金合欢和野花门植物化合物作为环氧合酶-2酶抑制剂的原位评价。

Yukeswaran Loganathan, Manav Jain, Subhashini Thiyagarajan, Shreeranjana Shanmuganathan, Suresh Kumar Mariappan, Moni Philip Jacob Kizhakedathil, Tamilselvi Saravanakumar
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引用次数: 2

摘要

目的:环氧化酶(COX-1和COX-2)催化前列腺素的形成,前列腺素是炎症途径的介质。炎症相关的病理状况可能通过靶向Cox酶而得到缓解。目前市场上可用的COX-2抑制剂会产生不良副作用。本文主要研究了合欢和野花门植物化合物对COX -2酶的体外抑制作用。方法:分析合欢和野花门植物化学成分对COX-2的抑制作用。本研究采用气相色谱-质谱分析得到的8个产自合欢的化合物和11个产自野花门的化合物。分子对接使用AutoDock vina进行。从蛋白质数据库中获得COX-2的晶体结构(PDB ID: 5IKR)。PyMol用于去除任何溶剂,有机和无机分子。利用SPDBV软件对蛋白质进行能量最小化。利用阿伏伽德罗软件对配体进行几何优化。以塞来昔布为阳性对照。使用SwissADME和ProtoxII在线服务器分析化合物的ADMET性质。通过分子力学/广义出生表面积(MM/GBSA)计算来评估结合效率。利用薛定谔套件的Desmond包对蛋白及其配体复合物进行了约100 ns的分子动力学研究。结果:在这18种化合物中,角鲨烯的结合能为-7.7 kcal/mol。对照塞来昔布的结合能约为- 9.4 kcal/mol。角鲨烯的毒性和ADMET性质表明它是无毒的,符合利平斯基规则。分子动力学(MD)分析表明,角鲨烯与酶的结合是稳定的。结论:角鲨烯具有抑制COX2的作用,可用于凝胶/面霜的制备,可用于体外水肿和炎症的治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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An Insilico evaluation of phytocompounds from Albizia amara and Phyla nodiflora as cyclooxygenase-2 enzyme inhibitors.

Purpose: The enzyme Cyclooxygenases (COX-1 and COX-2) catalyze the formation of prostaglandin, a mediator of the inflammatory pathway. Inflammation related pathological conditions may be alleviated by targeting the Cox enzymes.COX-2 inhibitors that are currently available in the market causes undesirable side effects. Our present study focuses on the in-silico inhibition of COX -2 enzyme by the phytocompounds from Albizia amara and Phyla nodiflora.

Methods: The phytochemicals present in Albizia amara and Phyla nodiflora were analyzed for their COX-2 inhibition potential. Eight compounds from Albizia amara and eleven compounds from Phyla nodiflora obtained from GC-MS analysis was used for the current study. Molecular docking was performed using AutoDock vina. The crystal structure of COX-2 (PDB ID: 5IKR) was obtained from Protein data bank. PyMol was used to remove any solvent, organic and inorganic molecules. Energy minimization of the protein was carried out using SPDBV software. Geometrical optimizations of the ligands were performed using Avogadro software. Celecoxib was used as the positive control. ADMET properties of the compounds were analyzed using SwissADME and ProtoxII online servers. Molecular mechanics/generalized born surface area (MM/GBSA) calculations were performed to evaluate the binding efficiency. Molecular dynamics of the protein and protein-ligand complex was studied for about 100 ns using Desmond package of Schrodinger suite.

Results: Among the eighteen compounds, Squalene present in both the plants showed a better binding energy of -7.7 kcal/mol, when compare to other phytocompounds present in the extract. The control celecoxib showed a binding energy of about - 9.4 kcal/mol. The toxicity and ADMET properties of squalene indicated that it is non-toxic and followed Lipinski's rule. Molecular Dynamics (MD) analysis showed that the binding of squalene to the enzyme was stable.

Conclusion: Squalene could potentially inhibit COX2 and o wing to its properties, squalene can be formulated in gels/creams and could be possibly used for external edema and inflammation.

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