Tsukuba Research Laboratories, Eisai Co., Ltd., Ibaraki, Japan.
Chem Biol Drug Des. 2023 Mar;101(3):727-739. doi: 10.1111/cbdd.14176. Epub 2022 Nov 25.
The identification of biologically active target compounds and their binding proteins is important in mechanism-of-action studies for drug development. Additionally, the newly discovered binding proteins provide unforeseen ideas for novel drug discovery and for subsequent structural transformation to improve target specificity. Based on the lead and final candidate compounds related to the type 5 phosphodiesterase (PDE5) inhibitor E4021, we designed chemical probes and identified their target proteins by the affinity chromatography approach. Aldehyde dehydrogenase family 1 member A3 (ALDH1A3), currently reported as a cancer stem cell target, was clearly isolated as a binding protein of the lead 'immature' inhibitor probe against PDE5. In the early derivatization to the closely related structure, Compound 5 (ER-001135935) was found to significantly inhibit ALDH1A3 activity. The discovery process of a novel ALDH1A3-selective inhibitor with affinity-based binder identification is described, and the impact of this identification method on novel drug discovery is discussed.
鉴定具有生物活性的靶化合物及其结合蛋白在药物开发的作用机制研究中非常重要。此外,新发现的结合蛋白为新型药物发现以及随后的结构转化以提高靶标特异性提供了意想不到的思路。基于与磷酸二酯酶 5 型 (PDE5) 抑制剂 E4021 相关的先导化合物和最终候选化合物,我们设计了化学探针,并通过亲和层析法鉴定了它们的靶蛋白。醛脱氢酶家族 1 成员 A3 (ALDH1A3),目前被报道为癌症干细胞靶标,显然被鉴定为针对 PDE5 的先导“不成熟”抑制剂探针的结合蛋白。在早期的衍生化到密切相关的结构中,化合物 5 (ER-001135935) 被发现可显著抑制 ALDH1A3 活性。描述了一种新型 ALDH1A3 选择性抑制剂的发现过程,以及这种鉴定方法对新型药物发现的影响。
