Probing the potential mechanism of permethrin exposure on Alzheimer's disease through enantiomer-specific network toxicology, multi-spectroscopic, and docking approaches

IF 8.1 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Chemosphere Pub Date : 2024-12-01 DOI:10.1016/j.chemosphere.2024.143786
Tianzhu Guan , Ning Li , Ya Gao , Mingyuan Gao , Qin Hu , Yajun Gao , Lixia Xiao , Zhenquan Yang , Qiaoquan Liu
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Abstract

Latest observations indicated that exposure of organic environmental neurotoxins may increase the potential risk of Alzheimer's diseases (AD). As a suspected food-derived risk factor, permethrin, composed of cis-isomer and trans-isomer, is widely used as a broad-spectrum pyrethroid insecticide in agricultural crops for the arthropod pests controlling. Thus, evaluating the impact of permethrin exposure is of great importance to human health. In this study, we performed the toxicological network approach to decipher AD-related mechanisms of cis-permethrin and trans-permethrin. Based on the toxicological network construction and central network topological analysis, human serum albumin (HSA) was selected as the core targets in AD-related developing. From the analysis of the steady state and time-resolved fluorescence quenching of HSA in presence of permethrin mixture, it has been inferred that the nature of the quenching mainly originates from the dynamic modes. Experimentally, the thermodynamic parameters revealed hydrophobic interactions and van der Waals forces played a major role during quenching process. Tryptophan synchronous fluorescence spectra were blue shifted whereas the position of tyrosine synchronous spectra was red shifted during the complex formation. Three-dimensional fluorescence together with FT-IR experiment confirmed that permethrin caused the secondary structure changes in HSA. To better understand the binding patterns between HSA and cis/trans -permethrin, theoretical calculation and molecular docking were implemented. According to the electrostatic potential map, the electrophilic attack region corresponds for electron rich oxygen atoms, while the nucleophilic attack regions were mainly located at over the benzene rings and methyl on cyclopropane ring of permethrins. Docking results shown that cis-permethrin and trans-permethrin located in hydrophobic pocket nearby Domain IIA with the different binding affinity (−7.6 and −9.2 kcal/mol), which consistent with the competitive displacement experiment. All these findings generated in the present study facilitated the elucidation of the molecular mechanism details between permethrin mixture and HSA, which provided fresh insights into the links between environmental exposure and AD-related adverse health outcomes.

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通过对映体特异性网络毒理学、多光谱和对接方法,探索接触氯菊酯对阿尔茨海默病的潜在影响机制。
最新观察表明,接触有机环境神经毒素可能会增加阿尔茨海默病(AD)的潜在风险。氯菊酯由顺式异构体和反式异构体组成,是一种广谱拟除虫菊酯杀虫剂,广泛用于农作物的节肢动物害虫防治。因此,评估氯菊酯暴露对人体健康的影响非常重要。在本研究中,我们采用毒理学网络方法来解读顺式氯菊酯和反式氯菊酯的AD相关机制。在毒理学网络构建和中心网络拓扑分析的基础上,我们选择了人血清白蛋白(HSA)作为AD相关发育的核心靶标。通过分析HSA在菊酯混合物存在下的稳态和时间分辨荧光淬灭,推断出淬灭的性质主要来源于动态模式。实验结果表明,热力学参数显示疏水相互作用和范德华力在淬灭过程中发挥了主要作用。在复合物形成过程中,色氨酸同步荧光光谱发生蓝移,而酪氨酸同步光谱的位置发生红移。三维荧光和傅立叶变换红外光谱实验证实,菊酯导致了 HSA 二级结构的变化。为了更好地理解HSA与顺式/反式氯菊酯的结合模式,研究人员进行了理论计算和分子对接。根据静电位图,亲电攻击区域与富含电子的氧原子相对应,而亲核攻击区域主要位于氯菊酯的苯环和环丙烷环上的甲基。对接结果表明,顺式氯菊酯和反式氯菊酯位于领域 IIA 附近的疏水口袋中,其结合亲和力不同(-7.6 和 -9.2 kcal/mol),这与竞争置换实验结果一致。本研究的所有这些发现有助于阐明氯菊酯混合物与HSA之间的分子机理细节,为环境暴露与AD相关不良健康后果之间的联系提供了新的见解。
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来源期刊
Chemosphere
Chemosphere 环境科学-环境科学
CiteScore
15.80
自引率
8.00%
发文量
4975
审稿时长
3.4 months
期刊介绍: Chemosphere, being an international multidisciplinary journal, is dedicated to publishing original communications and review articles on chemicals in the environment. The scope covers a wide range of topics, including the identification, quantification, behavior, fate, toxicology, treatment, and remediation of chemicals in the bio-, hydro-, litho-, and atmosphere, ensuring the broad dissemination of research in this field.
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