揭示分子见解：用于干眼症治疗的 Toll 样受体 4 拮抗剂的计算机模拟探索。

Unveiling molecular insights: in silico exploration of TLR4 antagonist for management of dry eye syndrome.

作者信息

Sudhakar Kothandan, Dugar Neeru, Jupudi Srikanth, Ashwin Ravichandran, Gowthamarajan Kuppusamy

机构信息

Department of Pharmaceutics, JSS College of Pharmacy, JSS Academy of Higher Education and Research, Ooty,The Nilgiris-643001, Tamil Nadu, India.

Department of Pharmaceutical Chemistry, JSS College of Pharmacy, JSS Academy of Higher Education and Research, Ooty, The Nilgiris-643001, Tamil Nadu, India.

出版信息

BMJ Open Ophthalmol. 2024 May 3;9(1):e001610. doi: 10.1136/bmjophth-2023-001610.

DOI:10.1136/bmjophth-2023-001610

PMID:38702178

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11086362/

Abstract

BACKGROUND

Dry eye disease is the most commonplace multifractional ocular complication, which has already affected millions of people in the world. It is identified by the excessive buildup of reactive oxygen species, leading to substantial corneal epithelial cell demise and ocular surface inflammation attributed to TLR4. In this study, we aimed to identify potential compounds to treat of dry eye syndrome by exploring in silico methods.

METHODS

In this research, molecular docking and dynamics simulation tests were used to examine the effects of selected compounds on TLR4 receptor. Compounds were extracted from different databases and were prepared and docked against TLR4 receptor via Autodock Vina. Celastrol, lumacaftor and nilotinib were selected for further molecular dynamics studies for a deeper understanding of molecular systems consisting of protein and ligands by using the Desmond module of the Schrodinger Suite.

RESULTS

The docking results revealed that the compounds are having binding affinity in the range of -5.1 to -8.78 based on the binding affinity and three-dimensional interactions celastrol, lumacaftor and nilotinib were further studied for their activity by molecular dynamics. Among the three compounds, celastrol was the most stable based on molecular dynamics trajectory analysis from 100 ns in the catalytic pockets of 2Z63.pdb.pdb. Root mean square deviation of celastrol/2Z63 was in the range of 1.8-4.8 Å.

CONCLUSION

In particular, Glu376 of TLR4 receptor is crucial for the identification and binding of lipopolysaccharides (LPS), which are part of Gram-negative bacteria's outer membrane. In our investigation, celastrol binds to Glu376, suggesting that celastrol may prevent the dry eye syndrome by inhibiting LPS's binding to TLR4.

摘要

背景

干眼症是最常见的多因素眼部并发症，已影响全球数百万人。其特征是活性氧的过度积累，导致大量角膜上皮细胞死亡以及由TLR4引起的眼表炎症。在本研究中，我们旨在通过计算机模拟方法确定治疗干眼症综合征的潜在化合物。

方法

在本研究中，使用分子对接和动力学模拟测试来检查所选化合物对TLR4受体的影响。从不同数据库中提取化合物，并通过Autodock Vina对其进行制备并与TLR4受体对接。选择雷公藤红素、鲁马卡托和尼洛替尼进行进一步的分子动力学研究，以通过使用Schrodinger Suite的Desmond模块更深入地了解由蛋白质和配体组成的分子系统。

结果

对接结果显示，基于结合亲和力，这些化合物的结合亲和力在-5.1至-8.78范围内。根据结合亲和力和三维相互作用，对雷公藤红素、鲁马卡托和尼洛替尼通过分子动力学进一步研究其活性。在这三种化合物中，根据2Z63.pdb.pdb催化口袋中100 ns的分子动力学轨迹分析，雷公藤红素最稳定。雷公藤红素/2Z63的均方根偏差在1.8-4.8Å范围内。

结论

特别是，TLR4受体的Glu376对于脂多糖（LPS）的识别和结合至关重要，脂多糖是革兰氏阴性菌外膜的一部分。在我们的研究中，雷公藤红素与Glu376结合，表明雷公藤红素可能通过抑制LPS与TLR4的结合来预防干眼症综合征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d327/11086362/6a561f9b2d80/bmjophth-2023-001610f01.jpg

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揭示分子见解：用于干眼症治疗的 Toll 样受体 4 拮抗剂的计算机模拟探索。

Unveiling molecular insights: in silico exploration of TLR4 antagonist for management of dry eye syndrome.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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