以单分子分辨率观察 SARS-CoV-2 Omicron 穗状三聚体在融合激活过程中的构象动态

IF 4.4 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Structure Pub Date : 2024-10-03 DOI:10.1016/j.str.2024.09.008

Shuvankar Dey, Purba Pahari, Srija Mukherjee, James B. Munro, Dibyendu Kumar Das

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引用次数: 0

摘要

严重急性呼吸系统综合征冠状病毒 2（SARS-CoV-2）奥米克隆的进入涉及尖峰（S）糖蛋白介导的病毒膜和晚期内体膜的融合。在这里，我们利用单分子佛尔斯特共振能量转移（sm-FRET）成像和生化测量，直接观察了SARS-CoV-2 Omicron假病毒表面单个尖峰三聚体在融合激活过程中的构象变化。我们观察到，Omicron 穗状病毒的 S2 结构域是一个动态的融合机器。S2 可逆地在融合前构象和两种以前未曾描述过的中间构象之间互换。酸性 pH 会使 S2 的构象平衡转向中间构象，并促进膜半融合反应。此外，我们还捕捉到了 S2 结构域的构象可逆性，这表明尖峰可以保护自己免受预触发的影响。此外，我们还确定 Ca2+ 能直接促进 S2 从中间构象转变为融合后构象。在目标膜存在的情况下，低 pH 值和 Ca2+ 会刺激向 S2 融合后状态的不可逆转变，并促进膜融合。

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Conformational dynamics of SARS-CoV-2 Omicron spike trimers during fusion activation at single molecule resolution

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Omicron entry involves spike (S) glycoprotein-mediated fusion of viral and late endosomal membranes. Here, using single-molecule Förster resonance energy transfer (sm-FRET) imaging and biochemical measurements, we directly visualized conformational changes of individual spike trimers on the surface of SARS-CoV-2 Omicron pseudovirions during fusion activation. We observed that the S2 domain of the Omicron spike is a dynamic fusion machine. S2 reversibly interchanges between the pre-fusion conformation and two previously undescribed intermediate conformations. Acidic pH shifts the conformational equilibrium of S2 toward an intermediate conformation and promotes the membrane hemi-fusion reaction. Moreover, we captured conformational reversibility in the S2 domain, which suggests that spike can protect itself from pre-triggering. Furthermore, we determined that Ca²⁺ directly promotes the S2 conformational change from an intermediate conformation to post-fusion conformation. In the presence of a target membrane, low pH and Ca²⁺ stimulate the irreversible transition to S2 post-fusion state and promote membrane fusion.

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来源期刊

Structure 生物-生化与分子生物学

CiteScore

8.90

自引率

1.80%

发文量

155

审稿时长

3-8 weeks

期刊介绍： Structure aims to publish papers of exceptional interest in the field of structural biology. The journal strives to be essential reading for structural biologists, as well as biologists and biochemists that are interested in macromolecular structure and function. Structure strongly encourages the submission of manuscripts that present structural and molecular insights into biological function and mechanism. Other reports that address fundamental questions in structural biology, such as structure-based examinations of protein evolution, folding, and/or design, will also be considered. We will consider the application of any method, experimental or computational, at high or low resolution, to conduct structural investigations, as long as the method is appropriate for the biological, functional, and mechanistic question(s) being addressed. Likewise, reports describing single-molecule analysis of biological mechanisms are welcome. In general, the editors encourage submission of experimental structural studies that are enriched by an analysis of structure-activity relationships and will not consider studies that solely report structural information unless the structure or analysis is of exceptional and broad interest. Studies reporting only homology models, de novo models, or molecular dynamics simulations are also discouraged unless the models are informed by or validated by novel experimental data; rationalization of a large body of existing experimental evidence and making testable predictions based on a model or simulation is often not considered sufficient.