有丝分裂去乙酰化酶复合体(MiDAC)识别HIV-1核心启动子来控制tat激活的转录和潜伏期

Emmanuelle Wilhelm, Mikael Poirier, Mikael Bedard, Patrick P. McDonald, Pierre Lavigne, Christie Hunter, Brendan Bell
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摘要

人类免疫缺陷病毒(HIV)整合到宿主基因组中形成潜在的细胞储存库,这是治疗或缓解策略的障碍。病毒转录是控制潜伏期的第一步,依赖于宿主细胞RNA聚合酶II (Pol II)机制被5' HIV LTR劫持。因此,阻断和锁定或休克和杀死HIV治疗策略取决于对HIV转录控制的充分理解。HIV反式激活蛋白Tat作为一个正前馈循环的一部分控制HIV潜伏期,该循环强烈激活HIV转录。宿主细胞HIV预起始复合物(PICH)对核心启动子Tat反式激活(taset)所必需的TATA盒和邻近的HIV序列的识别已被证明是Tat反式激活所必需的,但PICH的蛋白质组成仍然不清楚。本文采用dna亲和层析法鉴定有丝分裂脱乙酰酶复合体(MiDAC)选择性识别TASHET。利用生物物理技术,我们发现MiDAC亚基DNTTIP1直接与TASHET结合,部分通过其CTGC DNA基序。通过共免疫沉淀实验,我们发现DNTTIP1与MiDAC亚基MIDEAS和HDAC1/2相互作用。tat相互作用蛋白NAT10也存在于hiv结合的MiDAC中。基因沉默揭示了DNTTIP1、MIDEAS和NAT10在细胞中HIV表达中的功能作用。此外,TASHET中阻止DNTTIP1结合的点突变阻断了潜伏期逆转剂(LRA)在潜伏期模型中通过P-TEFb/7SK轴起作用的HIV的再激活。我们的数据揭示了MiDAC亚基DNTTIP1、MIDEAS和NAT10在tat激活的HIV转录和潜伏期中发挥关键作用。DNTTIP1、MIDEAS和NAT10是细胞周期调控的宿主细胞转录因子,可控制HIV潜伏期,是HIV治愈策略的新药物靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mitotic deacetylase complex (MiDAC) recognizes the HIV-1 core promoter to control Tat-activated transcription and latency
The human immunodeficiency virus (HIV) integrates into the host genome forming latent cellular reservoirs that are an obstacle for cure or remission strategies. Viral transcription is the first step in the control of latency and depends upon the hijacking of the host cell RNA polymerase II (Pol II) machinery by the 5' HIV LTR. Consequently, block and lock or shock and kill strategies for an HIV cure depend upon a full understanding of HIV transcriptional control. The HIV trans-activating protein, Tat, controls HIV latency as part of a positive feed-forward loop that strongly activates HIV transcription. The recognition of the TATA box and adjacent sequences of HIV essential for Tat trans-activation (TASHET) of the core promoter by host cell pre initiation complexes of HIV (PICH) has been shown to be necessary for Tat trans-activation, yet the protein composition of PICH has remained obscure. Here DNA-affinity chromatography was employed to identify the mitotic deacetylase complex (MiDAC) as selectively recognizing TASHET. Using biophysical techniques, we show that the MiDAC subunit DNTTIP1 binds directly to TASHET, in part via its CTGC DNA motifs. Using co-immunoprecipitation assays, we show that DNTTIP1 interacts with MiDAC subunits MIDEAS and HDAC1/2. The Tat-interacting protein, NAT10, is also present in HIV-bound MiDAC. Gene silencing revealed a functional role for DNTTIP1, MIDEAS, and NAT10 in HIV expression in cellulo. Furthermore, point mutations in TASHET that prevent DNTTIP1 binding block the reactivation of HIV by latency reversing agents (LRA) that act via the P-TEFb/7SK axis in a model of latency. Our data reveal a key role for MiDAC subunits DNTTIP1, MIDEAS, as well as NAT10, in Tat-activated HIV transcription and latency. DNTTIP1, MIDEAS and NAT10 emerge as cell cycle-regulated host cell transcription factors that can control HIV latency, and as new drug targets for HIV cure strategies.
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