利用网络药理学和分子对接,探索芬戈莫德和西泊尼莫德治疗精神分裂症认知障碍的分子靶点。

IF 3 Q2 PSYCHIATRY Schizophrenia (Heidelberg, Germany) Pub Date : 2024-09-30 DOI:10.1038/s41537-024-00504-x
Chao Li, Chuanjun Zhuo, Xiaoyan Ma, Ranli Li, Ximing Chen, Yachen Li, Qiuyu Zhang, Lei Yang, Lina Wang
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引用次数: 0

摘要

由于缺乏新型疗法,治疗精神分裂症认知障碍的需求尚未得到满足。最近的研究表明,芬戈莫德和西泊尼莫德对多种神经精神疾病具有神经保护作用,但其药理机制尚不清楚。本研究旨在通过网络药理学和分子对接,确定芬戈莫德和西泊尼莫德改善精神分裂症认知的潜在分子机制。研究人员从在线数据库(包括 SwissTargetPrediction、PharmMapper、GeneCards、CTD、DisGeNET 和 OMIM)中获取了成分、精神分裂症和认知障碍的推定靶基因。为确定核心靶点,构建了蛋白质-蛋白质相互作用网络。DAVID 数据库用于 GO 和 KEGG 通路富集分析。使用 Cytoscape 构建了成分-靶标-通路-疾病网络。最后,通过分子对接评估了成分与核心靶点之间的相互作用。分析结果显示,芬戈莫德和西泊尼莫德共有260个靶点,芬戈莫德有257个独特靶点,西泊尼莫德有88个独特靶点。芬戈莫德介导的精神分裂症认知改善涉及两个信号通路,包括PI3K-Akt和MAPK信号通路。调节这两条途径的核心靶点包括IL1B、AKT1、TNF、IL6、INS、BCL2和BDNF。MAPK信号通路参与了siponimod介导的精神分裂症认知能力改善。MAPK 信号通路受三个核心靶点的调控,即 TNF、AKT1 和 CASP3。对接得分范围为-5.0至-10.4 kcal/mol。我们的分析表明,芬戈莫德通过核心靶点IL1B、AKT1、TNF、IL6、INS、BCL2和BDNF调节PI3K-Akt和MAPK信号通路,西泊尼莫德通过核心靶点AKT1、TNF和CASP3调节MAPK信号通路,从而改善精神分裂症患者的认知能力。我们的研究结果为设计治疗精神分裂症认知障碍的新药提供了潜在靶点和理论基础。
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Exploring the molecular targets of fingolimod and siponimod for treating the impaired cognition of schizophrenia using network pharmacology and molecular docking.

The treatment of cognitive impairment in schizophrenia is an unaddressed need due to the absence of novel treatments. Recent studies demonstrated that fingolimod and siponimod have neuroprotective effects in several neuropsychiatric disorders; however, their pharmacological mechanisms are unclear. The objective of this study was to identify potential molecular mechanisms of fingolimod and siponimod for improving cognition of schizophrenia through network pharmacology and molecular docking. The putative target genes of ingredients, schizophrenia, and impaired cognition were obtained from online databases, including SwissTargetPrediction, PharmMapper, GeneCards, CTD, DisGeNET, and OMIM. A protein-protein interaction network was constructed to identify core targets. The DAVID database was used for GO and KEGG pathway enrichment analyses. An ingredient-target-pathway-disease network was constructed using Cytoscape. Finally, the interactions between ingredients and core targets were assessed with molecular docking. The analysis revealed 260 targets shared by fingolimod and siponimod, 257 unique targets for fingolimod, and 88 unique targets for siponimod. Two signaling pathways were involved in fingolimod-mediated improvements in the cognition of schizophrenia, including the PI3K-Akt and MAPK signaling pathways. The core targets that regulated these two pathways included IL1B, AKT1, TNF, IL6, INS, BCL2, and BDNF. The MAPK signaling pathway was involved in siponimod-mediated improvement in the cognition of schizophrenia. The MAPK pathway was regulated by three core targets, namely TNF, AKT1, and CASP3. Docking scores ranged from -5.0 to -10.4 kcal/mol. Our analysis revealed that fingolimod regulates the PI3K-Akt and MAPK signaling pathways via the core targets IL1B, AKT1, TNF, IL6, INS, BCL2, and BDNF, and siponimod regulates the MAPK signaling pathways via the core targets AKT1, TNF, and CASP3 to improve the cognition of schizophrenia. Our results provide potential targets and a theoretical basis for the design of new drugs to treat the impaired cognition of schizophrenia.

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