X 射线晶体学和非弹性中子散射研究对氧乐果与人乙酰胆碱酯酶结合的结构和动态影响。

Structural and dynamic effects of paraoxon binding to human acetylcholinesterase by X-ray crystallography and inelastic neutron scattering.

机构信息

Department of Natural Sciences, Tennessee Wesleyan University, Athens, TN 37303, USA.

Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA.

出版信息

Structure. 2022 Nov 3;30(11):1538-1549.e3. doi: 10.1016/j.str.2022.09.006. Epub 2022 Oct 19.

DOI:10.1016/j.str.2022.09.006

PMID:36265484

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9637784/

Abstract

Organophosphorus (OP) compounds, including nerve agents and some pesticides, covalently bind to the catalytic serine of human acetylcholinesterase (hAChE), thereby inhibiting acetylcholine hydrolysis necessary for efficient neurotransmission. Oxime antidotes can reactivate the OP-conjugated hAChE, but reactivation efficiency can be low for pesticides, such as paraoxon (POX). Understanding structural and dynamic determinants of OP inhibition and reactivation can provide insights to design improved reactivators. Here, X-ray structures of hAChE with unaged POX, with POX and oximes MMB4 and RS170B, and with MMB4 are reported. A significant conformational distortion of the acyl loop was observed upon POX binding, being partially restored to the native conformation by oximes. Neutron vibrational spectroscopy combined with molecular dynamics simulations showed that picosecond vibrational dynamics of the acyl loop soften in the ∼20-50 cm frequency range. The acyl loop structural perturbations may be correlated with its picosecond vibrational dynamics to yield more comprehensive template for structure-based reactivator design.

摘要

有机磷（OP）化合物，包括神经毒剂和一些杀虫剂，与人类乙酰胆碱酯酶（hAChE）的催化丝氨酸共价结合，从而抑制乙酰胆碱水解，这对于有效的神经传递是必需的。肟解毒剂可以使 OP 结合的 hAChE 重新活化，但对于杀虫剂（如对氧磷（POX）），重新活化的效率可能较低。了解 OP 抑制和重新活化的结构和动态决定因素可以为设计改进的重活化剂提供见解。本文报道了 hAChE 与未老化的 POX、POX 和肟 MMB4 和 RS170B 以及 MMB4 的 X 射线结构。在 POX 结合时观察到酰基环的显著构象扭曲，肟部分将其恢复到天然构象。中子振动光谱结合分子动力学模拟表明，酰基环的皮秒振动动力学在约 20-50 cm 的频率范围内软化。酰基环结构的扰动可能与其皮秒振动动力学相关，为基于结构的重活化剂设计提供更全面的模板。

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