Risk-based prioritization of PFAS using phenotypic and transcriptomic data from human induced pluripotent stem cell-derived hepatocytes and cardiomyocytes.

IF 4.5 2区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Altex-Alternatives To Animal Experimentation Pub Date : 2024-01-01 Epub Date: 2024-02-22 DOI:10.14573/altex.2311031
Han-Hsuan D Tsai, Lucie C Ford, Zunwei Chen, Allison N Dickey, Fred A Wright, Ivan Rusyn
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Abstract

Per- and polyfluoroalkyl substances (PFAS) are chemicals with important applications; they are persistent in the environment and may pose human health hazards. Regulatory agencies are con­sidering restrictions and bans of PFAS; however, little data exists for informed decisions. Several prioritization strategies were proposed for evaluation of potential hazards of PFAS. Structure-based grouping could expedite the selection of PFAS for testing; still, the hypothesis that structure-effect relationships exist for PFAS requires confirmation. We tested 26 structurally diverse PFAS from 8 groups using human induced pluripotent stem cell-derived hepatocytes and cardiomyocytes, and tested concentration-response effects on cell function and gene expression. Few phenotypic effects were observed in hepatocytes, but negative chronotropy was observed in cardiomyocytes for 8 PFAS. Substance- and cell type-dependent transcriptomic changes were more prominent but lacked substantial group-specific effects. In hepatocytes, we found upregulation of stress-related and extracellular matrix organization pathways, and down-regulation of fat metabolism. In car­diomyocytes, contractility-related pathways were most affected. We derived phenotypic and transcriptomic points of departure and compared them to predicted PFAS exposures. Conservative estimates for bioactivity and exposure were used to derive a bioactivity-to-exposure ratio (BER) for each PFAS; 23 of 26 PFAS had BER > 1. Overall, these data suggest that structure-based PFAS grouping may not be sufficient to predict their biological effects. Testing of individual PFAS may be needed for scientifically-supported decision-making. Our proposed strategy of using two human cell types and considering phenotypic and transcriptomic effects, combined with dose-response analysis and calculation of BER, may be used for PFAS prioritization.

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利用从人类诱导多能干细胞衍生的肝细胞和心肌细胞中获得的表型和转录组数据,对全氟辛烷磺酸进行基于风险的优先排序。
全氟烷基和多氟烷基物质(PFAS)是具有重要用途的化学品;它们在环境中具有持久性,可能对人类健康造成危害。监管机构正在考虑限制和禁止全氟烷基磺酸盐;然而,用于做出知情决定的数据却很少。为评估 PFAS 的潜在危害,提出了几种优先排序策略。基于结构的分组可以加快选择全氟辛烷磺酸进行测试的速度;但全氟辛烷磺酸存在结构-效应关系的假设仍需确认。我们利用人体诱导多能干细胞衍生肝细胞和心肌细胞,测试了 8 组 26 种结构不同的 PFAS,并测试了浓度对细胞功能和基因表达的影响。在肝细胞中几乎没有观察到表型效应,但在 26 种 PFAS 中,有 8 种观察到了负的计时器效应。依赖于物质和细胞类型的转录组变化更为突出,但缺乏实质性的组特异性影响。在肝细胞中,我们发现应力相关途径和细胞外基质组织途径上调,脂肪代谢途径下调。在心肌细胞中,与收缩相关的通路受到的影响最大。我们得出了表型和转录组的出发点,并将其与预测的 PFAS 暴露进行了比较。根据对生物活性和暴露的保守估计,得出了每种 PFAS 的生物活性与暴露比 (BER),大多数 PFAS(26 种中的 23 种)的 BER > 1。总体而言,这些数据表明,基于结构对 PFAS 进行分组可能不足以预测其生物效应。可能需要对单个 PFAS 进行测试,以便做出科学决策。我们建议的策略是使用两种人类细胞类型,考虑表型和转录组学效应,结合剂量反应分析和误码率计算,可用于确定 PFAS 的优先级。
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来源期刊
Altex-Alternatives To Animal Experimentation
Altex-Alternatives To Animal Experimentation MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
7.70
自引率
8.90%
发文量
89
审稿时长
2 months
期刊介绍: ALTEX publishes original articles, short communications, reviews, as well as news and comments and meeting reports. Manuscripts submitted to ALTEX are evaluated by two expert reviewers. The evaluation takes into account the scientific merit of a manuscript and its contribution to animal welfare and the 3R principle.
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