基于 1-苯基-4-苯甲酰基-1-氢-三唑 ERRα 反向激动剂的分子动力学模拟。

Molecular Dynamics Simulations Based on 1-Phenyl-4-Benzoyl-1-Hydro-Triazole ERRα Inverse Agonists.

机构信息

School of Chemistry and Chemical Engineering, Qilu University of Technology (Shandong Academy of Sciences), 3501 Da Xue Road, Jinan 250353, China.

College of Chemistry, Chemical Engineering and Materials Science, Shandong Normal University, 88 Wen Hua Dong Road, Jinan 250014, China.

出版信息

Int J Mol Sci. 2021 Apr 2;22(7):3724. doi: 10.3390/ijms22073724.

DOI:10.3390/ijms22073724

PMID:33918423

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8038295/

Abstract

Estrogen-related receptor α (ERRα), which is overexpressed in a variety of cancers has been considered as an effective target for anticancer therapy. ERRα inverse agonists have been proven to effectively inhibit the migration and invasion of cancer cells. As few crystalline complexes have been reported, molecular dynamics (MD) simulations were carried out in this study to deepen the understanding of the interaction mechanism between inverse agonists and ERRα. The binding free energy was analyzed by the MM-GBSA method. The results show that the total binding free energy was positively correlated with the biological activity of an inverse agonist. The interaction of the inverse agonist with the hydrophobic interlayer composed of Phe328 and Phe495 had an important impact on the biological activity of inverse agonists, which was confirmed by the decomposition of energy on residues. As Glu331 flipped and formed a hydrogen bond with Arg372 in the MD simulation process, the formation of hydrogen bond interaction with Glu331 was not a necessary condition for the compound to act as an inverse agonist. These rules provide guidance for the design of new inverse agonists.

摘要

雌激素相关受体α（ERRα）在多种癌症中过度表达，被认为是癌症治疗的有效靶点。已经证明 ERRα反向激动剂能有效抑制癌细胞的迁移和侵袭。由于很少有晶体复合物被报道，本研究进行了分子动力学（MD）模拟，以加深对反向激动剂与 ERRα相互作用机制的理解。通过 MM-GBSA 方法分析结合自由能。结果表明，总结合自由能与反向激动剂的生物活性呈正相关。反向激动剂与由 Phe328 和 Phe495 组成的疏水性夹层之间的相互作用对反向激动剂的生物活性有重要影响，这一点通过残基能量分解得到了证实。在 MD 模拟过程中，Glu331 翻转并与 Arg372 形成氢键，因此形成氢键相互作用不是化合物作为反向激动剂的必要条件。这些规律为设计新型反向激动剂提供了指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d0ca/8038295/eb46d9ffa93b/ijms-22-03724-g001a.jpg

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基于 1-苯基-4-苯甲酰基-1-氢-三唑 ERRα 反向激动剂的分子动力学模拟。

Molecular Dynamics Simulations Based on 1-Phenyl-4-Benzoyl-1-Hydro-Triazole ERRα Inverse Agonists.

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