KRAS配体相互作用模式及灵活性分析揭示了结合特性。

Analysis of KRAS-Ligand Interaction Modes and Flexibilities Reveals the Binding Characteristics.

作者信息

Zhao Zheng, Bohidar Niraja, Bourne Philip E

机构信息

School of Data Science, University of Virginia, Charlottesville, Virginia 22904, United States.

Department of Biomedical Engineering, University of Virginia, Charlottesville, Virginia 22904, United States.

出版信息

J Chem Inf Model. 2023 Feb 27;63(4):1362-1370. doi: 10.1021/acs.jcim.3c00097. Epub 2023 Feb 13.

DOI:10.1021/acs.jcim.3c00097

PMID:36780612

Abstract

KRAS, a common human oncogene, has been recognized as a critical drug target in treating multiple cancers. After four decades of effort, one allosteric KRAS drug (Sotorasib) has been approved, inspiring more KRAS-targeted drug research. Here, we provide the features of KRAS binding pockets and ligand-binding characteristics of KRAS complexes using a structural systems pharmacology approach. Three distinct binding sites (conserved nucleotide-binding site, shallow Switch-I/II pocket, and allosteric Switch-II/α3 pocket) are characterized. Ligand-binding features are determined based on encoded KRAS-inhibitor interaction fingerprints. Finally, the flexibility of the three distinct binding sites to accommodate different potential ligands, based on MD simulation, is discussed. Collectively, these findings are intended to facilitate rational KRAS drug design.

摘要

KRAS是一种常见的人类癌基因，已被公认为治疗多种癌症的关键药物靶点。经过四十年的努力，一种变构KRAS药物（索托拉西布）已获批准，这激发了更多针对KRAS的药物研究。在此，我们使用结构系统药理学方法提供了KRAS结合口袋的特征以及KRAS复合物的配体结合特性。确定了三个不同的结合位点（保守核苷酸结合位点、浅Switch-I/II口袋和变构Switch-II/α3口袋）。基于编码的KRAS-抑制剂相互作用指纹图谱确定配体结合特征。最后，基于分子动力学模拟讨论了这三个不同结合位点容纳不同潜在配体的灵活性。总的来说，这些发现旨在促进KRAS药物的合理设计。

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KRAS配体相互作用模式及灵活性分析揭示了结合特性。

Analysis of KRAS-Ligand Interaction Modes and Flexibilities Reveals the Binding Characteristics.

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