基于机器学习的大鼠和人类细胞色素 P450s 化学物质抑制活性硅学预测。

IF 3.7 3区 医学 Q2 CHEMISTRY, MEDICINAL Chemical Research in Toxicology Pub Date : 2024-11-18 Epub Date: 2024-10-20 DOI:10.1021/acs.chemrestox.4c00168
Kaori Ambe, Mizuki Nakamori, Riku Tohno, Kotaro Suzuki, Takamitsu Sasaki, Masahiro Tohkin, Kouichi Yoshinari
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引用次数: 0

摘要

利用化学结构信息和机器学习,通过计算(定量)结构-活性关系方法预测细胞色素 P450 的抑制作用,作为一种简单快速的硅学工具,对毒性研究非常有用。然而,很少有硅学模型关注大鼠和人类在 P450s 抑制方面的物种差异。本研究旨在建立硅学模型,仅使用分子描述符将化学物质分为对大鼠和人类各种 P450s 的抑制剂或非抑制剂。利用体外实验的内部测试结果,我们使用 326 种物质构建了模型并获得了内部验证数据。除这 326 种物质外,我们还使用了 60 种物质作为外部验证数据集。我们重点研究了 7 种大鼠 P450(CYP1A1、CYP1A2、CYP2B1、CYP2C6、CYP2D1、CYP2E1 和 CYP3A2)和 11 种人类 P450(CYP1A1、CYP1A2、CYP1B1、CYP2A6、CYP2B6、CYP2C8、CYP2C9、CYP2C19、CYP2D6、CYP2E1 和 CYP3A4)。在内部验证中,使用 XGBoost 建立的大多数模型的接收者操作特征曲线下面积(ROC-AUC)都达到或超过了 0.8。当我们为模型设定一个适用域并通过外部验证确认其泛化性能时,大多数模型的 ROC-AUC 均达到或超过 0.7。有趣的是,对于 CYP1A1 和 CYP1A2,我们发现人的 P450 抑制活性模型可以预测大鼠的 P450 抑制活性,反之亦然。这些模型是利用化学结构信息预测大鼠和人类多种 P450 抑制活性的首次尝试。我们的实验结果和硅学模型将有助于为化学诱导毒性的物种相似性和差异性提供信息支持。
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Machine Learning-Based In Silico Prediction of the Inhibitory Activity of Chemical Substances Against Rat and Human Cytochrome P450s.

The prediction of cytochrome P450 inhibition by a computational (quantitative) structure-activity relationship approach using chemical structure information and machine learning would be useful for toxicity research as a simple and rapid in silico tool. However, there are few in silico models focusing on the species differences between rat and human in the P450s inhibition. This study aimed to establish in silico models to classify chemical substances as inhibitors or non-inhibitors of various rat and human P450s, using only molecular descriptors. Using the in-house test results from our in vitro experiments, we used 326 substances for model construction and internal validation data. Apart from the 326 substances, 60 substances were used as external validation data set. We focused on seven rat P450s (CYP1A1, CYP1A2, CYP2B1, CYP2C6, CYP2D1, CYP2E1, and CYP3A2) and 11 human P450s (CYP1A1, CYP1A2, CYP1B1, CYP2A6, CYP2B6, CYP2C8, CYP2C9, CYP2C19, CYP2D6, CYP2E1, and CYP3A4). Most of the models established using XGBoost showed an area under the receiver operating characteristic curve (ROC-AUC) of 0.8 or more in the internal validation. When we set an applicability domain for the models and confirmed their generalization performance through external validation, most of the models showed an ROC-AUC of 0.7 or more. Interestingly, for CYP1A1 and CYP1A2, we discovered that a human P450 inhibitory activity model can predict rat P450 inhibitory activity and vice versa. These models are the first attempts to predict inhibitory activity against a wide variety of P450s in both rats and humans using chemical structure information. Our experimental results and in silico models would be helpful to support information for species similarities and differences in chemical-induced toxicity.

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来源期刊
CiteScore
7.90
自引率
7.30%
发文量
215
审稿时长
3.5 months
期刊介绍: Chemical Research in Toxicology publishes Articles, Rapid Reports, Chemical Profiles, Reviews, Perspectives, Letters to the Editor, and ToxWatch on a wide range of topics in Toxicology that inform a chemical and molecular understanding and capacity to predict biological outcomes on the basis of structures and processes. The overarching goal of activities reported in the Journal are to provide knowledge and innovative approaches needed to promote intelligent solutions for human safety and ecosystem preservation. The journal emphasizes insight concerning mechanisms of toxicity over phenomenological observations. It upholds rigorous chemical, physical and mathematical standards for characterization and application of modern techniques.
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