Bayesian approach enabled objective comparison of multiple human iPSC-derived Cardiomyocytes' Proarrhythmia sensitivities.

IF 1.3 4区 医学 Q4 PHARMACOLOGY & PHARMACY Journal of pharmacological and toxicological methods Pub Date : 2024-07-01 DOI:10.1016/j.vascn.2024.107531
Tetsuro Wakatsuki , Neil Daily , Sunao Hisada , Kazuto Nunomura , Bangzhong Lin , Ko Zushida , Yayoi Honda , Mahoko Asyama , Kiyoshi Takasuna
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Abstract

The one-size-fits-all approach has been the mainstream in medicine, and the well-defined standards support the development of safe and effective therapies for many years. Advancing technologies, however, enabled precision medicine to treat a targeted patient population (e.g., HER2+ cancer). In safety pharmacology, computational population modeling has been successfully applied in virtual clinical trials to predict drug-induced proarrhythmia risks against a wide range of pseudo cohorts. In the meantime, population modeling in safety pharmacology experiments has been challenging. Here, we used five commercially available human iPSC-derived cardiomyocytes growing in 384-well plates and analyzed the effects of ten potential proarrhythmic compounds with four concentrations on their calcium transients (CaTs). All the cell lines exhibited an expected elongation or shortening of calcium transient duration with various degrees. Depending on compounds inhibiting several ion channels, such as hERG, peak and late sodium and L-type calcium or IKs channels, some of the cell lines exhibited irregular, discontinuous beating that was not predicted by computational simulations. To analyze the shapes of CaTs and irregularities of beat patterns comprehensively, we defined six parameters to characterize compound-induced CaT waveform changes, successfully visualizing the similarities and differences in compound-induced proarrhythmic sensitivities of different cell lines. We applied Bayesian statistics to predict sample populations based on experimental data to overcome the limited number of experimental replicates in high-throughput assays. This process facilitated the principal component analysis to classify compound-induced sensitivities of cell lines objectively. Finally, the association of sensitivities in compound-induced changes between phenotypic parameters and ion channel inhibitions measured using patch clamp recording was analyzed. Successful ranking of compound-induced sensitivity of cell lines was in lined with visual inspection of raw data.

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贝叶斯方法能够客观地比较多种源于人类 iPSC 的心肌细胞对原心律失常的敏感性。
"一刀切 "的方法一直是医学界的主流,多年来,定义明确的标准为开发安全有效的疗法提供了支持。然而,不断进步的技术使精准医学得以治疗目标患者群体(如 HER2+ 癌症)。在安全药理学方面,计算群体建模已成功应用于虚拟临床试验,针对各种假队列预测药物诱发原发性心律失常的风险。与此同时,安全药理学实验中的群体建模也面临挑战。在这里,我们使用了五种在 384 孔板中生长的市售人类 iPSC 衍生心肌细胞,分析了十种潜在的促心律失常化合物的四种浓度对其钙离子瞬态(CaTs)的影响。所有细胞系都表现出不同程度的钙离子瞬时持续时间延长或缩短。根据抑制多种离子通道(如 hERG、峰值和晚期钠和 L 型钙通道或 IKs 通道)的化合物,一些细胞系表现出不规则、不连续的跳动,这是计算模拟无法预测的。为了全面分析CaT的形状和不规则的跳动模式,我们定义了六个参数来表征化合物诱导的CaT波形变化,成功地将不同细胞系对化合物诱导促心律失常敏感性的异同形象化。我们应用贝叶斯统计法根据实验数据预测样本群,以克服高通量测定中实验重复次数有限的问题。这一过程有助于通过主成分分析客观地对化合物诱导的细胞系敏感性进行分类。最后,分析了表型参数与膜片钳记录测量的离子通道抑制之间化合物诱导的敏感性变化的关联。通过对原始数据的目测,成功地对细胞系的化合物诱导敏感性进行了排序。
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来源期刊
Journal of pharmacological and toxicological methods
Journal of pharmacological and toxicological methods PHARMACOLOGY & PHARMACY-TOXICOLOGY
CiteScore
3.60
自引率
10.50%
发文量
56
审稿时长
26 days
期刊介绍: Journal of Pharmacological and Toxicological Methods publishes original articles on current methods of investigation used in pharmacology and toxicology. Pharmacology and toxicology are defined in the broadest sense, referring to actions of drugs and chemicals on all living systems. With its international editorial board and noted contributors, Journal of Pharmacological and Toxicological Methods is the leading journal devoted exclusively to experimental procedures used by pharmacologists and toxicologists.
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