Assessing proarrhythmic potential of environmental chemicals using a high throughput in vitro-in silico model with human induced pluripotent stem cell-derived cardiomyocytes.

IF 4.5 2区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL
Altex-Alternatives To Animal Experimentation Pub Date : 2024-01-09 Epub Date: 2023-10-19 DOI:10.14573/altex.2306231
Hsing-Chieh Lin, Ivan Rusyn, Weihsueh A Chiu
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引用次数: 0

Abstract

QT prolongation and the potentially fatal arrhythmia Torsades de Pointes are common causes for withdrawing or restricting drugs; however, little is known about similar liabilities of environmental chemicals. Current in vitro-in silico models for testing proarrhythmic liabilities, using human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CM), provide an opportunity to address this data gap. These methods are still low- to medium-throughput and not suitable for testing the tens of thousands of chemicals in commerce. We hypothesized that combining high-throughput population- based in vitro testing in hiPSC-CMs with a fully in silico data analysis workflow can offer sensitive and specific predictions of proarrhythmic potential. We calibrated the model with a published hiPSC-CM dataset of drugs known to be positive or negative for proarrhythmia and tested its performance using internal cross-validation and external validation. Additionally, we used computational down-sampling to examine three study designs for hiPSC-CM data: one replicate of one donor, five replicates of one donor, and one replicate of a population of five donors. We found that the population of five donors had the best performance for predicting proarrhythmic potential. The resulting model was then applied to predict the proarrhythmic potential of environmental chemicals, additionally characterizing risk through margin of exposure (MOE) calculations. Out of over 900 environmental chemicals tested, over 150 were predicted to have proarrhythmic potential, but only seven chemicals had a MOE < 1. We conclude that a high-throughput in vitro-in silico approach using population-based hiPSC-CM testing provides a reasonable strategy to screen environmental chemicals for proarrhythmic potential.

使用人诱导多能干细胞衍生的心肌细胞的高通量体外计算机模型评估环境化学物质的致心律失常潜力。
QT延长和潜在的致命性心律失常尖端扭转是停药或限制用药的常见原因;然而,人们对环境化学品是否也有类似的责任知之甚少。目前使用人类诱导多能干细胞衍生的心肌细胞(hiPSC CM)测试致心律失常责任的体外计算机模型为解决这一数据缺口提供了机会。这些方法仍然是低到中等吞吐量,不适合在商业中测试数以万计的化学品。我们假设,将基于高通量人群的hiPSC CMs体外测试与完全的计算机数据分析工作流程相结合,可以提供对致心律失常潜力的敏感和特异性预测。我们使用已发表的hiPSC CM数据集校准了该模型,该数据集包含已知对致心律失常呈阳性或阴性的药物,并使用内部交叉验证和外部验证测试了其性能。此外,我们使用计算下采样来检查hiPSC CM数据的三种研究设计:一个供体的一次复制,一个供体五次复制,以及五个供体群体的一次重复。我们发现,由五名捐献者组成的人群在预测致心律失常潜力方面表现最好。然后,将所得模型应用于预测环境化学品的致心律失常潜力,并通过暴露裕度(MOE)计算进一步表征风险。在测试的900多种环境化学物质中,预计有150多种具有致心律失常的潜力,但只有7种化学物质的MOE<1。我们的结论是,使用基于人群的hiPSC CM测试的高通量体外计算机方法为筛选环境化学物质的致心律失常潜力提供了一种合理的方法。
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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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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