治疗阿尔茨海默氏症的黄葵网络药理学分析和实验验证。

Deyu Li, Yingchao Hu, Xin Liu, Guran Yu
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引用次数: 0

摘要

目的方法:通过网络药理学分析和实验验证,探讨白花蛇舌草治疗阿尔茨海默病(AD)的作用机制:方法:采用网络药理学方法筛选出黄花蒿治疗AD的有效成分和靶点,构建蛋白-蛋白相互作用(PPI)网络并分析其核心靶点,丰富基因本体(GO)和京都基因组百科全书(KEGG)通路分析。提取外周血淋巴细胞,构建淋巴母细胞样细胞系(LCL),并建立 LCL-SKNMC 体外细胞模型。MTT/CCK-8法检测SKNMC/LCL细胞的活性,2 ´, 7 ´-二氯二氢荧光素二乙酸酯(DCFH-DA)探针检测产生的活性氧(ROS),免疫荧光染色检测共培养模型中Aβ1-42的生成,Western印迹检测共培养模型中蛋白质的表达。在氧化胁迫、正常状态和热胁迫下观察N2线虫的寿命;用DCFH-DA探针检测N2线虫产生的ROS。通过麻痹试验评估了CL4176 N2线虫的麻痹时间,并通过硫黄素S(Th S)染色检测了咽部的Aβ沉积:结果:通过网络药理学筛选出15种潜在活性成分和103个药物疾病靶点。结果:通过网络药理学分析,筛选出15种潜在有效成分和103个药物疾病靶点。PPI分析表明,茵陈可能通过白蛋白、Akt1、肿瘤坏死因子、表皮生长因子受体(EGFR)、血管内皮生长因子(VEGFA)、哺乳动物雷帕霉素靶点(mTOR)、淀粉样前体蛋白(APP)、糖原合酶激酶(GSK)3β等相关靶点发挥抗AD作用。KEGG分析表明,黄葵的药理作用可能涉及阿尔茨海默病、内分泌抵抗、胰岛素抵抗等生物学过程,以及神经活性配体-受体相互作用、磷脂酰肌醇3-激酶(PI3K)-Akt信号通路、钙信号通路、糖尿病并发症中的AGE-RAGE信号通路、神经营养因子信号通路等。体外细胞实验表明,黄连能够减少 ROS 和 Aβ1-42(所有 P1-42 蛋白)的产生,进一步证实了黄连能够延长秀丽隐杆线虫在应激和正常条件下的寿命,减少 ROS 的积累和 Aβ 沉积的毒性:结论:茵陈可以减少AD中Aβ的产生,抑制其诱导的氧化应激,这可能是通过调节PI3K/AKT/GSK-3β通路实现的。
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Network pharmacology analysis and experimental validation of Anemarrhenae Rhizoma in treating Alzheimer's disease.

Objectives: To explore the mechanism of Anemarrhenae Rhizoma in treatment of Alzheimer's Disease (AD).

Methods: The active ingredients and targets of Anemarrhenae Rhizoma for treatment of AD were screened with network pharmacology methods, the protein-protein interaction (PPI) network was constructed and the core targets were analyzed. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways enriching analysis was performed. The peripheral blood lymphocytes were extracted and lymphoblastoid cell lines (LCL) were constructed and an in vitro cell model of LCL-SKNMC was established. MTT and CCK-8 methods were used to quantify SKNMC/LCL cells, 2 ´, 7 ´-dichlorodihydrofluorescein diacetate (DCFH-DA) probe was used to detect reactive oxygen species (ROS), and immunofluorescence staining was used to detect the generation of Aβ1-42 in a co-cultured model. Western blotting was used to detect protein expression in the co-culture model. The lifespan of N2 nematodes was observed under oxidative stress, normal state, and heat stress; ROS generated by N2 nematodes was detected by DCFH-DA probes. The paralysis time of CL4176 N2 nematodes was evaluated by paralysis assay, and Aβ deposition in the pharynx was detected by Thioflavin S staining.

Results: Through network pharmacology, 15 potential active ingredients and 103 drug-disease targets were identified. PPI analysis showed that the Anemarrhenae Rhizoma might play anti-AD roles through albumin, Akt1, tumor necrosis factor, epidermal growth factor receptor (EGFR), vascular endothelial growth factor A (VEGFA), mammalian target of rapamycin (mTOR), amyloid precursor protein (APP) and other related targets. KEGG analysis showed that the pharmacological effects of Anemarrhenae Rhizoma might involve the biological processes of Alzheimer's disease, endocrine resistance, insulin resistance; and neuroactive ligand-receptor interaction, phosphatidylinositol 3-kinase (PI3K)-Akt signaling pathway, calcium signaling pathway, AGE-RAGE signaling pathway in diabetes complications, neurotrophic factor signaling pathway and others. The in vitro cell experiments showed that Anemarrhenae Rhizoma was able to reduce the production of ROS and Aβ1-42 (both P<0.01), inhibit the expression of β-secretase 1 (BACE1), APP and Aβ1-42 proteins (all P<0.05), up-regulate the expression of p-PI3K/PI3K, p-AKT/AKT, p-GSK3β/GSK3β in SKNMC cells (all P<0.05). The in vivo studies further confirmed that Anemarrhenae Rhizoma prolonged the lifespan of C. elegans under stress and normal conditions, reduced the accumulation of ROS and the toxicity of Aβ deposition.

Conclusions: Anemarrhenae Rhizoma may reduce the production of Aβ in AD and inhibit its induced oxidative stress, which may be achieved by regulating the PI3K/Akt/GSK-3β pathway.

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