人乙酰胆碱酯酶受抑制时配体结合与解离途径的优先通道

Preferential Door for Ligand Binding and Unbinding Pathways in Inhibited Human Acetylcholinesterase.

作者信息

Kongkaew Nalinee, Hengphasatporn Kowit, Shigeta Yasuteru, Rungrotmongkol Thanyada, Harada Ryuhei

机构信息

Program in Bioinformatics and Computational Biology, Graduate School, Chulalongkorn University, Bangkok, 10330, Thailand.

Center for Computational Sciences, University of Tsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki 305-8577, Japan.

出版信息

J Phys Chem Lett. 2024 May 30;15(21):5696-5704. doi: 10.1021/acs.jpclett.4c00514. Epub 2024 May 20.

DOI:10.1021/acs.jpclett.4c00514

PMID:38768263

Abstract

Rising global population and increased food demands have resulted in the increased use of organophosphate pesticides (OPs), leading to toxin accumulation and transmission to humans. Pralidoxime (2-PAM), an FDA-approved drug, serves as an antidote for OP therapy. However, the atomic-level detoxification mechanisms regarding the design of novel antidotes remain unclear. This is the first study to examine the binding and unbinding pathways of 2-PAM to human acetylcholinesterase (HuAChE) through three identified doors using an enhanced sampling method called ligand-binding parallel cascade selection molecular dynamics (LB-PaCS-MD). Remarkably, LB-PaCS-MD could identify a predominant in-line binding mechanism through the acyl door at 63.79% ± 6.83%, also implicating it in a potential unbinding route (90.14% ± 4.22%). Interestingly, crucial conformational shifts in key residues, W86, Y341, and Y449, and the Ω loop significantly affect door dynamics and ligand binding modes. The LB-PaCS-MD technique can study ligand-binding pathways, thereby contributing to the design of antidotes and covalent drugs.

摘要

全球人口增长和食物需求增加导致有机磷酸酯类农药（OPs）的使用增多，进而导致毒素积累并传递给人类。解磷定（2-PAM）是一种经美国食品药品监督管理局（FDA）批准的药物，用作OP治疗的解毒剂。然而，关于新型解毒剂设计的原子水平解毒机制仍不清楚。这是第一项通过一种名为配体结合平行级联选择分子动力学（LB-PaCS-MD）的增强采样方法，研究2-PAM通过三个已确定的通道与人类乙酰胆碱酯酶（HuAChE）结合和解离途径的研究。值得注意的是，LB-PaCS-MD能够识别出一种主要的通过酰基通道的线性结合机制，其发生率为63.79%±6.83%，这也暗示了它可能存在的解离途径（90.14%±4.22%）。有趣的是，关键残基W86、Y341和Y449以及Ω环的关键构象变化显著影响通道动力学和配体结合模式。LB-PaCS-MD技术可以研究配体结合途径，从而有助于解毒剂和共价药物的设计。

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Preferential Door for Ligand Binding and Unbinding Pathways in Inhibited Human Acetylcholinesterase.人乙酰胆碱酯酶受抑制时配体结合与解离途径的优先通道

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人乙酰胆碱酯酶受抑制时配体结合与解离途径的优先通道

Preferential Door for Ligand Binding and Unbinding Pathways in Inhibited Human Acetylcholinesterase.

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