通过多步行者监督分子动力学（mwSuMD）解决的隐藏GPCR结构转变。

Hidden GPCR structural transitions addressed by multiple walker supervised molecular dynamics (mwSuMD).

作者信息

Deganutti Giuseppe, Pipito Ludovico, Rujan Roxana Maria, Weizmann Tal, Griffin Peter, Ciancetta Antonella, Moro Stefano, Reynolds Christopher Arthur

机构信息

Centre for Health and Life Sciences, Coventry University, Coventry, United Kingdom.

Dipartimento di Scienze Chimiche, Farmaceutiche ed Agrarie, University of Ferrara, Ferrara, Italy.

出版信息

Elife. 2025 Apr 30;13:RP96513. doi: 10.7554/eLife.96513.

DOI:10.7554/eLife.96513

PMID:40305095

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12043319/

Abstract

The structural basis for the pharmacology of human G protein-coupled receptors (GPCRs), the most abundant membrane proteins and the target of about 35% of approved drugs, is still a matter of intense study. What makes GPCRs challenging to study is the inherent flexibility and the metastable nature of interaction with extra- and intracellular partners that drive their effects. Here, we present a molecular dynamics (MD) adaptive sampling algorithm, namely multiple walker supervised molecular dynamics (mwSuMD), to address complex structural transitions involving GPCRs without energy input. We first report the binding and unbinding of the vasopressin peptide from its receptor V. Successively, we present the complete transition of the glucagon-like peptide-1 receptor (GLP-1R) from inactive to active, agonist and G-bound state, and the guanosine diphosphate (GDP) release from G. To our knowledge, this is the first time the whole sequence of events leading from an inactive GPCR to the GDP release is simulated without any energy bias. We demonstrate that mwSuMD can address complex binding processes intrinsically linked to protein dynamics out of reach of classic MD.

摘要

人类G蛋白偶联受体（GPCRs）是最为丰富的膜蛋白，也是约35%已获批药物的作用靶点，其药理学的结构基础仍是深入研究的课题。GPCRs研究具有挑战性的原因在于其固有的灵活性以及与细胞外和细胞内伙伴相互作用的亚稳态性质，这些伙伴驱动着它们的效应。在此，我们提出一种分子动力学（MD）自适应采样算法，即多步行者监督分子动力学（mwSuMD），以解决涉及GPCRs的复杂结构转变问题，且无需能量输入。我们首先报道了加压素肽与其受体V的结合与解离。随后，我们展示了胰高血糖素样肽-1受体（GLP-1R）从无活性状态到活性、激动剂结合和G结合状态的完整转变，以及鸟苷二磷酸（GDP）从G上的释放。据我们所知，这是首次在没有任何能量偏差的情况下模拟从无活性GPCR到GDP释放的整个事件序列。我们证明，mwSuMD能够解决与经典MD难以企及的蛋白质动力学内在相关的复杂结合过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/174a/12043319/9c882f6f51db/elife-96513-fig1.jpg

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通过多步行者监督分子动力学（mwSuMD）解决的隐藏GPCR结构转变。

Hidden GPCR structural transitions addressed by multiple walker supervised molecular dynamics (mwSuMD).

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