利用短期暴露和转录本特征分析确定致癌化学品的新方法。

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2024-10-17 eCollection Date: 2024-01-01 DOI:10.3389/ftox.2024.1422325
Victoria Ledbetter, Scott Auerbach, Logan J Everett, Beena Vallanat, Anna Lowit, Gregory Akerman, William Gwinn, Leah C Wehmas, Michael F Hughes, Michael Devito, J Christopher Corton
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引用次数: 0

摘要

目前的癌症风险评估方法耗费大量资源,而且对于成千上万种未经检测的化学品来说并不可行。在早期的研究中,我们开发了一种新的方法(NAM),利用基因表达生物标志物和相关的致癌活化水平(TALs),在大鼠短期暴露后识别肝脏肿瘤原。生物标志物用于预测六种最常见的啮齿动物肝癌分子启动事件。在本研究中,我们希望确认我们的方法是否可用于仅在一个时间点/剂量识别肝脏肿瘤原,以及该方法是否可应用于(靶向)RNA-Seq 分析。雄性大鼠每天灌胃接触 15 种已知慢性结果剂量的化学品 4 天,使用 Affymetrix 阵列生成肝脏转录本图谱。我们的方法使用从 TG-GATES 或 DrugMatrix 研究中获得的 TALs 预测准确率分别为 75% 或 85%。在一个由雄性大鼠肝脏生成的数据集中,我们发现我们的 NAM 与靶向 RNA-Seq(TempO-Seq)相结合,可用于识别致癌化学物质,预测准确率高达 91%。总之,这些结果表明,我们的 NAM 可以应用于从短期大鼠暴露中生成的微阵列和(靶向)RNA-Seq 数据,以识别会诱发肝脏肿瘤(啮齿动物生物测定中最常见的终点之一)的化学品、其剂量和作用模式。
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A new approach methodology to identify tumorigenic chemicals using short-term exposures and transcript profiling.

Current methods for cancer risk assessment are resource-intensive and not feasible for most of the thousands of untested chemicals. In earlier studies, we developed a new approach methodology (NAM) to identify liver tumorigens using gene expression biomarkers and associated tumorigenic activation levels (TALs) after short-term exposures in rats. The biomarkers are used to predict the six most common rodent liver cancer molecular initiating events. In the present study, we wished to confirm that our approach could be used to identify liver tumorigens at only one time point/dose and if the approach could be applied to (targeted) RNA-Seq analyses. Male rats were exposed for 4 days by daily gavage to 15 chemicals at doses with known chronic outcomes and liver transcript profiles were generated using Affymetrix arrays. Our approach had 75% or 85% predictive accuracy using TALs derived from the TG-GATES or DrugMatrix studies, respectively. In a dataset generated from the livers of male rats exposed to 16 chemicals at up to 10 doses for 5 days, we found that our NAM coupled with targeted RNA-Seq (TempO-Seq) could be used to identify tumorigenic chemicals with predictive accuracies of up to 91%. Overall, these results demonstrate that our NAM can be applied to both microarray and (targeted) RNA-Seq data generated from short-term rat exposures to identify chemicals, their doses, and mode of action that would induce liver tumors, one of the most common endpoints in rodent bioassays.

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