将 DNA 编码化学库与虚拟组合文库筛选相结合：优化 PARP10 抑制剂。

Integrating DNA-encoded chemical libraries with virtual combinatorial library screening: Optimizing a PARP10 inhibitor.

机构信息

Department of Chemistry, McDaniel College, 2 College Hill, Westminster, MD 21157, USA.

Department of Medicinal Chemistry, Skaggs College of Pharmacy, University of Utah, 30 S 2000 E, Salt Lake City, UT 84112, USA.

出版信息

Bioorg Med Chem Lett. 2020 Oct 1;30(19):127464. doi: 10.1016/j.bmcl.2020.127464. Epub 2020 Aug 5.

DOI:10.1016/j.bmcl.2020.127464

PMID:32768646

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7530011/

Abstract

Two critical steps in drug development are 1) the discovery of molecules that have the desired effects on a target, and 2) the optimization of such molecules into lead compounds with the required potency and pharmacokinetic properties for translation. DNA-encoded chemical libraries (DECLs) can nowadays yield hits with unprecedented ease, and lead-optimization is becoming the limiting step. Here we integrate DECL screening with structure-based computational methods to streamline the development of lead compounds. The presented workflow consists of enumerating a virtual combinatorial library (VCL) derived from a DECL screening hit and using computational binding prediction to identify molecules with enhanced properties relative to the original DECL hit. As proof-of-concept demonstration, we applied this approach to identify an inhibitor of PARP10 that is more potent and druglike than the original DECL screening hit.

摘要

药物开发的两个关键步骤是 1）发现对靶标具有所需作用的分子，以及 2）将此类分子优化为具有所需效力和药代动力学性质的先导化合物以进行转化。如今，DNA 编码的化学文库 (DECL) 可以以前所未有的简便方式产生命中，而先导化合物的优化正在成为限制步骤。在这里，我们将 DECL 筛选与基于结构的计算方法相结合，以简化先导化合物的开发。所提出的工作流程包括列举源自 DECL 筛选命中的虚拟组合文库 (VCL)，并使用计算结合预测来识别相对于原始 DECL 命中具有增强特性的分子。作为概念验证演示，我们应用此方法来鉴定 PARP10 的抑制剂，该抑制剂比原始 DECL 筛选命中更有效且更具成药性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/914c/7530011/34b6b9e4cc91/nihms-1620493-f0012.jpg

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