基于对接药效团的定量构效关系指导筛选发现新型 PKN2 抑制性化学型。

Discovery of new PKN2 inhibitory chemotypes via QSAR-guided selection of docking-based pharmacophores.

机构信息

Faculty of Pharmacy, Zarqa University, P.O. Box 132222, Zarqa, 13132, Jordan.

Department of Pharmaceutical Sciences, Faculty of Pharmacy, University of Jordan, Amman, Jordan.

出版信息

Mol Divers. 2023 Feb;27(1):443-462. doi: 10.1007/s11030-022-10434-4. Epub 2022 May 4.

DOI:10.1007/s11030-022-10434-4

PMID:35507210

Abstract

Serine/threonine-protein kinase N2 (PKN2) plays an important role in cell cycle progression, cell migration, cell adhesion and transcription activation signaling processes. In cancer, however, it plays important roles in tumor cell migration, invasion and apoptosis. PKN2 inhibitors have been shown to be promising in treating cancer. This prompted us to model this interesting target using our QSAR-guided selection of docking-based pharmacophores approach where numerous pharmacophores are extracted from docked ligand poses and allowed to compete within the context of QSAR. The optimal pharmacophore was sterically-refined, validated by receiver operating characteristic (ROC) curve analysis and used as virtual search query to screen the National Cancer Institute (NCI) database for new promising anti-PKN2 leads of novel chemotypes. Three low micromolar hits were identified with IC values ranging between 9.9 and 18.6 µM. Pharmacological assays showed promising cytotoxic properties for active hits in MTT and wound healing assays against MCF-7 and PANC-1 cancer cells.

摘要

丝氨酸/苏氨酸蛋白激酶 N2（PKN2）在细胞周期进程、细胞迁移、细胞黏附和转录激活信号转导过程中发挥重要作用。然而，在癌症中，它在肿瘤细胞迁移、侵袭和凋亡中发挥重要作用。PKN2 抑制剂在治疗癌症方面显示出巨大的潜力。这促使我们使用我们的基于 QSAR 的基于对接的药效团选择方法对这个有趣的靶标进行建模，其中从对接配体构象中提取了许多药效团，并允许在 QSAR 的背景下进行竞争。最优药效团经过空间细化，并通过接收者操作特性（ROC）曲线分析进行验证，然后用作虚拟搜索查询，以筛选国家癌症研究所（NCI）数据库中具有新型化学结构的新型抗 PKN2 先导化合物。鉴定出三个低微摩尔的命中物，IC 值范围在 9.9 到 18.6µM 之间。药理测定显示，活性命中物在 MTT 和针对 MCF-7 和 PANC-1 癌细胞的划痕愈合测定中具有有前景的细胞毒性。

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基于对接药效团的定量构效关系指导筛选发现新型 PKN2 抑制性化学型。

Discovery of new PKN2 inhibitory chemotypes via QSAR-guided selection of docking-based pharmacophores.

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