甲基取代的2-解磷定类似物增强有机磷酸酯抑制酶再活化作用的机制研究

Mechanistic Insights into Enhanced Reactivation of Organophosphate-Inhibited Enzymes by Methyl-Substituted 2-Pralidoxime Analogs.

作者信息

Naweephattana Phiphob, Kongkaew Nalinee, Surawatanawong Panida, Kungwan Nawee, Fang Yin, Wolschann Peter, Maitarad Phornphimon, Hengphasatporn Kowit, Shigeta Yasuteru, Rungrotmongkol Thanyada, Vangnai Alisa S

机构信息

Center of Excellence in Biocatalyst and Sustainable Biotechnology, Department of Biochemistry, Faculty of Science, Chulalongkorn University, Bangkok 10330, Thailand.

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

出版信息

J Phys Chem B. 2025 Jun 12;129(23):5698-5706. doi: 10.1021/acs.jpcb.5c01375. Epub 2025 May 27.

DOI:10.1021/acs.jpcb.5c01375

PMID:40424485

Abstract

Organophosphate (OP) compounds, such as paraoxon (POX), inhibit enzymes critical for neurotransmission, causing severe neurotoxic effects. Pralidoxime (2-pyridine aldoxime methyl chloride) or 2-PAM is commonly employed to reverse this inhibition, but its reactivation efficiency is limited. This study computationally explores the reactivation mechanisms of 2-PAM and its methyl-substituted analogs, 4-methyl-2-PAM (4-Met-2-PAM), and 4,6-dimethyl-2-PAM (4,6-Dimet-2-PAM). The reactivation process involves several key steps, such as hydrogen transfer and nucleophilic substitution (). Introducing methyl groups at positions 4 and 6 increases the negative charge on the oxime oxygen, improving nucleophilicity and reactivity. Both 4-Met-2-PAM and 4,6-Dimet-2-PAM show better reactivity than 2-PAM, with 4,6-Dimet-2-PAM demonstrating the greatest improvement. This enhanced reactivity shifts the rate-determining step from nucleophilic substitution to the initial hydrogen transfer. These findings offer valuable insights for designing more effective oxime-based antidotes for organophosphate poisoning.

摘要

有机磷酸酯（OP）化合物，如对氧磷（POX），会抑制对神经传递至关重要的酶，从而导致严重的神经毒性作用。解磷定（2-吡啶醛肟甲基氯）或2-PAM通常用于逆转这种抑制作用，但其重新激活效率有限。本研究通过计算探索了2-PAM及其甲基取代类似物4-甲基-2-PAM（4-Met-2-PAM）和4,6-二甲基-2-PAM（4,6-Dimet-2-PAM）的重新激活机制。重新激活过程涉及几个关键步骤，如氢转移和亲核取代（）。在4位和6位引入甲基会增加肟氧上的负电荷，提高亲核性和反应性。4-Met-2-PAM和4,6-Dimet-2-PAM的反应性均优于2-PAM，其中4,6-Dimet-2-PAM的改善最为显著。这种增强的反应性将速率决定步骤从亲核取代转移到初始氢转移。这些发现为设计更有效的基于肟的有机磷中毒解毒剂提供了有价值的见解。

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Mechanistic Insights into Enhanced Reactivation of Organophosphate-Inhibited Enzymes by Methyl-Substituted 2-Pralidoxime Analogs.甲基取代的2-解磷定类似物增强有机磷酸酯抑制酶再活化作用的机制研究

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甲基取代的2-解磷定类似物增强有机磷酸酯抑制酶再活化作用的机制研究

Mechanistic Insights into Enhanced Reactivation of Organophosphate-Inhibited Enzymes by Methyl-Substituted 2-Pralidoxime Analogs.

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