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Exploring the Molecular Mechanisms of Huaier on Modulating MetabolicReprogramming of Hepatocellular Carcinoma: A Study based on NetworkPharmacology, Molecular Docking and Bioinformatics

重编程 肝细胞癌 生物信息学 药理学 生物信息学 计算生物学 CYP3A4型 生物 癌症研究 细胞色素P450 新陈代谢 遗传学 生物化学 基因
作者
Yuxiang Wan,Honglin Jiang,Zeyu Liu,Chen Bai,Yanyan Lian,Chunguang Zhang,Qiaoli Zhang,Jinchang Huang,Jinchang Huang
出处
期刊:Current Pharmaceutical Design [Bentham Science Publishers]
卷期号:30 (24): 1894-1911 被引量:4
标识
DOI:10.2174/0113816128287535240429043610
摘要

BACKGROUND: Murr), a traditional Chinese medicine, is widely used in China as a complementary and alternative therapy to treat hepatocellular carcinoma (HCC). Past studies have shown that Huaier can arrest the cell cycle, promote apoptosis and inhibit the proliferation of cancer cells. However, how it regulates the metabolism of HCC is still unclear. OBJECTIVE: This study explores the metabolic-related function of Huaier in treating HCC with an in-silico approach. METHODS: A network pharmacology and bioinformatics-based approach was employed to investigate the molecular pathogenesis of metabolic reprogramming in HCC with Huaier. The compounds of Huaier were obtained from public databases. Oral bioavailability and drug likeness were screened using the TCMSP platform. The differential gene expressions between HCC and non-tumor tissue were calculated and used to find the overlap from the targets of Huaier. The enrichment analysis of the overlapped targets by Metascape helped filter out the metabolism-related targets of Huaier in treating HCC. Protein-protein interaction (PPI) network construction and topological screening revealed the hub nodes. The prognosis and clinical correlation of these targets were validated from the cancer genome atlas (TCGA) database, and the interactions between the hub nodes and active ingredients were validated by molecular docking. RESULTS: The results showed that Peroxyergosterol, Daucosterol, and Kaempferol were the primary active compounds of Huaier involved in the metabolic reprogramming of HCC. The top 6 metabolic targets included AKR1C3, CYP1A1, CYP3A4, CYP1A2, CYP17A1, and HSD11B1. The decreased expression of CYP3A4 and increased expression of AKR1C3 were related to the poor overall survival of HCC patients. The molecular docking validated that Peroxyergosterol and Kaempferol exhibited the potential to modulate CYP3A4 and AKR1C3 from a computational perspective. CONCLUSION: This study provided a workflow for understanding the mechanism of Huaier in regulating the metabolic reprogramming of HCC.
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