有机磷农药通过 NLRP3 炎症小体激活诱导细胞毒性的潜在共同机制

IF 4.3 2区 医学 Q2 ENVIRONMENTAL SCIENCES Geohealth Pub Date : 2024-04-18 DOI:10.1029/2023GH000888
Xiaoning Wang, Xin Sui, Yangyang Sun, Ziqi Cui, Ning Ma, Shuai Wang, Jun Yang, Fengying Liu, Weijie Yang, Zhenyu Xiao, Tong Zhu, Yuan Luo, Yongan Wang
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引用次数: 0

摘要

多重威胁医学对策(MTMC)技术对于开发常见的生化信号通路、分子介质和细胞过程至关重要。这项研究发现,类Nod受体3(NLRP3)炎性体通路可能是各种有机磷农药(OPPs)诱导细胞毒性的重要因素。研究表明,暴露于六种不同类型的有机磷农药(敌百虫、敌敌畏、倍硫磷、敌克松、二溴磷和乐果)会导致BV2细胞出现显著的细胞毒性,并伴随着NLRP3炎性体复合物(NLRP3、ASC、Caspase-1)和下游炎性细胞因子(IL-1β、IL-18)表达的增加,其中细胞毒性的顺序为敌敌畏、敌敌畏、敌克松、二溴磷和乐果;IC50值分别为274、410、551、585、2,158和1,527,566 μM。研究结果表明,以 NLRP3 炎性体通路为靶点可能是开发广谱抗毒药物的一种潜在方法,以对抗多种OPPs 引起的毒性。此外,抑制NLRP3能有效保护细胞免受这六种OPPs诱导的细胞毒性,NLRP3、ASC、Caspase-1、IL-1β和IL-18的表达也相应减少。根据KD值(分别为89.8、325、1,460和2,690 μM),NLRP3与OPPs的亲和力依次为乐果、对硫磷、敌敌畏、敌百虫和倍硫磷(倍硫磷和敌克松)。此外,通过毒性效应基团(苯环、含氮/氧官能团)、=O、-O-或=S(活性)基团以及组合残基(Gly271、Asp272)的存在,阐明了 NLRP3-OPPs 的共同分子机制。这一发现为探索多种威胁的共同机制和开发有效的治疗策略以预防 OPPs 中毒提供了宝贵的见解。
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Potential Common Mechanisms of Cytotoxicity Induced by Organophosphorus Pesticides via NLRP3 Inflammasome Activation

The Multi-Threat Medical Countermeasure (MTMC) technique is crucial for developing common biochemical signaling pathways, molecular mediators, and cellular processes. This study revealed that the Nod-like receptor 3 (NLRP3) inflammasome pathway may be a significant contributor to the cytotoxicity induced by various organophosphorus pesticides (OPPs). The study demonstrated that exposure to six different types of OPPs (paraoxon, dichlorvos, fenthion, dipterex, dibrom, and dimethoate) led to significant cytotoxicity in BV2 cells, which was accompanied by increased expression of NLRP3 inflammasome complexes (NLRP3, ASC, Caspase-1) and downstream inflammatory cytokines (IL-1β, IL-18), in which the order of cytotoxicity was dichlorvos > dipterex > dibrom > paraoxon > fenthion > dimethoate, based on the IC50 values of 274, 410, 551, 585, 2,158, and 1,527,566 μM, respectively. The findings suggest that targeting the NLRP3 inflammasome pathway could be a potential approach for developing broad-spectrum antitoxic drugs to combat multi-OPPs-induced toxicity. Moreover, inhibition of NLRP3 efficiently protected the cells against cytotoxicity induced by these six OPPs, and the expression of NLRP3, ASC, Caspase-1, IL-1β, and IL-18 decreased accordingly. The order of NLRP3 affinity for OPPs was dimethoate > paraoxon > dichlorvos > dibrom > (fenthion and dipterex) based on KD values of 89.8, 325, 1,460, and 2,690 μM, respectively. Furthermore, the common molecular mechanism of NLRP3-OPPs was clarified by the presence of toxicity effector groups (benzene ring, nitrogen/oxygen-containing functional group); =O, -O-, or =S (active) groups; and combination residues (Gly271, Asp272). This finding provided valuable insights into exploring the common mechanisms of multiple threats and developing effective therapeutic strategies to prevent OPPs poisoning.

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来源期刊
Geohealth
Geohealth Environmental Science-Pollution
CiteScore
6.80
自引率
6.20%
发文量
124
审稿时长
19 weeks
期刊介绍: GeoHealth will publish original research, reviews, policy discussions, and commentaries that cover the growing science on the interface among the Earth, atmospheric, oceans and environmental sciences, ecology, and the agricultural and health sciences. The journal will cover a wide variety of global and local issues including the impacts of climate change on human, agricultural, and ecosystem health, air and water pollution, environmental persistence of herbicides and pesticides, radiation and health, geomedicine, and the health effects of disasters. Many of these topics and others are of critical importance in the developing world and all require bringing together leading research across multiple disciplines.
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