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pH降低导致流感血凝素的融合肽释放及一个高度动态的中间体。

Lowered pH Leads to Fusion Peptide Release and a Highly Dynamic Intermediate of Influenza Hemagglutinin.

作者信息

Lin Xingcheng, Noel Jeffrey K, Wang Qinghua, Ma Jianpeng, Onuchic José N

机构信息

Center for Theoretical Biological Physics, Rice University , Houston, Texas 77030, United States.

Department of Physics and Astronomy, Rice University , Houston, Texas 77005, United States.

出版信息

J Phys Chem B. 2016 Sep 15;120(36):9654-60. doi: 10.1021/acs.jpcb.6b06775. Epub 2016 Sep 1.

DOI:10.1021/acs.jpcb.6b06775
PMID:27541202
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5130312/
Abstract

Hemagglutinin (HA), the membrane-bound fusion protein of the influenza virus, enables the entry of virus into host cells via a structural rearrangement. There is strong evidence that the primary trigger for this rearrangement is the low pH environment of a late endosome. To understand the structural basis and the dynamic consequences of the pH trigger, we employed explicit-solvent molecular dynamics simulations to investigate the initial stages of the HA transition. Our results indicate that lowered pH destabilizes HA and speeds up the dissociation of the fusion peptides (FPs). A buried salt bridge between the N-terminus and Asp1122 of HA stem domain locks the FPs and may act as one of the pH sensors. In line with recent observations from simplified protein models, we find that, after the dissociation of FPs, a structural order-disorder transition in a loop connecting the central coiled-coil to the C-terminal domains produces a highly mobile HA. This motion suggests the existence of a long-lived asymmetric or "symmetry-broken" intermediate during the HA conformational change. This intermediate conformation is consistent with models of hemifusion, and its early formation during the conformational change has implications for the aggregation seen in HA activity.

摘要

血凝素(HA)是流感病毒的膜结合融合蛋白,通过结构重排使病毒进入宿主细胞。有充分证据表明,这种重排的主要触发因素是晚期内体的低pH环境。为了理解pH触发的结构基础和动态后果,我们采用显式溶剂分子动力学模拟来研究HA转变的初始阶段。我们的结果表明,降低pH会使HA不稳定并加速融合肽(FPs)的解离。HA茎结构域N端和Asp1122之间的一个埋藏盐桥锁定了FPs,可能充当pH传感器之一。与最近从简化蛋白质模型得到的观察结果一致,我们发现,FPs解离后,连接中央卷曲螺旋和C端结构域的一个环中的结构有序-无序转变产生了高度可移动的HA。这种运动表明在HA构象变化过程中存在一种长寿命的不对称或“对称破坏”中间体。这种中间构象与半融合模型一致,其在构象变化早期的形成对HA活性中观察到的聚集有影响。

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