利用淡水虾作为水生无脊椎动物模型，通过研究生理和生化参数来评估非靶标农药诱导的毒性。

Exploiting the Freshwater Shrimp as Aquatic Invertebrate Model to Evaluate Nontargeted Pesticide Induced Toxicity by Investigating Physiologic and Biochemical Parameters.

作者信息

Siregar Petrus, Suryanto Michael Edbert, Chen Kelvin H-C, Huang Jong-Chin, Chen Hong-Ming, Kurnia Kevin Adi, Santoso Fiorency, Hussain Akhlaq, Ngoc Hieu Bui Thi, Saputra Ferry, Audira Gilbert, Roldan Marri Jmelou M, Fernandez Rey Arturo, Macabeo Allan Patrick G, Lai Hong-Thih, Hsiao Chung-Der

机构信息

Department of Chemistry, Chung Yuan Christian University, Chung-Li 320314, Taiwan.

Department of Bioscience Technology, Chung Yuan Christian University, Chung-Li 320314, Taiwan.

出版信息

Antioxidants (Basel). 2021 Mar 5;10(3):391. doi: 10.3390/antiox10030391.

DOI:10.3390/antiox10030391

PMID:33807713

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7999401/

Abstract

As a nicotinoid neurotoxic insecticide, imidacloprid (IMI) works by disrupting nerve transmission via nicotinic acetylcholine receptor (nAChR). Although IMI is specifically targeting insects, nontarget animals such as the freshwater shrimp, , could also be affected, thus causing adverse effects on the aquatic environment. To investigate IMI toxicity on nontarget organisms like , their physiology (locomotor activity, heartbeat, and gill ventilation) and biochemical factors (oxidative stress, energy metabolism) after IMI exposure were examined. IMI exposure at various concentrations (0.03125, 0.0625, 0.125, 0.25, 0.5, and 1 ppm) to shrimp after 24, 48, 72 h led to dramatic reduction of locomotor activity even at low concentrations. Meanwhile, IMI exposure after 92 h caused reduced heartbeat and gill ventilation at high concentrations. Biochemical assays were performed to investigate oxidative stress and energy metabolism. Interestingly, locomotion immobilization and cardiac activity were rescued after acetylcholine administration. Through molecular docking, IMI demonstrated high binding affinity to nAChR. Thus, locomotor activity and heartbeat in shrimp after IMI exposure may be caused by nAChR blockade and not alterations caused by oxidative stress and energy metabolism. To summarize, serves as an excellent and sensitive aquatic invertebrate model to conduct pesticide toxicity assays that encompass physiologic and biochemical examinations.

摘要

作为一种烟碱类神经毒性杀虫剂，吡虫啉（IMI）通过干扰烟碱型乙酰胆碱受体（nAChR）来破坏神经传递。尽管IMI专门针对昆虫，但非靶标动物如淡水虾也可能受到影响，从而对水生环境造成不利影响。为了研究IMI对像淡水虾这样的非靶标生物的毒性，检测了IMI暴露后它们的生理指标（运动活性、心跳和鳃通气）和生化因素（氧化应激、能量代谢）。在24、48、72小时后，以各种浓度（0.03125、0.0625、0.125、0.25、0.5和1 ppm）将IMI暴露于虾，即使在低浓度下也导致运动活性急剧降低。同时，92小时后IMI暴露在高浓度下导致心跳和鳃通气减少。进行生化分析以研究氧化应激和能量代谢。有趣的是，给予乙酰胆碱后运动麻痹和心脏活动得到恢复。通过分子对接，IMI对nAChR表现出高结合亲和力。因此，IMI暴露后虾的运动活性和心跳可能是由nAChR阻断引起的，而不是由氧化应激和能量代谢改变引起的。总之，淡水虾是进行包括生理和生化检查在内的农药毒性试验的优秀且敏感的水生无脊椎动物模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6174/7999401/aac19f60d513/antioxidants-10-00391-g0A1.jpg

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利用淡水虾作为水生无脊椎动物模型，通过研究生理和生化参数来评估非靶标农药诱导的毒性。

Exploiting the Freshwater Shrimp as Aquatic Invertebrate Model to Evaluate Nontargeted Pesticide Induced Toxicity by Investigating Physiologic and Biochemical Parameters.

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