Computational and experimental identification of keystone interactions in Ebola virus matrix protein VP40 dimer formation

IF 4.5 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Protein Science Pub Date : 2024-04-09 DOI:10.1002/pro.4978
Yogesh Narkhede, Roopashi Saxena, Tej Sharma, Jacob P. Conarty, Valentina Toro Ramirez, Balindile B. Motsa, Souad Amiar, Sheng Li, Prem P. Chapagain, Olaf Wiest, Robert V. Stahelin
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Abstract

The Ebola virus (EBOV) is a lipid‐enveloped virus with a negative sense RNA genome that can cause severe and often fatal viral hemorrhagic fever. The assembly and budding of EBOV is regulated by the matrix protein, VP40, which is a peripheral protein that associates with anionic lipids at the inner leaflet of the plasma membrane. VP40 is sufficient to form virus‐like particles (VLPs) from cells, which are nearly indistinguishable from authentic virions. Due to the restrictions of studying EBOV in BSL‐4 facilities, VP40 has served as a surrogate in cellular studies to examine the EBOV assembly and budding process from the host cell plasma membrane. VP40 is a dimer where inhibition of dimer formation halts budding and formation of new VLPs as well as VP40 localization to the plasma membrane inner leaflet. To better understand VP40 dimer stability and critical amino acids to VP40 dimer formation, we integrated computational approaches with experimental validation. Site saturation/alanine scanning calculation, combined with molecular mechanics‐based generalized Born with Poisson‐Boltzmann surface area (MM‐GB/PBSA) method and molecular dynamics simulations were used to predict the energetic contribution of amino acids to VP40 dimer stability and the hydrogen bonding network across the dimer interface. These studies revealed several previously unknown interactions and critical residues predicted to impact VP40 dimer formation. In vitro and cellular studies were then pursued for a subset of VP40 mutations demonstrating reduction in dimer formation (in vitro) or plasma membrane localization (in cells). Together, the computational and experimental approaches revealed critical residues for VP40 dimer stability in an alpha‐helical interface (between residues 106–117) as well as in a loop region (between residues 52–61) below this alpha‐helical region. This study sheds light on the structural origins of VP40 dimer formation and may inform the design of a small molecule that can disrupt VP40 dimer stability.
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通过计算和实验确定埃博拉病毒基质蛋白 VP40 二聚体形成过程中的基石相互作用
埃博拉病毒(EBOV)是一种脂质包膜病毒,其基因组为负感 RNA,可引起严重的、往往致命的病毒性出血热。EBOV 的组装和出芽受基质蛋白 VP40 的调控,VP40 是一种外周蛋白,与质膜内叶的阴离子脂质结合。VP40 足以从细胞中形成病毒样颗粒(VLPs),与真正的病毒颗粒几乎没有区别。由于在 BSL-4 设施中研究 EBOV 存在限制,VP40 在细胞研究中被用作替代物,用于研究 EBOV 从宿主细胞质膜组装和出芽的过程。VP40 是一种二聚体,抑制二聚体的形成会阻止新 VLPs 的萌发和形成以及 VP40 在质膜内叶的定位。为了更好地了解 VP40 二聚体的稳定性和 VP40 二聚体形成的关键氨基酸,我们将计算方法与实验验证相结合。我们利用位点饱和/丙氨酸扫描计算,结合基于分子力学的广义玻恩与泊松-玻尔兹曼表面积(MM-GB/PBSA)方法和分子动力学模拟,预测了氨基酸对 VP40 二聚体稳定性的能量贡献以及二聚体界面上的氢键网络。这些研究揭示了几个以前未知的相互作用和影响 VP40 二聚体形成的关键残基。随后,我们对部分 VP40 突变进行了体外和细胞研究,结果表明这些突变降低了二聚体的形成(体外)或质膜定位(细胞内)。计算和实验方法共同揭示了 VP40 二聚体稳定性的关键残基,这些残基位于α-螺旋界面(残基 106-117 之间)以及α-螺旋区域下方的环状区域(残基 52-61 之间)。这项研究揭示了 VP40 二聚体形成的结构起源,并可能为设计能破坏 VP40 二聚体稳定性的小分子提供依据。
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来源期刊
Protein Science
Protein Science 生物-生化与分子生物学
CiteScore
12.40
自引率
1.20%
发文量
246
审稿时长
1 months
期刊介绍: Protein Science, the flagship journal of The Protein Society, is a publication that focuses on advancing fundamental knowledge in the field of protein molecules. The journal welcomes original reports and review articles that contribute to our understanding of protein function, structure, folding, design, and evolution. Additionally, Protein Science encourages papers that explore the applications of protein science in various areas such as therapeutics, protein-based biomaterials, bionanotechnology, synthetic biology, and bioelectronics. The journal accepts manuscript submissions in any suitable format for review, with the requirement of converting the manuscript to journal-style format only upon acceptance for publication. Protein Science is indexed and abstracted in numerous databases, including the Agricultural & Environmental Science Database (ProQuest), Biological Science Database (ProQuest), CAS: Chemical Abstracts Service (ACS), Embase (Elsevier), Health & Medical Collection (ProQuest), Health Research Premium Collection (ProQuest), Materials Science & Engineering Database (ProQuest), MEDLINE/PubMed (NLM), Natural Science Collection (ProQuest), and SciTech Premium Collection (ProQuest).
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