Assessment of the anti-inflammatory mechanism of quercetin 3,7-dirhamnoside using an integrated pharmacology strategy.

Chemical biology & drug design Pub Date : 2023-12-01 Epub Date: 2023-10-08 DOI:10.1111/cbdd.14346
Xinqian He, Yongzhi Sun, Xiaomeng Lu, Fan Yang, Ting Li, Changsheng Deng, Jianping Song, Xin'an Huang
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Abstract

Pouzolzia zeylanica (L.) Benn. is a Chinese herbal medicine widely used for its anti-inflammatory and pus-removal properties. To explore its potential anti-inflammatory mechanism, quercetin 3,7-dirhamnoside (QDR), the main flavonoid component of P. zeylanica (L.) Benn., was extracted and purified. The potential anti-inflammatory targets of QDR were predicted using network analysis. These potential targets were verified using molecular docking, molecular dynamics simulations, and in vitro experiments. Consequently, 342 potential anti-inflammatory QDR targets were identified. By analyzing the intersection between the protein-protein interaction and the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways, we identified several potential protein targets of QDR, including RAC-alpha serine/threonine-protein kinase (AKT1), Ras-related C3 botulinum toxin substrate 1 (RAC1), nitric oxide synthase 3 (NOS3), serine/threonine-protein kinase mTOR (mTOR), epidermal growth factor receptor (EGFR), growth factor receptor-bound protein 2 (GRB2), and endothelin-1 receptor (EDNRA). QDR has anti-inflammatory activity and regulates immune responses and apoptosis through chemokines, Phosphatidylinositol 3-kinase 3(PI3K)/AKT, cAMP, T-cell receptor, and Ras signaling pathways. Molecular docking analysis showed that QDR has good binding abilities with AKT1, mTOR, and NOS3. In addition, molecular dynamics simulations demonstrated that the protein-ligand complex systems formed between QDR and AKT1, mTOR, and NOS3 have high dynamic stability, and their protein-ligand complex systems possess strong binding ability. In RAW264.7 macrophages, QDR significantly inhibited lipopolysaccharides (LPS)-induced inducible nitric oxide synthase expression, nitric oxide (NO) release and the generation of proinflammatory cytokines IL-6, IL-1β, and TNF-α. QDR downregulated the expression of p-AKT1(Ser473)/AKT1 and p-mTOR (Ser2448)/mTOR, and upregulated the expression of NOS3, Rictor, and Raptor. This indicates that the anti-inflammatory mechanisms of QDR involve regulation of AKT1 and mTOR to prevent apoptosis and of NOS3 which leads to the release of endothelial NO. Thus, our study elucidated the potential anti-inflammatory mechanism of QDR, the main flavonoid found in P. zeylanica (L.) Benn.

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采用综合药理学策略评估槲皮素3,7-dirhamnoside的抗炎机制。
zeylanica Pouzolzia。是一种中草药,因其抗炎和排脓特性而被广泛使用。为了探讨其潜在的抗炎机制,研究了泽兰的主要黄酮类成分槲皮素3,7-二氢吡喃糖苷(QDR)。,提取并纯化。使用网络分析预测了QDR的潜在抗炎靶点。通过分子对接、分子动力学模拟和体外实验验证了这些潜在的靶点。因此,确定了342个潜在的抗炎QDR靶点。通过分析蛋白质-蛋白质相互作用与京都基因和基因组百科全书(KEGG)途径之间的交叉点,我们确定了QDR的几个潜在蛋白质靶标,包括RACα丝氨酸/苏氨酸蛋白激酶(AKT1)、Ras相关的C3肉毒杆菌毒素底物1(RAC1)、一氧化氮合酶3,表皮生长因子受体(EGFR)、生长因子受体结合蛋白2(GRB2)和内皮素-1受体(EDNRA)。QDR具有抗炎活性,并通过趋化因子、磷脂酰肌醇3-激酶3(PI3K)/AKT、cAMP、T细胞受体和Ras信号通路调节免疫反应和细胞凋亡。分子对接分析表明,QDR与AKT1、mTOR和NOS3具有良好的结合能力。此外,分子动力学模拟表明,QDR与AKT1、mTOR和NOS3形成的蛋白质-配体复合物系统具有较高的动力学稳定性,其蛋白质-配体配合物系统具有较强的结合能力。在RAW264.7巨噬细胞中,QDR显著抑制脂多糖(LPS)诱导的诱导型一氧化氮合酶表达、一氧化氮(NO)释放以及促炎细胞因子IL-6、IL-1β和TNF-α的产生。QDR下调p-AKT1(Ser473)/AKT1和p-mTOR(Ser2448)/mTOR的表达,并上调NOS3、Rictor和Raptor的表达。这表明QDR的抗炎机制涉及调节AKT1和mTOR以防止细胞凋亡,以及调节NOS3以导致内皮NO的释放。因此,我们的研究阐明了QDR的潜在抗炎机制,QDR是在泽兰中发现的主要类黄酮。
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