环肽抗癌作用的分子对接与模拟分析

IF 0.3 Q4 PHARMACOLOGY & PHARMACY
A. Tiwari, V. Tiwari, Suresh Kumar, Manish Kumar, Renu Saharan, N. Verma, B. Sahoo, Deepak Kaushik, Rajeev Kumar Sharma
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引用次数: 0

摘要

除了新冠肺炎疫情导致的死亡率上升外,癌症是全世界人们死亡的主要原因。这使得科学家可以做更多的研究。在这里,我们选择了integerriide A, cordy七肽和Oligotetrapeptide作为三个环蛋白,将在此背景下进一步研究和研究。对接研究使用从PDB数据库下载的蛋白复合物1FKB和1YET进行对接研究。据报道,环肽可与人热休克蛋白(HSP90)和FK506结合。在蛋白数据库1YET和1FKB中可以找到HSP90。HSP90从蛋白质数据库1YET和1FKB中检索。基于这些发现,Int A、Cordy和Oligo物质的抗癌作用可能是由于它们能够通过mTOR和mTOR伴侣通路抑制mTOR雷帕霉素结合域和HSP90格尔达霉素结合域。在计算过程中,有三个阶段:系统开发、能量还原和分子动力学(又称分子动力学)。这三种化合物均显示出对mTOR的雷帕霉素结合位点的结合亲和力,范围为-6.80至-9.20 Kcal/mol (FKB12)。抑制常数Ki为181.05 nM,表明Cordy A具有最高的结合亲和力(-9.20 Kcal/mol)。在三个被测化合物中,选择Cordy A进行MD模拟。采用HCT116和B16F10细胞株检测各化合物的抗癌效果。阿霉素被用作标准药物。与阿霉素48.63 μM相比,Int A、Cordy A和Oligo对HCT116细胞株的细胞毒活性分别为77.65 μM、145.36 μM和175.54 μM;对B16F10细胞株的细胞毒活性分别为68.63 μM、127.63 μM和139.11 μM。化合物Cordy A比本研究中测试的任何其他环肽都更有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular Docking and simulation analysis of Cyclopeptides as Anticancer Agents
Cancer is a leading cause of death for people worldwide, in addition to the rise in mortality rates attributed to the Covid epidemic. This allows scientists to do additional research. Here, we have selected Integerrimide A, cordy heptapeptide, and Oligotetrapeptide as the three cyclic proteins that will be further studied and investigated in this context. Docking research was carried out using the protein complexes 1FKB and 1YET, downloaded from the PDB database and used in the docking investigations. Cyclopeptides have been reported to bind molecularly to human HSP90 (Heat shock protein) and FK506. It was possible to locate HSP90 in Protein Data Banks 1YET and 1FKB. HSP90 was retrieved from Protein Data Bank 1YET and 1FKB. Based on these findings, it is possible that the anticancer effects of Int A, Cordy, and Oligo substances could be due to their ability to inhibit the mTOR rapamycin binding domain and the HSP90 Geldanamycin binding domain via the mTOR and mTOR chaperone pathways. During the calculation, there were three stages: system development, energy reduction, and molecular dynamics (also known as molecular dynamics). Each of the three compounds demonstrated a binding affinity for mTOR's Rapamycin binding site that ranged from -6.80 to -9.20 Kcal/mol (FKB12). An inhibition constant Ki of 181.05 nM characterized Cordy A with the highest binding affinity (-9.20 Kcal/mol). Among the three tested compounds, Cordy A was selected for MD simulation. HCT116 and B16F10 cell lines were used to test each compound's anticancer efficacy. Doxorubicin was used as a standard drug. The cytotoxic activity of substances Int A, Cordy A, and Oligo on HCT116 cell lines was found to be 77.65 μM, 145.36 μM, and 175.54 μM when compared to Doxorubicin 48.63 μM, similarly utilizing B16F10 cell lines was found to be 68.63 μM, 127.63 μM, and 139.11 μM to Doxorubicin 45.25 μM. Compound Cordy A was more effective than any other cyclic peptides tested in this investigation.
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来源期刊
Current Drug Therapy
Current Drug Therapy PHARMACOLOGY & PHARMACY-
CiteScore
1.30
自引率
0.00%
发文量
50
期刊介绍: Current Drug Therapy publishes frontier reviews of high quality on all the latest advances in drug therapy covering: new and existing drugs, therapies and medical devices. The journal is essential reading for all researchers and clinicians involved in drug therapy.
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