非经典脯氨酸-酪氨酸相互作用与多种宿主蛋白调节埃博拉病毒感染。

Non-canonical proline-tyrosine interactions with multiple host proteins regulate Ebola virus infection.

机构信息

J. David Gladstone Institutes, San Francisco, CA, USA.

Department of Cellular and Molecular Pharmacology, University of California, San Francisco, CA, USA.

出版信息

EMBO J. 2021 Sep 15;40(18):e105658. doi: 10.15252/embj.2020105658. Epub 2021 Aug 2.

DOI:10.15252/embj.2020105658

PMID:34260076

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8441301/

Abstract

The Ebola virus VP30 protein interacts with the viral nucleoprotein and with host protein RBBP6 via PPxPxY motifs that adopt non-canonical orientations, as compared to other proline-rich motifs. An affinity tag-purification mass spectrometry approach identified additional PPxPxY-containing host proteins hnRNP L, hnRNPUL1, and PEG10, as VP30 interactors. hnRNP L and PEG10, like RBBP6, inhibit viral RNA synthesis and EBOV infection, whereas hnRNPUL1 enhances. RBBP6 and hnRNP L modulate VP30 phosphorylation, increase viral transcription, and exert additive effects on viral RNA synthesis. PEG10 has more modest inhibitory effects on EBOV replication. hnRNPUL1 positively affects viral RNA synthesis but in a VP30-independent manner. Binding studies demonstrate variable capacity of the PPxPxY motifs from these proteins to bind VP30, define PxPPPPxY as an optimal binding motif, and identify the fifth proline and the tyrosine as most critical for interaction. Competition binding and hydrogen-deuterium exchange mass spectrometry studies demonstrate that each protein binds a similar interface on VP30. VP30 therefore presents a novel proline recognition domain that is targeted by multiple host proteins to modulate viral transcription.

摘要

埃博拉病毒 VP30 蛋白通过与病毒核蛋白和宿主蛋白 RBBP6 相互作用的 PPxPxY 基序与其他富含脯氨酸的基序相比，采用非典型取向。亲和标签纯化质谱方法鉴定了其他含有 PPxPxY 的宿主蛋白 hnRNP L、hnRNPUL1 和 PEG10 作为 VP30 相互作用蛋白。hnRNP L 和 PEG10 与 RBBP6 一样，抑制病毒 RNA 合成和 EBOV 感染，而 hnRNPUL1 增强。RBBP6 和 hnRNP L 调节 VP30 磷酸化，增加病毒转录，并对病毒 RNA 合成产生相加作用。PEG10 对 EBOV 复制的抑制作用更为温和。hnRNPUL1 对病毒 RNA 合成有积极影响，但不依赖 VP30。结合研究表明，这些蛋白的 PPxPxY 基序与 VP30 的结合能力不同，定义 PxPPPPxY 为最佳结合基序，并确定第五个脯氨酸和酪氨酸对相互作用最为关键。竞争结合和氘氢交换质谱研究表明，每种蛋白质都结合 VP30 上相似的界面。因此，VP30 呈现出一种新的脯氨酸识别结构域，被多种宿主蛋白靶向以调节病毒转录。

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