通过药效团建模和分子对接鉴定新型潜在APE1抑制剂

Identification of New Potential APE1 Inhibitors by Pharmacophore Modeling and Molecular Docking.

作者信息

Lee In Won, Yoon Jonghwan, Lee Gunhee, Lee Minho

机构信息

Department of Biological Science, Sangji University, Wonju 26339, Korea.

Department of Biomedicine & Health Sciences, Graduate School, The Catholic University of Korea, Seoul 06591, Korea.

出版信息

Genomics Inform. 2017 Dec;15(4):147-155. doi: 10.5808/GI.2017.15.4.147. Epub 2017 Dec 29.

DOI:10.5808/GI.2017.15.4.147

PMID:29307141

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5769857/

Abstract

Apurinic/apyrimidinic endonuclease 1 (APE1) is an enzyme responsible for the initial step in the base excision repair pathway and is known to be a potential drug target for treating cancers, because its expression is associated with resistance to DNA-damaging anticancer agents. Although several inhibitors already have been identified, the identification of novel kinds of potential inhibitors of APE1 could provide a seed for the development of improved anticancer drugs. For this purpose, we first classified known inhibitors of APE1. According to the classification, we constructed two distinct pharmacophore models. We screened more than 3 million lead-like compounds using the pharmacophores. Hits that fulfilled the features of the pharmacophore models were identified. In addition to the pharmacophore screen, we carried out molecular docking to prioritize hits. Based on these processes, we ultimately identified 1,338 potential inhibitors of APE1 with predicted binding affinities to the enzyme.

摘要

脱嘌呤/脱嘧啶内切酶1（APE1）是一种负责碱基切除修复途径初始步骤的酶，已知它是治疗癌症的潜在药物靶点，因为其表达与对DNA损伤抗癌药物的耐药性有关。尽管已经鉴定出几种抑制剂，但鉴定新型APE1潜在抑制剂可为开发改进的抗癌药物提供基础。为此，我们首先对已知的APE1抑制剂进行了分类。根据分类，我们构建了两种不同的药效团模型。我们使用这些药效团筛选了超过300万个类先导化合物。鉴定出符合药效团模型特征的命中化合物。除了药效团筛选外，我们还进行了分子对接以对命中化合物进行优先级排序。基于这些过程，我们最终鉴定出1338种APE1潜在抑制剂，它们对该酶具有预测的结合亲和力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/076e/5769857/25f331bc6333/gi-15-4-147f1.jpg

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通过药效团建模和分子对接鉴定新型潜在APE1抑制剂

Identification of New Potential APE1 Inhibitors by Pharmacophore Modeling and Molecular Docking.

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