HUSH-mediated HIV silencing is independent of TASOR phosphorylation on threonine 819.

IF 2.7 3区医学 Q3 VIROLOGY

Retrovirology Pub Date : 2022-10-29 DOI:10.1186/s12977-022-00610-7

Virginie Vauthier, Angélique Lasserre, Marina Morel, Margaux Versapuech, Clarisse Berlioz-Torrent, Alessia Zamborlini, Florence Margottin-Goguet, Roy Matkovic

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引用次数: 1

Abstract

Background: TASOR, a component of the HUSH repressor epigenetic complex, and SAMHD1, a cellular triphosphohydrolase (dNTPase), are both anti-HIV proteins antagonized by HIV-2/SIVsmm Viral protein X. As a result, the same viral protein is able to relieve two different blocks along the viral life cell cycle, one at the level of reverse transcription, by degrading SAMHD1, the other one at the level of proviral expression, by degrading TASOR. Phosphorylation of SAMHD1 at T592 has been shown to downregulate its antiviral activity. The discovery that T819 in TASOR was lying within a SAMHD1 T592-like motif led us to ask whether TASOR is phosphorylated on this residue and whether this post-translational modification could regulate its repressive activity.

Results: Using a specific anti-phospho-antibody, we found that TASOR is phosphorylated at T819, especially in cells arrested in early mitosis by nocodazole. We provide evidence that the phosphorylation is conducted by a Cyclin/CDK1 complex, like that of SAMHD1 at T592. While we could not detect TASOR in quiescent CD4 + T cells, TASOR and its phosphorylated form are present in activated primary CD4 + T lymphocytes. In addition, TASOR phosphorylation appears to be independent from TASOR repressive activity. Indeed, on the one hand, nocodazole barely reactivates HIV-1 in the J-Lat A1 HIV-1 latency model despite TASOR T819 phosphorylation. On the other hand, etoposide, a second cell cycle arresting drug, reactivates latent HIV-1, without concomitant TASOR phosphorylation. Furthermore, overexpression of wt TASOR or T819A or T819E similarly represses gene expression driven by an HIV-1-derived LTR promoter. Finally, while TASOR is degraded by HIV-2 Vpx, TASOR phosphorylation is prevented by HIV-1 Vpr, likely as a consequence of HIV-1 Vpr-mediated-G2 arrest.

Conclusions: Altogether, we show that TASOR phosphorylation occurs in vivo on T819. This event does not appear to correlate with TASOR-mediated HIV-1 silencing. We speculate that TASOR phosphorylation is related to a role of TASOR during cell cycle progression.

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hush介导的HIV沉默不依赖于苏氨酸819上TASOR磷酸化。

背景:TASOR是HUSH抑制因子表观遗传复合体的组成部分，而SAMHD1是细胞三磷酸水解酶(dNTPase)，两者都是被HIV-2/SIVsmm病毒蛋白x拮抗的抗hiv蛋白。因此，相同的病毒蛋白能够在病毒生命细胞周期中缓解两种不同的阻滞，一种是在逆转录水平上通过降解SAMHD1，另一种是在原病毒表达水平上通过降解TASOR。SAMHD1在T592位点的磷酸化已被证明下调其抗病毒活性。TASOR中的T819位于SAMHD1 t592样基序中，这一发现使我们想知道TASOR是否在该残基上磷酸化，以及这种翻译后修饰是否可以调节其抑制活性。结果:使用特异性抗磷酸化抗体，我们发现TASOR在T819位点磷酸化，特别是在被诺可达唑阻断的早期有丝分裂的细胞中。我们提供的证据表明，磷酸化是由Cyclin/CDK1复合物进行的，就像SAMHD1在T592的磷酸化一样。虽然我们无法在静止的CD4 + T细胞中检测到TASOR，但TASOR及其磷酸化形式存在于激活的原发CD4 + T细胞中。此外，TASOR磷酸化似乎与TASOR抑制活性无关。事实上，一方面，尽管TASOR T819磷酸化，但在J-Lat A1 HIV-1潜伏期模型中，nocodazole几乎没有重新激活HIV-1。另一方面，依托泊苷，第二细胞周期阻滞药物，重新激活潜伏的HIV-1，没有伴随TASOR磷酸化。此外，过表达wt TASOR或T819A或T819E类似地抑制由hiv -1衍生的LTR启动子驱动的基因表达。最后，当TASOR被HIV-2 Vpx降解时，TASOR的磷酸化被HIV-1 Vpr阻止，这可能是HIV-1 Vpr介导的g2阻滞的结果。总之，我们表明TASOR磷酸化在体内发生在T819上。这一事件似乎与tasor介导的HIV-1沉默无关。我们推测TASOR磷酸化与TASOR在细胞周期进程中的作用有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Retrovirology 医学-病毒学

CiteScore

5.80

自引率

3.00%

发文量

审稿时长

>0 weeks

期刊介绍： Retrovirology is an open access, online journal that publishes stringently peer-reviewed, high-impact articles on host-pathogen interactions, fundamental mechanisms of replication, immune defenses, animal models, and clinical science relating to retroviruses. Retroviruses are pleiotropically found in animals. Well-described examples include avian, murine and primate retroviruses. Two human retroviruses are especially important pathogens. These are the human immunodeficiency virus, HIV, and the human T-cell leukemia virus, HTLV. HIV causes AIDS while HTLV-1 is the etiological agent for adult T-cell leukemia and HTLV-1-associated myelopathy/tropical spastic paraparesis. Retrovirology aims to cover comprehensively all aspects of human and animal retrovirus research.