3D QSAR based design of novel substituted urea molecules as heparanase inhibitors

Journal of Pharmacy Research Pub Date : 2013-08-01 DOI:10.1016/j.jopr.2013.08.024

Raju Bathini, Sabiha Fatima, Sree Kanth Sivan, Vijjulatha Manga

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引用次数: 3

Abstract

Aim

To study the key pharmacophore requirements for heparanase inhibition and design of new molecules.

Method

Three dimensional quantitative structure activity relationship (3D QSAR) methodologies namely Comparative Molecular Field Analysis (CoMFA) and Comparative Molecular Similarity Indices Analysis (CoMSIA) were applied, PLS analysis was performed and QSAR models were generated for a set of 43 bezoxazol-5-yl acetic acid derivatives and 1,3-bis[4-(1H-bezimidazol-2-yl)-phenyl urea reported as potent inhibitors of heparanase.

Result

QSAR model showed good internal and external statistical reliability that is evident from the $q_{loo}^{2}$ , $r_{ncv}^{2}$ and $r_{pred}^{2}$ . CoMFA model provides a correlation of steric and electrostatic field with biological activities. CoMSIA model provides a correlation of steric, electrostatic, acceptor, donor and hydrophobic fields with biological activities.

Conclusion

The identified key features enabled us to design novel symmetrical 1,3-bis[4-(1H-bezimidazol-2-yl)-phenyl urea derivatives.

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基于3D QSAR的新型替代尿素分子肝素酶抑制剂设计

目的研究肝素酶抑制的关键药效团需求并设计新分子。方法采用比较分子场分析(CoMFA)和比较分子相似性指数分析(CoMSIA)等三维定量结构-活性关系(3D QSAR)方法，对43种被报道为肝素酶有效抑制剂的苯并唑-5-基乙酸衍生物和1,3-双[4-(1h -苯并咪唑-2-基)苯基尿素进行PLS分析并建立QSAR模型。结果qsar模型具有良好的内部和外部统计信度，从qloo2、rncv2和rpred2可以看出。CoMFA模型提供了空间场和静电场与生物活性的相关性。CoMSIA模型提供了空间场、静电场、受体场、供体场和疏水场与生物活性的相关性。结论所鉴定的关键特征使我们能够设计出新的对称的1,3-双[4-(1h -苯并咪唑-2-基)-苯基脲衍生物。

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Journal of Pharmacy Research

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