In-Silico Studies of Antitumor Activity From Red Ginger (Alpinia purpurata Vieill) Bioactive Compounds

Santika Lusia Utami, Yogi Adhi Nugroho, Luthfiana Hardianingtyas, F. Kamilah
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Abstract

Many plants from the genus Alpinia are known to have several bioactive compounds that can act as an antitumor in cancer treatments. However, the potency of the bioactive compounds from red ginger as an antitumor agent has not been reported before. This research aims to study the inhibitory activity of several red ginger bioactive compounds against antitumor AKT1 protein through in-silico analysis. In this study, four identified bioactive compounds namely rutin, sitosteryl 3-O-6-palmytoil-β-d-glucoside, kumatakenin, kaempferol-3-o-glucuronide were used as a ligand for molecular interactions. The 3D structure of targetted protein AKT1 (PDB ID: 3O96) was obtained from the PDB database. [6]-shogaol, an antiproliferative and AKT1 inhibitor, was used as a control. In-silico docking analysis is performed in PyRx with the AutoDock Vina program. All bioactive compounds used in this experiment demonstrated good antitumor activity by binding to the inhibitor site of AKT1 protein. Rutin displayed the best potency as an inhibitor to AKT1 with the optimum binding energy of 11,3 kcal/mol as compared to control with -7,4 kcal/mol. These results suggest that bioactive compounds from red ginger may have the potency as an antitumor and can be developed to treat cancer.
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红姜(Alpinia purpurata Vieill)生物活性化合物抗肿瘤活性的计算机研究
许多来自高山属的植物已知含有几种生物活性化合物,可以作为抗癌治疗的抗肿瘤药物。然而,从红姜中提取的生物活性化合物作为抗肿瘤药物的效力尚未见报道。本研究旨在通过计算机分析研究几种红姜生物活性化合物对抗肿瘤AKT1蛋白的抑制活性。本研究以芦丁、谷甾醇-3-o- 6棕榈酸-β-d-葡萄糖苷、熊竹素、山奈酚-3-o-葡萄糖苷四种已鉴定的生物活性化合物为配体进行分子相互作用。从PDB数据库中获得目标蛋白AKT1 (PDB ID: 3O96)的三维结构。[6]以抗增殖和AKT1抑制剂-shogaol作为对照。在PyRx中使用AutoDock Vina程序进行硅对接分析。本实验中使用的所有生物活性化合物均通过结合AKT1蛋白抑制位点显示出良好的抗肿瘤活性。芦丁对AKT1的抑制效果最好,其最佳结合能为11.3 kcal/mol,而对照为-7,4 kcal/mol。这些结果表明,从红姜中提取的生物活性化合物可能具有抗肿瘤的效力,并且可以开发用于治疗癌症。
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