target.

作者信息

Feng Lei, Larue Ross C, Slaughter Alison, Kessl Jacques J, Kvaratskhelia Mamuka

机构信息

The Center for Retrovirus Research and College of Pharmacy, The Ohio State University, Columbus, OH, 43210, USA.

出版信息

Curr Top Microbiol Immunol. 2015;389:93-119. doi: 10.1007/82_2015_439.

DOI:10.1007/82_2015_439
PMID:25778682
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4791179/
Abstract

Multimeric HIV-1 integrase (IN) plays an essential, multifunctional role in virus replication and serves as an important therapeutic target. Structural and biochemical studies have revealed the importance of the ordered interplay between IN molecules for its function. In the presence of viral DNA ends, individual IN subunits assemble into a tetramer and form a stable synaptic complex (SSC), which mediates integration of the reverse transcribed HIV-1 genome into chromatin. Cellular chromatin-associated protein LEDGF/p75 engages the IN tetramer in the SSC and directs HIV-1 integration into active genes. A mechanism to deregulate the productive interplay between IN subunits with small molecule inhibitors has recently received considerable attention. Most notably, allosteric IN inhibitors (ALLINIs) have been shown to bind to the IN dimer interface at the LEDGF/p75 binding pocket, stabilize interacting IN subunits, and promote aberrant, higher order IN multimerization. Consequently, these compounds impair formation of the SSC and associated LEDGF/p75-independent IN catalytic activities as well as inhibit LEDGF/p75 binding to the SSC in vitro. However, in infected cells, ALLINIs more potently impaired correct maturation of virus particles than the integration step. ALLINI treatments induced aberrant, higher order IN multimerization in virions and resulted in eccentric, non-infectious virus particles. These studies have suggested that the correctly ordered IN structure is important for virus particle morphogenesis and highlighted IN multimerization as a plausible therapeutic target for developing new inhibitors to enhance treatment options for HIV-1-infected patients.

摘要

多聚体HIV-1整合酶(IN)在病毒复制中发挥着至关重要的多功能作用,并作为一个重要的治疗靶点。结构和生化研究揭示了IN分子之间有序相互作用对其功能的重要性。在病毒DNA末端存在的情况下,单个IN亚基组装成四聚体并形成稳定的突触复合物(SSC),该复合物介导逆转录的HIV-1基因组整合到染色质中。细胞染色质相关蛋白LEDGF/p75在SSC中与IN四聚体结合,并将HIV-1整合引导至活性基因中。一种利用小分子抑制剂解除IN亚基之间有效相互作用的机制最近受到了广泛关注。最值得注意的是,变构IN抑制剂(ALLINIs)已被证明在LEDGF/p75结合口袋处与IN二聚体界面结合,稳定相互作用的IN亚基,并促进异常的高阶IN多聚化。因此,这些化合物损害了SSC的形成以及相关的不依赖LEDGF/p75的IN催化活性,并且在体外抑制LEDGF/p75与SSC的结合。然而,在受感染的细胞中,ALLINIs对病毒颗粒正确成熟的损害比对整合步骤的损害更有效。ALLINI处理诱导病毒颗粒中出现异常的高阶IN多聚化,并导致偏心的、无感染性的病毒颗粒。这些研究表明,正确有序的IN结构对病毒颗粒形态发生很重要,并突出了IN多聚化作为开发新抑制剂以增加HIV-1感染患者治疗选择的一个合理治疗靶点。

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