Quantum-Mechanics Calculations Elucidate Skin-Sensitizing Pharmaceutical Compounds

IF 3.7 3区 医学 Q2 CHEMISTRY, MEDICINAL Chemical Research in Toxicology Pub Date : 2024-07-28 DOI:10.1021/acs.chemrestox.4c0018510.1021/acs.chemrestox.4c00185
Jakub Kostal*, Adelina Voutchkova-Kostal, Joel P. Bercu, Jessica C. Graham, Jedd Hillegass, Melisa Masuda-Herrera, Alejandra Trejo-Martin and Janet Gould, 
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Abstract

Skin sensitization is a critical end point in occupational toxicology that necessitates the use of fast, accurate, and affordable models to aid in establishing handling guidance for worker protection. While many in silico models have been developed, the scarcity of reliable data for active pharmaceutical ingredients (APIs) and their intermediates (together regarded as pharmaceutical compounds) brings into question the reliability of these tools, which are largely constructed using publicly available nonspecialty chemicals. Here, we present the quantum-mechanical (QM) Computer-Aided Discovery and REdesign (CADRE) model, which was developed with the bioactive and structurally complex chemical space in mind by relying on the fundamentals of chemical interactions in key events (versus structural attributes of training-set data). Validated in this study on 345 APIs and intermediates, CADRE achieved 95% accuracy, sensitivity, and specificity and a combined 79% accuracy in assigning potency categories compared to the mouse local lymph node assay data. We show how historical outcomes from CADRE testing in the pharmaceutical space, generated over the past 10 years on ca. 2500 chemicals, can be used to probe the relationships between sensitization mechanisms (or the underlying chemical classes) and the probability of eliciting a sensitization response in mice of a given potency. We believe this information to be of value to both practitioners, who can use it to quickly screen and triage their data sets, as well as to model developers to fine-tune their structure-based tools. Lastly, we leverage our experimentally validated subset of APIs and intermediates to show the importance of dermal permeability on the sensitization potential and potency. We demonstrate that common physicochemical properties used to assess permeation, such as the octanol–water partition coefficient and molecular weight, are poor proxies for the more accurate energy-pair distributions that can be computed from mixed QM and classical simulations using model representations of the stratum corneum.

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量子力学计算阐明皮肤过敏药物化合物
皮肤过敏是职业毒理学的一个关键终点,需要使用快速、准确、经济的模型来帮助制定工人保护的处理指南。虽然已经开发出了许多硅学模型,但活性药物成分(API)及其中间体(合称药物化合物)的可靠数据非常稀少,这使人们对这些工具的可靠性产生了怀疑,因为这些工具主要是利用公开的非专业化学品构建的。在此,我们介绍了量子力学(QM)计算机辅助发现和再设计(CADRE)模型,该模型的开发考虑到了生物活性和结构复杂的化学空间,依赖于关键事件中化学相互作用的基本原理(相对于训练集数据的结构属性)。本研究对 345 种原料药和中间体进行了验证,与小鼠局部淋巴结检测数据相比,CADRE 的准确性、灵敏度和特异性均达到 95%,药效类别分配的综合准确率为 79%。我们展示了过去 10 年中对约 2500 种化学品进行的 CADRE 测试在制药领域产生的历史结果,这些结果可用于探究致敏机制(或基本化学品类别)与在小鼠中引起特定效价致敏反应的概率之间的关系。我们相信,这些信息对从业人员和模型开发人员都很有价值,前者可以利用这些信息快速筛选和分流数据集,后者则可以对基于结构的工具进行微调。最后,我们利用经过实验验证的原料药和中间体子集来说明皮肤渗透性对致敏可能性和药效的重要性。我们证明,用于评估渗透性的常用物理化学特性(如辛醇-水分配系数和分子量)并不能很好地替代更精确的能量对分布。
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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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