MOLECULAR DOCKING AND MOLECULAR DYNAMICS SIMULATIONS INHIBITION AGAINST OF HUMAN TELOMERASE BY NUCLEOSIDE AND NON-NUCLEOSIDE REVERSE TRANSCRIPTASE INHIBITORS (NRTIs/NNRTIs)

Ankara Universitesi Eczacilik Fakultesi Dergisi Pub Date : 2024-04-17 DOI:10.33483/jfpau.1444259

Dilan Konyar, Muhammed Tılahun Muhammed

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Abstract

Objective: This study investigated the anticancer effects of nucleoside and non-nucleoside reverse transcriptase inhibitors drugs by computational methods. The study aimed to evaluate the binding capacity of these drugs on the telomerase essential N-terminal (TEN) domain of telomerase reverse transcriptase (TERT). Molecular docking was used to assess the drugs' binding potential to the TEN domain. The stability of the protein-drug combination obtained from the docking method was assessed using molecular dynamics (MD) modeling. Material and Method: The TEN domain of TERT's crystal structure was obtained from the Protein Data Bank (PDB). The crystal structure identified by the PDB code 2B2A has a resolution of 2.2 Å. The molecular docking was performed using AutoDock Vina. The complexes were visualized using Biovia Discovery Studio. The MD simulation was conducted using GROMACS 2020 as indicated. An MD simulation was conducted for 200 ns on both the complexes and the free protein. The RMSD (root mean square deviation) of the protein and the molecules in relation to the protein, RMSF (root mean square fluctuation), and Rg (radius of gyration) were shown via Qt Grace. Result and Discussion: Doravirine, Etravirine, Rilpivirine showed higher binding affinity to the TEN domain compared to the reference TERT inhibitor, BIBR1532, based on the docking investigation. The MD simulation analysis showed that the protein-Doravirine complex had the highest stability in remaining within the protein's binding pocket. On the contrary, the protein-Rilpivirine complex decreased stability, potentially causing the ligand to not stay within the binding site. Doravirine was found to inhibit the TEN domain in the computational study. Therefore, the design and synthesis of novel doravirin derivatives is being considered because of the potential anticancer activity of doravirin in inhibiting the TEN domain of TERT.

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分子对接和分子动力学模拟核苷酸和非核苷酸逆转录酶抑制剂（NRTIs/NNRTIs）对人类脱氧核糖核酸酶的抑制作用

研究目的本研究通过计算方法研究了核苷类和非核苷类逆转录酶抑制剂的抗癌作用。研究旨在评估这些药物与端粒酶逆转录酶（TERT）的端粒酶必需N端（TEN）结构域的结合能力。分子对接被用来评估药物与TEN结构域的结合潜力。利用分子动力学（MD）建模评估了通过对接法获得的蛋白质-药物组合的稳定性。材料和方法：从蛋白质数据库（PDB）获得了TERT的TEN结构域晶体结构。该晶体结构的 PDB 代码为 2B2A，分辨率为 2.2 Å。使用 Biovia Discovery Studio 对复合物进行可视化。如图所示，使用 GROMACS 2020 进行了 MD 模拟。对复合物和游离蛋白质进行了 200 ns 的 MD 模拟。蛋白质和分子相对于蛋白质的 RMSD（均方根偏差）、RMSF（均方根波动）和 Rg（回转半径）通过 Qt Grace 显示：根据对接研究，与参考 TERT 抑制剂 BIBR1532 相比，多拉韦林、依曲韦林和 Rilpivirine 与 TEN 结构域的结合亲和力更高。MD 模拟分析表明，蛋白质-多拉韦林复合物在蛋白质结合口袋中的稳定性最高。相反，蛋白质-Rilpivirine 复合物的稳定性降低，可能导致配体无法留在结合位点内。计算研究发现，多拉韦林能抑制 TEN 结构域。因此，由于多拉韦林在抑制 TERT 的 TEN 结构域方面具有潜在的抗癌活性，目前正在考虑设计和合成新型多拉韦林衍生物。

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Ankara Universitesi Eczacilik Fakultesi Dergisi

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