Benzyl alcohol synergistic effect with deltamethrin against Musca domestica with molecular docking of potential modes of action.

IF 1.6 3区农林科学 Q2 ENTOMOLOGY

Medical and Veterinary Entomology Pub Date : 2025-04-26 DOI:10.1111/mve.12807

Abdel-Azeem S Abdel-Baki, Shawky M Aboelhadid, Samar M Ibrahium, Saleh Al-Quraishy, Sahar M Gadelhaq, Manal Ahmed, Heba M Abdel-Haleem, Abdulrahman Reyad, Asmaa A Kamel

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引用次数: 0

Abstract

The house fly (Musca domestica Linnaeus, 1758) has developed resistance to several pesticides, necessitating innovative approaches for effective control. This study explores the synergistic effects of benzyl alcohol (BA) on the toxicity of deltamethrin (D) against various life stages of M. domestica larvae, pupae and adults. Additionally, molecular docking analyses were conducted to investigate interactions with the acetylcholinesterase enzyme (AChE) and voltage-sensitive sodium channel (Vssc). Two formulations of deltamethrin were tested: deltamethrin + benzyl alcohol (DBA) mix (D 5% dissolved in ethyl alcohol, then mixed with BA at its LC₅₀ concentration) and DBA combination (D 5% dissolved directly in pure BA). In vitro testing revealed significant synergistic effects. For larvae, the LC₅₀ of deltamethrin alone was 0.95 mg/mL, while the DBA mix reduced it to 0.09 mg/mL, yielding a synergism factor of 10.56. For pupae, deltamethrin's LC₅₀ was 1.32 mg/mL, compared with 0.104 mg/mL for the DBA mix, with a synergism factor of 12.69. The DBA combination also exhibited notable toxicity, with LC₅₀ values of 0.14 mg/mL for larvae and 0.16 mg/mL for pupae, corresponding to synergism factors of 6.79 and 8.80, respectively. Against adult flies, the DBA mix and DBA combination demonstrated high fumigant toxicity, with LC₅₀ values of 0.08 mg/L and 0.09 mg/L air, respectively, and synergism factors of 9.31 and 8.11. Docking analyses showed that deltamethrin exhibited a strong binding affinity to AChE, forming two hydrogen bonds with Lys480 and a pi-sigma interaction with Met351. BA occupied a separate binding pocket in AChE, forming two hydrogen bonds with Met309 and Lys335. Both compounds demonstrated strong, distinct binding affinities, confirming their synergistic inhibition of AChE. Against Vssc, deltamethrin (ΔG = -5.90 kcal/mol) formed a pi-pi interaction with Phe78 and a hydrogen bond with Lys79, while BA (ΔG = -3.79 kcal/mol) interacted with a different pocket via hydrophobic interactions. These findings highlight the potential of combining BA with deltamethrin to overcome insecticide resistance in house fly populations, offering a promising strategy to enhance pest control effectiveness.

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苯甲醇与溴氰菊酯对家蝇的协同效应及其潜在作用方式的分子对接。

家蝇（Musca domestica Linnaeus, 1758）已经对几种杀虫剂产生了抗药性，需要创新的方法来有效控制。本研究探讨了苯甲醇（BA）对溴氰菊酯(D)对家蝇幼虫、蛹和成虫不同生命阶段毒性的协同效应。此外，分子对接分析研究了乙酰胆碱酯酶（AChE）和电压敏感钠通道（Vssc）的相互作用。对溴氰菊酯的两种配方进行了试验：溴氰菊酯+苯甲醇（DBA）混合（d5%溶于乙醇，再以LC50浓度与BA混合）和DBA混合（d5%直接溶于纯BA）。体外实验显示有显著的协同作用。溴氰菊酯单独对幼虫的LC50为0.95 mg/mL， DBA混合对幼虫的LC50为0.09 mg/mL，增效系数为10.56。溴氰菊酯对蛹的LC50为1.32 mg/mL，对DBA的LC50为0.104 mg/mL，增效系数为12.69。DBA联合用药对幼虫的LC50值为0.14 mg/mL，对蛹的LC50值为0.16 mg/mL，协同效应系数分别为6.79和8.80。DBA混合和DBA组合对成蝇具有较高的熏蒸毒性，LC50值分别为0.08 mg/L和0.09 mg/L，增效系数分别为9.31和8.11。对接分析表明，溴氰菊酯与乙酰胆碱酯具有很强的结合亲和力，与Lys480形成两个氢键，与Met351形成一个π -sigma相互作用。BA在AChE中占据一个单独的结合袋，与Met309和Lys335形成两个氢键。这两种化合物表现出强烈的、不同的结合亲和力，证实了它们对乙酰胆碱酯酶的协同抑制作用。对Vssc，溴氰菊酯（ΔG = -5.90 kcal/mol）与Phe78形成pi-pi相互作用，与Lys79形成氢键，BA （ΔG = -3.79 kcal/mol）通过疏水相互作用与另一种囊体发生相互作用。本研究结果强调了溴氰菊酯与溴氰菊酯联用在克服家蝇抗药性方面的潜力，为提高害虫防治效果提供了一种有前景的策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Medical and Veterinary Entomology 农林科学-昆虫学

CiteScore

3.70

自引率

5.30%

发文量

审稿时长

12-24 weeks

期刊介绍： Medical and Veterinary Entomology is the leading periodical in its field. The Journal covers the biology and control of insects, ticks, mites and other arthropods of medical and veterinary importance. The main strengths of the Journal lie in the fields of: -epidemiology and transmission of vector-borne pathogens changes in vector distribution that have impact on the pathogen transmission- arthropod behaviour and ecology- novel, field evaluated, approaches to biological and chemical control methods- host arthropod interactions. Please note that we do not consider submissions in forensic entomology.