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基于经验的发现(EBD)芳基腙作为 LSD1/KDM1A 抑制剂开发的新骨架。

Experience-based discovery (EBD) of aryl hydrazines as new scaffolds for the development of LSD1/KDM1A inhibitors.

机构信息

School of Pharmaceutical Sciences, Zhengzhou University, Zhengzhou 450001, China; Key Laboratory of Advanced Drug Preparation Technologies (Ministry of Education), Zhengzhou University, Zhengzhou 450001, China; Co-Innovation Center of Henan Province for New Drug R & D and Preclinical Safety, Zhengzhou University, Zhengzhou 450001, China.

Department of Pharmacology, School of Basic Medical Sciences, Zhengzhou University, Zhengzhou 450001, China.

出版信息

Eur J Med Chem. 2019 Mar 15;166:432-444. doi: 10.1016/j.ejmech.2019.01.075. Epub 2019 Feb 2.

DOI:10.1016/j.ejmech.2019.01.075
PMID:30739825
Abstract

Phenelzine was first employed to design new aryl hydrazine-based LSD1 inhibitors based on the experience-based discovery (EBD) strategy. Among these compounds, D8 potently inhibited LSD1 (IC = 882.30 nM) in a reversible manner. Compound D8 was selective to LSD1 over MAO-A/B and showed H3K4me2 competitive binding to LSD1. The interaction between H3K4me2 and LSD1 was also confirmed by the Co-IP assay. In LSD1 overexpressed A549 cells, compound D8 dose-dependently induced accumulation of LSD1 substrates H3K4me1/2 and H3K9me1/2, showed cellular target engagement to LSD1 and significantly inhibited cell migration of A549 cells. Docking studies suggested that compound D8 occupied the peptide binding region and therefore blocked the access of the peptide substrate to the FAD, finally leading to the demethylase activity inhibition of LSD1. The findings indicate that aryl hydrazines are new scaffolds for the design of LSD1 inhibitors, the identification of D8 provides further evidence for our previously proposed general principle that fused heterocycles with an amine group are potentially active toward LSD1 by competitive binding to LSD1 with H3 peptide substrates.

摘要

基于经验发现(EBD)策略,苯乙肼首先被用于设计新型芳基腙 LSD1 抑制剂。在这些化合物中,D8 以可逆的方式强烈抑制 LSD1(IC = 882.30 nM)。化合物 D8 对 LSD1 的选择性高于 MAO-A/B,并且表现出 H3K4me2 对 LSD1 的竞争性结合。Co-IP 测定也证实了 H3K4me2 与 LSD1 之间的相互作用。在 LSD1 过表达的 A549 细胞中,化合物 D8 剂量依赖性地诱导 LSD1 底物 H3K4me1/2 和 H3K9me1/2 的积累,显示出对 LSD1 的细胞靶标结合,并显著抑制 A549 细胞的迁移。对接研究表明,化合物 D8 占据肽结合区域,从而阻止肽底物进入 FAD,最终导致 LSD1 的去甲基酶活性抑制。这些发现表明芳基腙是 LSD1 抑制剂设计的新骨架,D8 的鉴定为我们之前提出的一般性原则提供了进一步的证据,即通过与 LSD1 的 H3 肽底物竞争性结合,具有胺基的稠合杂环可能对 LSD1 具有潜在的活性。

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