Feature-agnostic metabolomics for determining effective subcytotoxic doses of common pesticides in human cells.

IF 3.4 3区 医学 Q2 TOXICOLOGY Toxicological Sciences Pub Date : 2024-11-01 DOI:10.1093/toxsci/kfae101
Emilio S Rivera, Erick S LeBrun, Joshua D Breidenbach, Emilia Solomon, Claire K Sanders, Tara Harvey, Chi Yen Tseng, M Grace Thornhill, Brett R Blackwell, Ethan M McBride, Kes A Luchini, Marc Alvarez, Robert F Williams, Jeremy L Norris, Phillip M Mach, Trevor G Glaros
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Abstract

Although classical molecular biology assays can provide a measure of cellular response to chemical challenges, they rely on a single biological phenomenon to infer a broader measure of cellular metabolic response. These methods do not always afford the necessary sensitivity to answer questions of subcytotoxic effects, nor do they work for all cell types. Likewise, boutique assays such as cardiomyocyte beat rate may indirectly measure cellular metabolic response, but they too, are limited to measuring a specific biological phenomenon and are often limited to a single cell type. For these reasons, toxicological researchers need new approaches to determine metabolic changes across various doses in differing cell types, especially within the low-dose regime. The data collected herein demonstrate that LC-MS/MS-based untargeted metabolomics with a feature-agnostic view of the data, combined with a suite of statistical methods including an adapted environmental threshold analysis, provides a versatile, robust, and holistic approach to directly monitoring the overall cellular metabolomic response to pesticides. When employing this method in investigating two different cell types, human cardiomyocytes and neurons, this approach revealed separate subcytotoxic metabolomic responses at doses of 0.1 and 1 µM of chlorpyrifos and carbaryl. These findings suggest that this agnostic approach to untargeted metabolomics can provide a new tool for determining effective dose by metabolomics of chemical challenges, such as pesticides, in a direct measurement of metabolomic response that is not cell type-specific or observable using traditional assays.

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通过特征诊断代谢组学确定常见农药在人体细胞中的有效亚细胞毒性剂量
虽然经典的分子生物学检测方法可以衡量细胞对化学挑战的反应,但它们依赖于单一的生物现象来推断更广泛的细胞代谢反应。这些方法并不总能提供回答亚毒性效应问题所需的灵敏度,也不适用于所有细胞类型。同样,心肌细胞搏动率等精品检测方法也可间接测量细胞代谢反应,但它们也仅限于测量特定的生物现象,而且往往局限于单一细胞类型。由于这些原因,毒理学研究人员需要新的方法来确定不同细胞类型在不同剂量下的代谢变化,尤其是在低剂量情况下。本文收集的数据表明,基于 LC-MS/MS 的非靶向代谢组学与数据特征识别视图相结合,再加上一套统计方法(包括经过调整的环境阈值分析),为直接监测细胞对农药的整体代谢组学反应提供了一种多功能、稳健而全面的方法。在使用这种方法研究人类心肌细胞和神经元这两种不同类型的细胞时,这种方法揭示了毒死蜱和西维因在剂量为 0.1 µM 和 1 µM 时各自的亚毒性代谢组学反应。这些研究结果表明,这种不可知的非靶向代谢组学方法可以为通过代谢组学(EDm)确定杀虫剂等化学挑战的有效剂量提供一种新工具,直接测量代谢组反应,而这种反应不具有细胞类型特异性,也不能用传统方法观察到。
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来源期刊
Toxicological Sciences
Toxicological Sciences 医学-毒理学
CiteScore
7.70
自引率
7.90%
发文量
118
审稿时长
1.5 months
期刊介绍: The mission of Toxicological Sciences, the official journal of the Society of Toxicology, is to publish a broad spectrum of impactful research in the field of toxicology. The primary focus of Toxicological Sciences is on original research articles. The journal also provides expert insight via contemporary and systematic reviews, as well as forum articles and editorial content that addresses important topics in the field. The scope of Toxicological Sciences is focused on a broad spectrum of impactful toxicological research that will advance the multidisciplinary field of toxicology ranging from basic research to model development and application, and decision making. Submissions will include diverse technologies and approaches including, but not limited to: bioinformatics and computational biology, biochemistry, exposure science, histopathology, mass spectrometry, molecular biology, population-based sciences, tissue and cell-based systems, and whole-animal studies. Integrative approaches that combine realistic exposure scenarios with impactful analyses that move the field forward are encouraged.
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