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核MxA蛋白与流感病毒核蛋白形成复合物，并抑制工程化流感病毒基因组的转录。

Nuclear MxA proteins form a complex with influenza virus NP and inhibit the transcription of the engineered influenza virus genome.

作者信息

Turan Kadir, Mibayashi Masaki, Sugiyama Kenji, Saito Shoko, Numajiri Akiko, Nagata Kyosuke

机构信息

University of Marmara, Faculty of Pharmacy, Department of Pharmaceutical Biotechnology, Haydarpasa, Kadikoy, Istanbul 34668, Turkey.

出版信息

Nucleic Acids Res. 2004 Jan 29;32(2):643-52. doi: 10.1093/nar/gkh192. Print 2004.

DOI:10.1093/nar/gkh192

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC373319/

Abstract

Mx proteins belong to the dynamin superfamily of high molecular weight GTPases and interfere with multiplication of a wide variety of viruses. Earlier studies show that nuclear mouse Mx1 and human MxA designed to be localized in the nucleus inhibit the transcription step of the influenza virus genome. Here we set a transient influenza virus transcription system using luciferase as a reporter gene and cells expressing the three RNA polymerase subunits, PB1, PB2 and PA, and NP. We used this reporter assay system and nuclear-localized MxA proteins to get clues for elucidating the anti-influenza virus activity of MxA. Nuclear-localized VP16-MxA and MxA-TAg NLS strongly interfered with the influenza virus transcription. Over-expression of PB2 led to a slight resumption of the transcription inhibition by nuclear MxA, whereas over-expression of PB1 and PA did not affect the MxA activity. Of interest is that the inhibitory activity of the nuclear MxA was markedly neutralized by over-expression of NP. An NP devoid of its C-terminal region, but containing the N-terminal RNA binding domain, also neutralized the VP16-MxA activity in a dose-dependent manner, whereas an NP lacking the N-terminal region did not affect the VP16-MxA activity. Further, not only VP16-MxA but also the wild-type MxA was found to interact with NP in influenza virus-infected cells. This indicates that the nuclear MxA suppresses the influenza virus transcription by interacting with not only PB2 but also NP.

摘要

Mx蛋白属于高分子量GTP酶的发动蛋白超家族，可干扰多种病毒的增殖。早期研究表明，定位于细胞核的小鼠Mx1和人MxA可抑制流感病毒基因组的转录步骤。在此，我们建立了一个以荧光素酶作为报告基因的瞬时流感病毒转录系统，该系统由表达三种RNA聚合酶亚基PB1、PB2和PA以及NP的细胞组成。我们使用这个报告检测系统和定位于细胞核的MxA蛋白来寻找阐明MxA抗流感病毒活性的线索。定位于细胞核的VP16-MxA和MxA-TAg NLS强烈干扰流感病毒转录。PB2的过表达导致细胞核MxA对转录的抑制作用略有恢复，而PB1和PA的过表达不影响MxA的活性。有趣的是，NP的过表达显著中和了细胞核MxA的抑制活性。一个缺失C末端区域但含有N末端RNA结合结构域的NP也以剂量依赖的方式中和了VP16-MxA的活性，而一个缺失N末端区域的NP不影响VP16-MxA的活性。此外，不仅VP16-MxA，而且野生型MxA也被发现在流感病毒感染的细胞中与NP相互作用。这表明细胞核MxA不仅通过与PB2相互作用，还通过与NP相互作用来抑制流感病毒转录。