抗真菌双靶点（SE、CYP51）药效团模型的构建及新型抗真菌抑制剂的发现。

Construction of antifungal dual-target (SE, CYP51) pharmacophore models and the discovery of novel antifungal inhibitors.

作者信息

Dong Yue, Liu Min, Wang Jian, Ding Zhuang, Sun Bin

机构信息

Institute of BioPharmaceutical Research, Liaocheng University 1 Hunan Road Liaocheng 252000 PR China.

Key Laboratory of Structure-Based Drug Design & Discovery of Ministry of Education, School of Pharmaceutical Engineering, Shenyang Pharmaceutical University 103 Wenhua Road, Shenhe District Shenyang 110016 PR China.

出版信息

RSC Adv. 2019 Aug 22;9(45):26302-26314. doi: 10.1039/c9ra03713f. eCollection 2019 Aug 19.

DOI:10.1039/c9ra03713f

PMID:35531010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9070380/

Abstract

Fungal infections and drug-resistance are rapidly increasing with the deterioration of the external environment. Squalene cyclooxygenase (SE) and 14α-demethylase (CYP51) are considered to be important antifungal targets, and the corresponding pharmacophore models can be used to design and guide the discovery of novel inhibitors. Therefore, the common feature pharmacophore model (SE inhibitor) and structure-based pharmacophore model (CYP51 receptor) were constructed using different methods in this study. Then, appropriate organic fragments were selected and superimposed onto the pharmacophore features, and compounds 5, 6 and 8 were designed and produced by linking these organic fragments. It is noteworthy that compound 8 can simultaneously match the features of both the SE and CYP51 pharmacophores. Further analysis found that these compounds exhibit a potent antifungal activity. Preliminary mechanistic studies revealed that compound 8 could undergo dual-target inhibition (SE and CYP51) of . This study proved the rationale of pharmacophore models (SE and CYP51), which can guide the design and discovery of new antifungal inhibitors.

摘要

随着外部环境的恶化，真菌感染和耐药性正在迅速增加。角鲨烯环氧化酶（SE）和14α-脱甲基酶（CYP51）被认为是重要的抗真菌靶点，相应的药效团模型可用于设计和指导新型抑制剂的发现。因此，本研究采用不同方法构建了共同特征药效团模型（SE抑制剂）和基于结构的药效团模型（CYP51受体）。然后，选择合适的有机片段并叠加到药效团特征上，通过连接这些有机片段设计并制备了化合物5、6和8。值得注意的是，化合物8可以同时匹配SE和CYP51药效团的特征。进一步分析发现，这些化合物表现出强大的抗真菌活性。初步机制研究表明，化合物8可对……进行双靶点抑制（SE和CYP51）。本研究证明了药效团模型（SE和CYP51）的合理性，其可指导新型抗真菌抑制剂的设计与发现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b27/9070380/3acc605dd8f1/c9ra03713f-f1.jpg

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抗真菌双靶点（SE、CYP51）药效团模型的构建及新型抗真菌抑制剂的发现。

Construction of antifungal dual-target (SE, CYP51) pharmacophore models and the discovery of novel antifungal inhibitors.

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