Developing toxicogenomics as a research tool by applying benchmark dose-response modelling to inform chemical mode of action and tumorigenic potency

International journal of biotechnology Pub Date : 2016-02-20 DOI:10.1504/ijbt.2015.074796

S. Hester, D. Eastmond, Virunya S Bhat

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引用次数: 7

Abstract

Global expression profiling of short-term exposures can inform chemical mode of action (MOA), temporality of key events, and tumorigenic potency. In this compilation of case studies, transcriptional benchmark dose (BMDT) estimates for activation of key genes and pathways after short-term exposures were consistent with and thus phenotypically anchored to potency estimates for the tumorigenic outcome or precursor key events such as hyperplasia. The case studies included liver gene expression at ≤ 30 days for conazole pesticides and prototype nuclear receptor (CAR and PPARα) non-genotoxic rodent hepatocarcinogens and urinary bladder gene expression at ≤ 20 weeks for diuron, a substituted urea pesticide associated with urinary bladder cytotoxicity and tumorigenesis in rats. By encompassing multiple rodent species, target tissues, MOA, chemical classes, and exposure durations, this approach illustrates how toxicogenomics as a research tool can help develop more efficient chemical testing and prioritisation strategies for future data-poor chemicals with high exposure potential.

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通过应用基准剂量-反应模型为化学作用模式和致瘤效力提供信息，发展毒物基因组学作为研究工具

短期暴露的全局表达谱可以为化学作用模式(MOA)、关键事件的时间性和致瘤效力提供信息。在本案例研究汇编中，短期暴露后关键基因和途径激活的转录基准剂量(BMDT)估计值与致瘤结果或前驱关键事件(如增生)的效力估计值一致，因此在表型上锚定在此。病例研究包括康唑类农药和原型核受体(CAR和PPARα)非基因毒性啮齿动物肝癌致癌物≤30天的肝脏基因表达，以及与大鼠膀胱细胞毒性和肿瘤发生相关的脲类农药(diuron)≤20周的膀胱基因表达。通过涵盖多种啮齿动物物种、目标组织、MOA、化学类别和暴露持续时间，该方法说明了毒物基因组学作为一种研究工具如何帮助开发更有效的化学测试和优先策略，以应对未来高暴露潜力的缺乏数据的化学物质。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of biotechnology

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