Pharmaco-informatics screening of Zingiber officinale biomolecules targeting FOXO6 for chronic kidney disease therapy.

Q2 Pharmacology, Toxicology and Pharmaceutics

Drug metabolism and personalized therapy Pub Date : 2025-07-03 DOI:10.1515/dmpt-2025-0011

Shanmugampillai Jeyarajaguru Kabilan, Selvaraj Kunjiappan, Parasuraman Pavadai, Murugesan Sankaranarayanan, Krishnan Sundar

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引用次数: 0

Abstract

Objective: Ginger, scientifically known as Zingiber officinale, is a plant root that has a variety of therapeutic applications, including the treatment of nausea, inflammation, digestive problems, and management of renal function in chronic kidney disease (CKD). CKD is a life-threatening condition that, if untreated, leads to organ damage and is acknowledged as a global health concern. The present study aims at predicting bioactive compounds from Z. officinale that were identified through gas chromatography-mass spectroscopy (GC-MS), with the potential against a selected target of CKD, and was investigated using a pharmaco-informatics approach.

Methods: The compounds from GC-MS analysis were screened, and the structures of identified compounds were drawn through ACD/Chemsketch 2021.2.1. Based on graph theoretical network analysis, forkhead box protein (FOXO6) was chosen as a potential target for CKD. The Swiss model was used to predict the structure of FOXO6, and the active site details were obtained. Docking was performed against the active sites of FOXO6 using 22 compounds, along with the standard drug, dapagliflozin. Pharmacokinetic, physicochemical and toxicity parameters were predicted for the selected high binders and dapagliflozin. The stability and intermolecular interactions of high binders and dapagliflozin protein-ligand complexes were studied using molecular dynamics simulation.

Results: The binding affinity ranges from -3.5 to -6.7 kcal × mol^-1. Abietic acid and dehydroabietic acid had a higher binding affinity with a score of -6.7 kcal × mol^-1, similar to the standard drug, dapagliflozin (-6.4 kcal × mol^-1). Both abietic acid and dehydroabietic acid also have good bioavailability scores. MD simulation studies indicated greater stability for abietic acid-FOXO6 and dehydroabietic acid-FOXO6 complexes.

Conclusions: This investigation has shed light on the significance of the compounds of Z. officinale R. as potential FOXO6 inhibitors, which could further be used as a lead compound for developing alternative therapy for CKD.

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针对FOXO6的生姜生物分子治疗慢性肾脏疾病的药物信息学筛选。

目的：生姜，科学上被称为Zingiber officinale，是一种具有多种治疗应用的植物根，包括治疗恶心、炎症、消化问题和慢性肾脏疾病（CKD）的肾功能管理。慢性肾病是一种危及生命的疾病，如果不治疗，会导致器官损伤，是公认的全球健康问题。本研究旨在通过气相色谱-质谱联用（GC-MS）技术预测从铁皮烟中鉴定出的生物活性化合物，这些化合物具有针对CKD选定靶点的潜力，并使用药物信息学方法进行研究。方法：对GC-MS分析得到的化合物进行筛选，并通过ACD/Chemsketch 2021.2.1绘制鉴定化合物的结构图。基于图论网络分析，选择叉头盒蛋白（FOXO6）作为CKD的潜在靶点。采用Swiss模型对FOXO6的结构进行预测，得到活性位点的详细信息。使用22种化合物和标准药物达格列净对FOXO6的活性位点进行对接。预测了所选高结合剂和达格列净的药动学、理化和毒性参数。采用分子动力学模拟方法研究了高结合物和达格列净蛋白-配体复合物的稳定性和分子间相互作用。结果：结合亲和力为-3.5 ~ -6.7 kcal × mol-1。杉木酸和脱氢杉木酸的结合亲和力较高，得分为-6.7 kcal × mol-1，与标准药物达格列净（-6.4 kcal × mol-1）相似。松木酸和脱氢松木酸均具有良好的生物利用度评分。MD模拟研究表明，松木酸- foxo6和脱氢松木酸- foxo6配合物的稳定性更高。结论：本研究揭示了木楝化合物作为潜在FOXO6抑制剂的重要意义，该化合物可进一步作为开发CKD替代疗法的先导化合物。

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

Drug metabolism and personalized therapy Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (all)

CiteScore

2.30

自引率

0.00%

发文量

期刊介绍： Drug Metabolism and Personalized Therapy (DMPT) is a peer-reviewed journal, and is abstracted/indexed in relevant major Abstracting Services. It provides up-to-date research articles, reviews and opinion papers in the wide field of drug metabolism research, covering established, new and potential drugs, environmentally toxic chemicals, the mechanisms by which drugs may interact with each other and with biological systems, and the pharmacological and toxicological consequences of these interactions and drug metabolism and excretion. Topics: drug metabolizing enzymes, pharmacogenetics and pharmacogenomics, biochemical pharmacology, molecular pathology, clinical pharmacology, pharmacokinetics and drug-drug interactions, immunopharmacology, neuropsychopharmacology.