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Deciphering the Molecular Mechanism of Escin against Neuropathic Pain: A Network Pharmacology Study.
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- Author(s): Li, Xi (AUTHOR); Wu, Yating (AUTHOR); Wang, Haoyan (AUTHOR); Li, Zaiqi (AUTHOR); Ding, Xian (AUTHOR); Dou, Chongyang (AUTHOR); Hu, Lin (AUTHOR); Du, Guizhi (AUTHOR); Wei, Guihua (AUTHOR)
- Source:
Evidence-based Complementary & Alternative Medicine (eCAM). 10/16/2023, p1-15. 15p. 9 Diagrams, 1 Chart, 5 Graphs. - Source:
- Additional Information
- Subject Terms: PROTEIN kinases; NEURALGIA; GLYCOSIDES; MATRIX metalloproteinases; CELLULAR signal transduction; GENOMES; TUMOR necrosis factors; DESCRIPTIVE statistics; RESEARCH funding; PHARMACEUTICAL chemistry; COMPUTER-assisted molecular modeling; MOLECULAR structure; MITOGEN-activated protein kinases; T cells; DATA analysis software
- Abstract: Background. Escin is the main active component in Aesculus hippocastanum. It has been demonstrated that escin has anti-inflammatory properties. This study combined the methods of network pharmacology, molecular docking, and molecular dynamics to explore the molecular mechanism of escin against neuropathic pain (NP). Methods. The Swiss Target Prediction and the Pharm Mapper database were employed for predicting the targets of escin. Also, the candidate targets of NP were gathered via the databases including Therapeutic Targets, DisGeNet, GeneCards, DrugBank, and OMIM. Subsequently, the network of protein-protein interaction was screened for the key targets by the software Cytoscape 3.8.0. Then, the intersection of these targets was analysed by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment. Additionally, we further investigated the ligand-target interactions by molecular docking and molecular dynamics simulations. Results. In total, 94 escin targets were predicted by network pharmacology. Among them, SRC, MMP9, PTGS2, and MAPK1 were the core candidate targets. Subsequently, the analysis of GO and KEGG enrichment revealed that escin affected NP by regulating protein kinase C, MAP kinase, TRP channels, the T-cell receptors signaling pathway, and the TNF signaling pathway. The results of molecular docking and molecular dynamics simulation confirmed that escin not only had a strong binding activity with the four core target proteins but also stably combined in 50 ns. Conclusions. Our study revealed that escin acts on the core targets SRC, MMP9, PTGS2, MAPK1, and associated enrichment pathways to alleviate neuronal inflammation and regulate the immune response, thus exerting anti-NP efficacy. This study provided innovative ideas and methods for the promising treatment of escin in relieving NP. [ABSTRACT FROM AUTHOR]
- Abstract: Copyright of Evidence-based Complementary & Alternative Medicine (eCAM) is the property of Hindawi Limited and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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