Molecular insights into kaempferol derivatives as potential inhibitors for CDK2 in colon cancer: pharmacophore modeling, docking, and dynamic analysis.

IF 3.8 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Frontiers in Chemistry Pub Date : 2024-08-21 eCollection Date: 2024-01-01 DOI:10.3389/fchem.2024.1440196
Fei Xing, Zhicheng Wang, Noor Bahadar, Can Wang, Xu-Dong Wang
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Abstract

Cyclin-dependent kinase 2 (CDK2) has been recognized as one of the crucial factors in cell cycle regulation and has been proposed as a potential target for cancer therapies, particularly for colorectal cancer (CRC). Due to the increased incidence rate of CRC and challenges associated with existing treatment options, there is a need for efficient and selective anti-cancer compounds. The current work aims to explore the ability of novel kaempferol derivatives as CDK2 inhibitors by performing conceptual pharmacophore modeling, molecular docking, and molecular dynamic analysis. Kaempferol and its derivatives were obtained from PubChem, and the optimized 3D structures of the compounds were generated using Maestro Ligprep. Subsequently, a pharmacophore model was developed to identify compounds with high fitness values, resulting in the selection of several kaempferol derivatives for further study. We evaluated the ADMET properties of these compounds to assess their therapeutic potential. Molecular docking was conducted using Maestro and BIOVIA Discovery Studio version 4.0 to predict the binding affinities of the compounds to CDK2. The top candidates were subjected to MM-GBSA analysis to predict their binding free energies. Molecular dynamics simulations using GROMACS were performed to assess the thermodynamic stability of the ligand-protein complexes. The results revealed several kaempferol derivatives with high predicted binding affinities to CDK2 and favorable ADMET properties. Specifically, compounds 5281642, 5318980, and 14427423 demonstrated binding free energies of -30.26, -38.66, and -34.2 kcal/mol, respectively. Molecular dynamics simulations indicated that these ligand-protein complexes remained stable throughout the simulation period, with RMSD values remaining below 2 Å. In conclusion, the identified kaempferol derivatives show potential as CDK2 inhibitors based on computational predictions and demonstrate stability in molecular dynamics simulations, suggesting their future application in CRC treatment by targeting CDK2. These computational findings encourage further experimental validation and development of kaempferol derivatives as anti-cancer agents.

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山奈酚衍生物作为结肠癌 CDK2 潜在抑制剂的分子见解:药效学建模、对接和动态分析。
细胞周期蛋白依赖性激酶 2(CDK2)已被认为是细胞周期调控的关键因素之一,并被认为是癌症疗法,尤其是结直肠癌(CRC)疗法的潜在靶点。由于 CRC 发病率的增加以及现有治疗方案所面临的挑战,人们需要高效且具有选择性的抗癌化合物。目前的研究工作旨在通过概念药效学建模、分子对接和分子动力学分析,探索新型山奈酚衍生物作为 CDK2 抑制剂的能力。研究人员从 PubChem 上获得了山奈酚及其衍生物,并使用 Maestro Ligprep 生成了这些化合物的优化三维结构。随后,我们建立了一个药理模型,以确定具有高适合度值的化合物,最终选择了几种山奈酚衍生物进行进一步研究。我们评估了这些化合物的 ADMET 特性,以评估其治疗潜力。我们使用 Maestro 和 BIOVIA Discovery Studio 4.0 版进行了分子对接,以预测化合物与 CDK2 的结合亲和力。对最佳候选化合物进行 MM-GBSA 分析,以预测其结合自由能。使用 GROMACS 进行了分子动力学模拟,以评估配体-蛋白质复合物的热力学稳定性。结果表明,几种山奈酚衍生物与 CDK2 的结合亲和力较高,并且具有良好的 ADMET 特性。具体来说,化合物 5281642、5318980 和 14427423 的结合自由能分别为 -30.26、-38.66 和 -34.2 kcal/mol。分子动力学模拟表明,这些配体-蛋白质复合物在整个模拟期间保持稳定,RMSD值保持在2 Å以下。总之,根据计算预测,已鉴定的山奈酚衍生物显示出作为CDK2抑制剂的潜力,并在分子动力学模拟中表现出稳定性,这表明它们未来可通过靶向CDK2应用于CRC治疗。这些计算发现鼓励了山奈酚衍生物作为抗癌药物的进一步实验验证和开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Frontiers in Chemistry
Frontiers in Chemistry Chemistry-General Chemistry
CiteScore
8.50
自引率
3.60%
发文量
1540
审稿时长
12 weeks
期刊介绍: Frontiers in Chemistry is a high visiblity and quality journal, publishing rigorously peer-reviewed research across the chemical sciences. Field Chief Editor Steve Suib at the University of Connecticut is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to academics, industry leaders and the public worldwide. Chemistry is a branch of science that is linked to all other main fields of research. The omnipresence of Chemistry is apparent in our everyday lives from the electronic devices that we all use to communicate, to foods we eat, to our health and well-being, to the different forms of energy that we use. While there are many subtopics and specialties of Chemistry, the fundamental link in all these areas is how atoms, ions, and molecules come together and come apart in what some have come to call the “dance of life”. All specialty sections of Frontiers in Chemistry are open-access with the goal of publishing outstanding research publications, review articles, commentaries, and ideas about various aspects of Chemistry. The past forms of publication often have specific subdisciplines, most commonly of analytical, inorganic, organic and physical chemistries, but these days those lines and boxes are quite blurry and the silos of those disciplines appear to be eroding. Chemistry is important to both fundamental and applied areas of research and manufacturing, and indeed the outlines of academic versus industrial research are also often artificial. Collaborative research across all specialty areas of Chemistry is highly encouraged and supported as we move forward. These are exciting times and the field of Chemistry is an important and significant contributor to our collective knowledge.
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