Enhanced utility of AI/ML methods during lead optimization by inclusion of 3D ligand information

L. Bleicher, Ton van Daelen, J. Honeycutt, Moises Hassan, J. Chandrasekhar, W. Shirley, V. Tsui, U. Schmitz
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引用次数: 1

Abstract

AI/ML methods in drug discovery are maturing and their utility and impact is likely to permeate many aspects of drug discovery including lead finding and lead optimization. Typical methods utilize ML-models for structure-property prediction with simple 2D-based chemical representations of the small molecules. Further, limited data, especially pertaining to novel targets, make it difficult to build effective structure-activity ML-models. Here we describe our recent work using the BIOVIA Generative Therapeutics Design (GTD) application, which is equipped to take advantage of 3D structural models of ligand protein interaction, i.e., pharmacophoric representation of desired features. Using an SAR data set pertaining to the discovery of SYK inhibitors entospletinib and lanraplenib in addition to two unrelated clinical SYK inhibitors, we show how several common problems in lead finding and lead optimization can be effectively addressed with GTD. This includes an effort to retrospectively re-identify drug candidate molecules based on data from an intermediate stage of the project using chemical space constraints and the application of evolutionary pressure within GTD. Additionally, studies of how the GTD platform can be configured to generate molecules incorporating features from multiple unrelated molecule series show how the GTD methods apply AI/ML to drug discovery.
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通过包含3D配体信息,增强了AI/ML方法在导联优化中的实用性
药物发现中的AI/ML方法正在成熟,它们的效用和影响可能渗透到药物发现的许多方面,包括先导物发现和先导物优化。典型的方法是利用ml模型进行结构-性质预测,并对小分子进行简单的基于2d的化学表示。此外,有限的数据,特别是与新目标有关的数据,使构建有效的结构-活性ml模型变得困难。在这里,我们描述了我们最近使用BIOVIA生成疗法设计(GTD)应用程序的工作,该应用程序可以利用配体蛋白质相互作用的3D结构模型,即所需特征的药效表示。使用与SYK抑制剂entospletinib和lanraplenib以及两种不相关的临床SYK抑制剂的发现相关的SAR数据集,我们展示了如何使用GTD有效地解决导联发现和导联优化中的几个常见问题。这包括基于项目中间阶段的数据,利用化学空间限制和GTD内进化压力的应用,回顾性地重新鉴定候选药物分子。此外,关于如何配置GTD平台来生成包含多个不相关分子系列特征的分子的研究表明,GTD方法如何将AI/ML应用于药物发现。
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