{"title":"Effects of organophosphates on precision-cut kidney slices.","authors":"C Hoeffner, F Worek, N Amend","doi":"10.1080/15376516.2024.2356184","DOIUrl":null,"url":null,"abstract":"<p><p>Organophosphate (OP) poisoning, both accidental and with suicidal intent, is a global medical challenge. While the primary toxicity of these pesticides is based on the inhibition of acetylcholinesterase (AChE), case reports describe patients developing OP-mediated renal insufficiency. We set out to investigate possible pathomechanisms utilizing rat precision-cut kidney slices (PCKS). Depending on the method of investigation, PCKS were observed for a maximum of 10 days. PCKS exposed to OP compounds (malaoxon, malathion, paraoxon, parathion) showed a dose-dependent loss of viability and a reduction of total protein content over the course of 10 days. A concentration of 500 µM OP showed the most differences between OP compounds. After two days of incubation parathion showed a significantly lower level of viability than malathion. The respective effects of paraoxon and malaoxon were not significantly different from the control. However, effects of OP were only observed in concentrations exceeding those that were needed to achieve significant AChE inhibition in rat kidney tissue. In addition, we observed histological changes, without inducing LDH leakage. Overall, results suggest that OP exert effects in kidney tissue, that exceed those expected from the sole inhibition of AChE and vary between compounds. Without signs of necrosis, findings call for studies that address other possible pathomechanisms, including inflammatory response, oxidative stress or activation of apoptosis to further understand the nephrotoxicity of OP compounds. Monitoring oxon concentration over time, we demonstrated reduced enzyme-inhibiting properties in the presence of PCKS, suggesting interactions between OP compound and kidney tissue.</p>","PeriodicalId":23177,"journal":{"name":"Toxicology Mechanisms and Methods","volume":null,"pages":null},"PeriodicalIF":3.2000,"publicationDate":"2024-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Toxicology Mechanisms and Methods","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1080/15376516.2024.2356184","RegionNum":4,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2024/5/23 0:00:00","PubModel":"Epub","JCR":"Q1","JCRName":"Pharmacology, Toxicology and Pharmaceutics","Score":null,"Total":0}
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Abstract
Organophosphate (OP) poisoning, both accidental and with suicidal intent, is a global medical challenge. While the primary toxicity of these pesticides is based on the inhibition of acetylcholinesterase (AChE), case reports describe patients developing OP-mediated renal insufficiency. We set out to investigate possible pathomechanisms utilizing rat precision-cut kidney slices (PCKS). Depending on the method of investigation, PCKS were observed for a maximum of 10 days. PCKS exposed to OP compounds (malaoxon, malathion, paraoxon, parathion) showed a dose-dependent loss of viability and a reduction of total protein content over the course of 10 days. A concentration of 500 µM OP showed the most differences between OP compounds. After two days of incubation parathion showed a significantly lower level of viability than malathion. The respective effects of paraoxon and malaoxon were not significantly different from the control. However, effects of OP were only observed in concentrations exceeding those that were needed to achieve significant AChE inhibition in rat kidney tissue. In addition, we observed histological changes, without inducing LDH leakage. Overall, results suggest that OP exert effects in kidney tissue, that exceed those expected from the sole inhibition of AChE and vary between compounds. Without signs of necrosis, findings call for studies that address other possible pathomechanisms, including inflammatory response, oxidative stress or activation of apoptosis to further understand the nephrotoxicity of OP compounds. Monitoring oxon concentration over time, we demonstrated reduced enzyme-inhibiting properties in the presence of PCKS, suggesting interactions between OP compound and kidney tissue.
有机磷(OP)中毒,包括意外中毒和自杀性中毒,是一项全球性的医学挑战。虽然这些杀虫剂的主要毒性是基于对乙酰胆碱酯酶(AChE)的抑制,但也有病例报告描述了由 OP 引起的肾功能不全。我们利用大鼠精切肾切片(PCKS)研究了可能的病理机制。根据不同的调查方法,我们对 PCKS 进行了最长 10 天的观察。暴露于 OP 化合物(马拉松、马拉硫磷、对氧松、对硫磷)的 PCKS 在 10 天的过程中显示出与剂量相关的活力丧失和总蛋白含量降低。浓度为 500 µM OP 的 OP 化合物之间的差异最大。培养两天后,对硫磷的活力明显低于马拉硫磷。对硫磷和马拉硫磷各自的效果与对照组没有明显差异。不过,只有在浓度超过对大鼠肾脏组织中 AChE 产生显著抑制作用所需的浓度时,才能观察到 OP 的作用。此外,我们还观察到组织学上的变化,但没有诱导 LDH 泄漏。总之,研究结果表明,OP 对肾脏组织的影响超出了单纯抑制 AChE 的预期,而且不同化合物的影响也不尽相同。在没有坏死迹象的情况下,研究结果要求研究其他可能的病理机制,包括炎症反应、氧化应激或细胞凋亡的激活,以进一步了解 OP 化合物的肾毒性。随着时间的推移,我们对氧杂蒽醌浓度进行了监测,结果表明在 PCKS 存在的情况下,酶抑制特性降低,这表明 OP 化合物与肾组织之间存在相互作用。
期刊介绍:
Toxicology Mechanisms and Methods is a peer-reviewed journal whose aim is twofold. Firstly, the journal contains original research on subjects dealing with the mechanisms by which foreign chemicals cause toxic tissue injury. Chemical substances of interest include industrial compounds, environmental pollutants, hazardous wastes, drugs, pesticides, and chemical warfare agents. The scope of the journal spans from molecular and cellular mechanisms of action to the consideration of mechanistic evidence in establishing regulatory policy.
Secondly, the journal addresses aspects of the development, validation, and application of new and existing laboratory methods, techniques, and equipment. A variety of research methods are discussed, including:
In vivo studies with standard and alternative species
In vitro studies and alternative methodologies
Molecular, biochemical, and cellular techniques
Pharmacokinetics and pharmacodynamics
Mathematical modeling and computer programs
Forensic analyses
Risk assessment
Data collection and analysis.
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