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在一组综合化学品中评估TGx-DDI基因的遗传毒性。

Assessment of TGx-DDI genes for genotoxicity in a comprehensive panel of chemicals.

作者信息

Barutcu A Rasim

机构信息

ScitoVation, Durham, NC, USA.

出版信息

Toxicol Mech Methods. 2024 Sep;34(7):761-767. doi: 10.1080/15376516.2024.2335966. Epub 2024 Apr 15.

DOI:10.1080/15376516.2024.2335966
PMID:38538091
Abstract

BACKGROUND

The TGx-DDI biomarker identifies transcripts specifically induced by primary DNA damage. Profiling similarity of TGx-DDI signatures can allow clustering compounds by genotoxic mechanism. This transcriptomics-based approach complements conventional toxicology testing by enhancing mechanistic resolution.

METHODS

Unsupervised hierarchical clustering and t-distributed stochastic neighbor embedding (tSNE) were utilized to assess similarity of publicly-available per- and polyfluoroalkyl substances (PFAS) and ToxCast chemicals based on TGx-DDI modulation. TempO-seq transcriptomic data after highest chemical concentrations were analyzed.

RESULTS

Clustering discriminated between genotoxic and non-genotoxic compounds while drawing similarity among chemicals with shared mechanisms. PFAS largely clustered distinctly from classical mutagens. However, dynamic range across PFAS types and durations indicated variable potential for DNA damage. tSNE visualization reinforced phenotypic groupings, with genotoxins clustering separately from non-DNA damaging agents.

DISCUSSION

Unsupervised learning approaches applied to TGx-DDI profiles effectively categorizes chemical genotoxicity potential, aiding elucidation of biological response pathways. This transcriptomics-based strategy gives further insight into the role and effect of individual TGx-DDI biomarker genes and complements existing assays by enhancing mechanistic resolution. Overall, TGx-DDI biomarker profiling holds promise for predictive safety screening.

摘要

背景

TGx-DDI生物标志物可识别由原发性DNA损伤特异性诱导的转录本。TGx-DDI特征的分析相似性能够按遗传毒性机制对化合物进行聚类。这种基于转录组学的方法通过提高机制分辨率来补充传统毒理学测试。

方法

利用无监督层次聚类和t分布随机邻域嵌入(tSNE),基于TGx-DDI调节评估公开可用的全氟和多氟烷基物质(PFAS)及ToxCast化学品的相似性。分析了最高化学浓度后的TempO-seq转录组数据。

结果

聚类区分了遗传毒性和非遗传毒性化合物,同时显示了具有相同机制的化学品之间的相似性。PFAS在很大程度上与经典诱变剂明显聚类。然而,不同PFAS类型和持续时间的动态范围表明DNA损伤的潜在可能性各不相同。tSNE可视化强化了表型分组,遗传毒素与非DNA损伤剂分开聚类。

讨论

应用于TGx-DDI谱的无监督学习方法有效地对化学物质的遗传毒性潜力进行了分类,有助于阐明生物反应途径。这种基于转录组学的策略进一步深入了解了单个TGx-DDI生物标志物基因的作用和效应,并通过提高机制分辨率补充了现有检测方法。总体而言,TGx-DDI生物标志物分析在预测性安全筛选方面具有前景。

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