UHPLC-Q Exactive-Orbitrap-MS and network pharmacology analyses to investigate the mechanism by which Danggui-Shaoyao-San affects 27-OHC-induced cell damage in SH-SY5Y/C6 coculture.
IF 3.3 2区 医学Q1 INTEGRATIVE & COMPLEMENTARY MEDICINE
Yi Huang, Yingying Zhai, Di Zhao, Mingan Wu, Qi Shen, Wei Zhao, Qi Wang, Limei Yao, Weirong Li
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Abstract
Background: Danggui-Shaoyao-San (DSS) is a classic Chinese medicine formula that has been extensively studied for its efficacy in treating Alzheimer's disease (AD). However, its mechanism of action is still unclear.
Methods: In this study, UHPLC-Q Exactive-Orbitrap-MS was used to analyze and identify the compounds in DSS. Network pharmacology was used to analyze the common targets of drug-containing serum chemistries and AD, as well as the AD pathways in which drug-containing serum chemistries may be involved. The 27-OHC-induced SH-SY5Y/C6 coculture cell injury model was used to explore the mechanism of action of DSS in the treatment of AD.
Results: UHPLC-Q Exactive-Orbitrap-MS analysis identified 73 chemical constituents in DSS aqueous extract and 39 compounds in drug-containing serum. According to network pharmacology analysis, DSS and AD share 181 common targets, with interleukin-6 (IL-6) and tumor necrosis factor (TNF) being the main effective targets. Furthermore, DSS may treat AD through the modulation of lipid metabolism-related pathways and the interleukin-17 (IL-17) signaling pathway. 27-hydroxycholesterol acid (27-OHC) significantly reduced the viability of SH-SY5Y cells and C6 cells in vitro, while DSS administration upregulated the expression of cytochrome P450 46A1 (CYP46A1) and cytochrome P450 7B1 (CYP7B1) enzymes and reduced cholesterol levels in SH-SY5Y cells. Additionally, DSS decreased reactive oxygen species (ROS) levels and increased glutathione (GSH) levels in coculture systems. DSS downregulated the expression of IL-17 in 27-OHC-injured SH-SY5Y cells and downregulated the expression of TNF-α, IL-6 and transforming growth factor-β1 (TGF-β1) in 27-OHC-injured C6 cells.
Conclusion: This study revealed the effective components, targets and mechanisms of DSS in the treatment of AD, highlighting the significant potential of DSS in treating this disease.
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