Novel Nordaucane Sesquiterpenoid and Sesquiterpene Lactone From Laserpitium Species: Isolation, Structure Elucidation, In Vitro, In Vivo, and In Silico Evaluation as Anticancer Agents.

IF 3 3区生物学 Q2 BIOCHEMICAL RESEARCH METHODS Phytochemical Analysis Pub Date : 2024-11-12 DOI:10.1002/pca.3472

Meltem Güleç, Halil Şenol, Nur Tan

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Abstract

Introduction: This study explores the cytotoxic activity-guided isolation of the underground parts of Laserpitium hispidum M. Bieb and Laserpitium petrophilum Boiss. & Heldr., which have not been previously investigated.

Objectives: The aim is to isolate and evaluate bioactive compounds from Laserpitium L. species with anticancer potential.

Material and methods: This study involves bioactivity-guided isolation and structural studies of the pure compounds utilizing NMR, UV-Vis, IR spectroscopies, and HRMS. The cytotoxic activity of the isolated compounds was evaluated in vitro and in vivo, whereas molecular modeling, docking, and ADME predictions were conducted using Schrödinger software.

Results: The study isolated phenylpropanoids (laserine (1), latifolone (2), myristicin (3)), sterol (stigmasterol (4)), polyenes (falcarindiol (5)), sesquiterpene lactone (11-hydroxybadkhyzin (6)), and nordaucane sesquiterpene (norlasidiol angelate (7)) from L. hispidum, whereas L. petrophilum yielded 10β-acetoxy-8α-angeloyloxy-6αH,7αH-guaian-3-en-12,6-olide (8), 10β-acetoxy-8α-senecioyloxy-6αH,7αH-guaian-3-en-6,12-olide (9) and acetylisomontanolide (10). Molecular docking simulations revealed stable interactions between compounds 7 and 9 with estrogen receptor α (ERα) and vascular endothelial growth factor receptor 2 (VEGFR2), with compound 7 showing superior stability and binding affinity. In silico ADME predictions indicated favorable pharmacokinetic properties, including high oral absorption.

Conclusion: Compounds 7 and 9, representing new nordaucane and sesquiterpene lactones, have not been previously reported. In vitro cytotoxicity revealed that compound 7 exhibits potent anti-cancer activity against MCF-7 cells, whereas compound 9 showed reduced cytotoxicity. In vivo testing in Caenorhabditis elegans supported these findings, suggesting safety and efficacy in organisms. In silico results emphasize the potential of these compounds, with compound 7 promising due to its stability and strong binding affinity.

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从镭射蝮蛇种中提取的新型Nordaucane倍半萜和倍半萜内酯：作为抗癌剂的分离、结构阐明、体外、体内和硅学评估。

简介本研究探讨了从Laserpitium hispidum M. Bieb和Laserpitium petrophilum Boiss：目的：从镭射草中分离并评估具有抗癌潜力的生物活性化合物：本研究利用核磁共振、紫外可见光、红外光谱和 HRMS 对纯化合物进行生物活性指导下的分离和结构研究。利用薛定谔软件对分离出的化合物进行了体外和体内细胞毒性活性评估，并进行了分子建模、对接和 ADME 预测：结果：研究从 L. hispidum 中分离出了苯丙酸类化合物（laserine (1)、latifolone (2)、myristicin (3)）、甾醇（stigmasterol (4)）、多烯类化合物（falcarindiol (5)）、倍半萜内酯（11-hydroxybadkhyzin (6)）和 nordaucane 倍半萜（norlasidiol angelate (7)）。而 L. petrophilum 产生了 10β-acetoxy-8α-angeloyloxy-6αH,7αH-guaian-3-en-12,6-olide (8)、10β-acetoxy-8α-senecioyloxy-6αH,7αH-guaian-3-en-6,12-olide (9) 和 acetylisomontanolide (10)。分子对接模拟显示，化合物 7 和 9 与雌激素受体 α（ERα）和血管内皮生长因子受体 2（VEGFR2）之间存在稳定的相互作用，其中化合物 7 显示出更高的稳定性和结合亲和力。硅学 ADME 预测表明，化合物具有良好的药代动力学特性，包括较高的口服吸收率：结论：化合物 7 和 9 代表了新的正杜烷内酯和倍半萜内酯，以前从未报道过。体外细胞毒性显示，化合物 7 对 MCF-7 细胞具有很强的抗癌活性，而化合物 9 则显示出较低的细胞毒性。在秀丽隐杆线虫体内进行的测试也支持这些发现，表明其在生物体内具有安全性和有效性。硅学研究结果强调了这些化合物的潜力，其中化合物 7 因其稳定性和强大的结合亲和力而前景广阔。

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来源期刊

Phytochemical Analysis 生物-分析化学

CiteScore

6.00

自引率

6.10%

发文量

审稿时长

1.7 months

期刊介绍： Phytochemical Analysis is devoted to the publication of original articles concerning the development, improvement, validation and/or extension of application of analytical methodology in the plant sciences. The spectrum of coverage is broad, encompassing methods and techniques relevant to the detection (including bio-screening), extraction, separation, purification, identification and quantification of compounds in plant biochemistry, plant cellular and molecular biology, plant biotechnology, the food sciences, agriculture and horticulture. The Journal publishes papers describing significant novelty in the analysis of whole plants (including algae), plant cells, tissues and organs, plant-derived extracts and plant products (including those which have been partially or completely refined for use in the food, agrochemical, pharmaceutical and related industries). All forms of physical, chemical, biochemical, spectroscopic, radiometric, electrometric, chromatographic, metabolomic and chemometric investigations of plant products (monomeric species as well as polymeric molecules such as nucleic acids, proteins, lipids and carbohydrates) are included within the remit of the Journal. Papers dealing with novel methods relating to areas such as data handling/ data mining in plant sciences will also be welcomed.