新型二苯并呋喃衍生物作为PTP-MEG2抑制剂的合成、生物活性及三维定量构效关系研究

Synthesis, bioactivity, 3D-QSAR studies of novel dibenzofuran derivatives as PTP-MEG2 inhibitors.

作者信息

Ma Ying, Wei Hui-Yu, Zhang Yu-Ze, Jin Wen-Yan, Li Hong-Lian, Zhou Hui, Cheng Xian-Chao, Wang Run-Ling

机构信息

Tianjin Key Laboratory on Technologies Enabling Development of Clinical Therapeutics and Diagnostics (Theranostics), School of Pharmacy, Tianjin Medical University, Tianjin, China.

Eye Hospital, Tianjin Medical University, School of Optometry and Ophthalmology, Tianjin Medical University, Tianjin, China.

出版信息

Oncotarget. 2017 Jun 13;8(24):38466-38481. doi: 10.18632/oncotarget.16595.

DOI:10.18632/oncotarget.16595

PMID:28388567

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5503546/

Abstract

PTP-MEG2 plays a critical role in the diverse cell signalling processes, so targeting PTP-MEG2 is a promising strategy for various human diseases treatments. In this study, a series of novel dibenzofuran derivatives was synthesized and assayed for their PTP-MEG2 inhibitory activities. 10a with highest inhibitory activity (320 nM) exhibited significant selectivity for PTP-MEG2 over its close homolog SHP2, CDC25 (IC50 > 50 μM). By means of the powerful ''HipHop'' technique, a 3D-QSAR study was carried out to explore structure activity relationship of these molecules. The generated pharmacophore model revealed that the one RA, three Hyd, and two HBA features play an important role in binding to the active site of the target protein-PTP-MEG2. Docking simulation study indicated that 10a achieved its potency and specificity for PTP-MEG2 by targeting unique nearby peripheral binding pockets and the active site. The absorption, distribution, metabolism and excretion (ADME) predictions showed that the 11 compounds hold high potential to be novel lead compounds for targeting PTP-MEG2. Our findings here can provide a new strategy or useful insights for designing the effective PTP-MEG2 inhibitors.

摘要

PTP-MEG2在多种细胞信号传导过程中发挥关键作用，因此靶向PTP-MEG2是治疗各种人类疾病的一种有前景的策略。在本研究中，合成了一系列新型二苯并呋喃衍生物，并检测了它们对PTP-MEG2的抑制活性。抑制活性最高（320 nM）的10a对PTP-MEG2表现出相对于其密切同源物SHP2、CDC25的显著选择性（IC50>50 μM）。借助强大的“HipHop”技术，进行了3D-QSAR研究以探索这些分子的构效关系。生成的药效团模型表明，一个受体接受体（RA）、三个氢键给体（Hyd）和两个氢键受体（HBA）特征在与靶蛋白PTP-MEG2的活性位点结合中起重要作用。对接模拟研究表明，10a通过靶向独特的附近外周结合口袋和活性位点实现了对PTP-MEG2的效力和特异性。吸收、分布、代谢和排泄（ADME）预测表明，这11种化合物具有成为靶向PTP-MEG2的新型先导化合物的高潜力。我们在此的发现可为设计有效的PTP-MEG2抑制剂提供新策略或有用的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a76/5503546/6d10df6aabf6/oncotarget-08-38466-g003.jpg

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新型二苯并呋喃衍生物作为PTP-MEG2抑制剂的合成、生物活性及三维定量构效关系研究

Synthesis, bioactivity, 3D-QSAR studies of novel dibenzofuran derivatives as PTP-MEG2 inhibitors.

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