Phytochemical Characterization of Pterocephalus frutescens with In-Silico Evaluation as Chemotherapeutic Medicine and Oral Pharmacokinetics Prediction Study
A. El-Hela, M. Bakr, Mostafa M. Hegazy, Mohammed A. Dahab, Ayman Abo Elmaaty, A. Ibrahim, Sami El Deeb, Hatem S. Abbass
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引用次数: 2
Abstract
Virtual screening of the potential lead chemotherapeutic phytochemicals from medicinal plants has useful application in the field of in-silico modelling and computer-based drug design by orienting and scoring ligands in the active binding site of a target protein. The phytochemical investigation of the Pterocephalus frutescens extract in n-butanol resulted in the isolation and structure elucidation of three iridoids and four flavonoids which were identified as Geniposide (1), Geniposidic acid (2), Nepetanudoside C (3), Isovitexin (4), Luteolin-7-O-glucoside (5) Isoorientin (6) and Orientin (7), respectively. Molecular docking studies were used to compare the binding energies of the isolated phytochemicals at four biological cancer-relevant targets; namely, aromatase, carbonic anhydrase IX, fatty acid synthase, and topoisomerase II-DNA complex. The docking study concluded that the isolated compounds have promising cytotoxic activities, in particular, Luteolin-7-O-glucoside (5) and Orientin (7) which exhibited high binding affinities among the isolated compounds at the active sites of the target enzymes; Aromatase (−8.73 Kcal/mol), and Carbonic anhydrase IX (−8.92 Kcal/mol), respectively, surpassing the corresponding binding scores of the co-crystallized ligands and the reference drugs at these target enzymes. Additionally, among the isolated compounds, Luteolin-7-O-glucoside (5) showed the most outstanding binding affinities at the active sites of the target enzymes; Fatty acid synthase, and Topisomerase II-DNA complex with binding scores of −6.82, and −7.99 Kcal/mol, respectively. Finally, the SwissADME online web tool predicted that most of these compounds possessed acceptable oral bioavailability and drug likeness characteristics.
通过定位和评分靶蛋白活性结合位点的配体,从药用植物中虚拟筛选潜在的先导化疗植物化学物质,在计算机建模和基于计算机的药物设计领域具有重要的应用。对正丁醇中翼头草提取物进行植物化学研究,分离并鉴定出3种环烯醚萜类化合物和4种黄酮类化合物,分别为京尼平苷(1)、京尼平苷酸(2)、Nepetanudoside C(3)、异牡荆素(4)、木犀草素-7- o -葡萄糖苷(5)、异荭草苷(6)和京尼平苷(7)。分子对接研究比较了分离的植物化学物质在4个癌症相关生物靶点上的结合能;即芳香化酶、碳酸酐酶IX、脂肪酸合成酶和拓扑异构酶II-DNA复合物。对接研究表明,分离得到的化合物具有较好的细胞毒活性,特别是木犀草素-7- o -葡萄糖苷(5)和荭草苷(7)在靶酶活性位点表现出较高的结合亲和力;芳香化酶(−8.73 Kcal/mol)和碳酸酐酶IX(−8.92 Kcal/mol),分别超过了这些共结晶配体和参考药物在这些靶酶上的相应结合分数。此外,在分离的化合物中,木犀草素-7- o -葡萄糖苷(5)在靶酶的活性位点上表现出最突出的结合亲和力;脂肪酸合成酶和Topisomerase II-DNA复合物的结合分数分别为- 6.82和- 7.99 Kcal/mol。最后,SwissADME在线网络工具预测,大多数这些化合物具有可接受的口服生物利用度和药物相似特性。