4.6 Article

Network Analysis of the Herb-Drug Interactions of Citrus Herbs Inspired by the Grapefruit Juice Effect

期刊

ACS OMEGA
卷 7, 期 40, 页码 35911-35923

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acsomega.2c04579

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资金

  1. Sub-project of Innovation Team and Talents cultivation Program of National Administration of Traditional Chinese Medicine
  2. National Special Support Plan Project for High-level Talents (Plan of Ten Thousand Talents) Famous Teacher
  3. National Natural Science Foundation of China
  4. Key Project for Basic Research Fund of Beijing University of Chinese Medicine
  5. [ZYYCXTD-C-202005-11]
  6. [81874349]
  7. [2020-JYB-20GG-047]

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This study investigated the interactions between citrus herbs and drugs, identifying shared potential active compounds and verifying the predictions through molecular docking and cell experiments. Further clinical and experimental evidence is needed to support these findings.
This study was performed to investigate the herb- drug interactions (HDIs) of citrus herbs (CHs), which was inspired by the grapefruit (GF) juice effect. Based on network analysis, a total of 249 components in GF and 159 compounds in CHs exhibited great potential as active ingredients. Moreover, 360 GF-related genes, 422 CH-related genes, and 111 genes associated with drug transport and metabolism were collected, while 25 and 26 overlapping genes were identified. In compound-target networks, the degrees of naringenin, isopimpinellin, apigenin, sinensetin, and isoimperatorin were higher, and the results of protein-protein interaction indicated the hub role of UGT1A1 and CYP3A4. Conventional drugs such as erlotinib, nilotinib, tamoxifen, theophylline, venlafaxine, and verapamil were associated with GF and CHs via multiple drug transporters and drug-metabolizing enzymes. Remarkably, GF and CHs shared 48 potential active compounds, among which naringenin, tangeretin, nobiletin, and apigenin possessed more interactions with targets. Drug metabolism by cytochrome P450 stood out in the mutual mechanism of GF and CHs. Molecular docking was utilized to elevate the protein-ligand binding potential of naringenin, tangeretin, nobiletin, and apigenin with UGT1A1 and CYP3A4. Furthermore, in vitro experiments demonstrated their regulating effect. Overall, this approach provided predictions on the HDIs of CHs, and they were tentatively verified through molecular docking and cell tests. Moreover, there is a demand for clinical and experimental evidence to support the prediction.

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