取代杯[芳烃]与达沙替尼和拉帕替尼包合物的 DFT 研究。

A DFT study of inclusion complexes of substituted calix[n]arenes with dasatinib and lapatinib.

机构信息

CCG@CUG, School of Chemical Sciences, Central University of Gujarat, Gandhinagar, 382030, Gujarat, India.

CCG@CUG, Centre for Applied Chemistry, Central University of Gujarat, Gandhinagar, 382030, Gujarat, India.

出版信息

J Mol Graph Model. 2018 Sep;84:160-165. doi: 10.1016/j.jmgm.2018.06.018. Epub 2018 Jun 30.

DOI:10.1016/j.jmgm.2018.06.018

PMID:29982033

Abstract

Herein, we have presented the results of Density Functional Theory (DFT) based calculations of inclusion complexes of lapatinib and dasatinib with calix[n]arene macrocycles. A total of 48 calix [n]arene complexes were modeled via considering varied ring sizes (n = 4,5,6,8) and upper-rim functionalization viz. SOH, tert-Butyl, iso-Propyl, COOH, CHOH, and CHNH. From the results of multilevel molecular docking, DFT energetics, and reactivity descriptors; it has been demonstrated that dasatinib form optimal complexes with calix 4f, 3f (-35 to -40 kcal/mol). Moreover, for lapatinib, hosts 3f, 4a, 1f, 3d have the capability to generate promising complexes (>35 kcal/mol). Based on counterpoise corrected binding energies (E) and global reactivity descriptors, we anticipate that the proposed complexes can vitally be used as analogous to carrier-mediated-drug-delivery.

摘要

在此，我们展示了基于密度泛函理论（DFT）的拉帕替尼和达沙替尼与杯芳烃大环配合物的计算结果。通过考虑不同的环大小（n=4、5、6、8）和上缘官能化（如 SOH、叔丁基、异丙基、COOH、CHOH 和 CHNH），总共模拟了 48 个杯[n]芳烃配合物。从多级分子对接、DFT 能量学和反应性描述符的结果来看，达沙替尼与杯 4f、3f（-35 至-40 kcal/mol）形成最佳配合物。此外，对于拉帕替尼，3f、4a、1f 和 3d 这些主体具有生成有前途的配合物（>35 kcal/mol）的能力。基于平衡校正结合能（E）和全局反应性描述符，我们预计所提出的配合物可以作为载体介导药物递送的类似物，具有重要的应用价值。

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取代杯[芳烃]与达沙替尼和拉帕替尼包合物的 DFT 研究。

A DFT study of inclusion complexes of substituted calix[n]arenes with dasatinib and lapatinib.

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