Abstract

ObjectiveInvestigating how Siling decoction (SLD) mitigates fibrosis in rats with chronic kidney disease CKD (chronic kidney disease) through network pharmacology analysis and experimental verification. MethodsInitially, the primary active components and their target actions of SLD (Fuling, Zhuling, Zexie, and Baizhu) were identified by the TCMSP database and liquid chromatography mass spectrometry (LC-MS). Treatment targets for renal fibrosis were screened through databases such as GeneCard, OMIM, PharmGkb, and GEO. Subsequently, a drug-disease-target network was constructed and subjected to PPI analysis. Intersecting targets underwent GO and KEGG pathway enrichment analyses. Renal fibrosis model was induced by adenine gavage, then treat with SLD. Masson, Sirius red, immunohistochemistry, and Western blot were used to detect renal function and fibrosis-related indicators. The mechanism was further validated in vitro experiments. ResultsNetwork pharmacology analysis identified 100 common targets associated with the active components of SLD, including core genes such as AKT1 and CCND1. GO enrichment analysis revealed that the top three biological processes impacted include response to xenobiotic stimulus, response to nutrient levels and response to oxidative stress. These processes involved cellular components such as membrane raft, membrane microdomain and synaptic membrane, with molecular functions predominantly associated with ubiquitin-like protein ligase binding, ubiquitin protein ligase binding, DNA-binding transcription factor binding, and RNA polymerase II-specific DNA binding transcription factor binding. KEGG pathway enrichment analysis indicated potential involvement of pathways like Lipid and atherosclerosis, PI3K-AKT signaling pathway, and prostate cancer are likely involved in the anti-fibrotic effect of SLD. Notably, the highlighted was the AKT/IKKβ/NFκB signaling pathway as a key mechanism. These findings were further confirmed in vivo and in vitro. ConclusionThe SLD effectively ameliorates adenine-induced chronic kidney disease fibrosis in rats, potentially by inhibiting the AKT/IKKβ/NFκB signaling pathway.

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