Investigating the effects and mechanisms of Erchen Decoction in the treatment of colorectal cancer by network pharmacology and experimental validation

Shao, Yanfei; Chen, Jingxian; Hu, Yujie; Wu, Yuan; Zeng, Hualin; Lin, Song; Lai, Qiying; Fan, Xiaodong; Zhou, Xueliang; Zheng, Min; Gao, Bizhen; Sun, Jing

doi:10.3389/fphar.2022.1000639

Cited by 4 publications

(1 citation statement)

References 75 publications

(80 reference statements)

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“…Furthermore, experimental results indicate that ECD plays an important role in antiproliferation and promotion of apoptosis in CRC cells by downregulating the transcriptional levels of CDK1 and CDK6 and upregulating the transcriptional level of CDKN1A, thus inducing cell cycle arrest. As a compound medicine, ECD is effective in modulating multiple targets, not only directly regulating tumor cells but also affecting metabolism with other ingredients [ 19 ]. For example, Naringenin can reduce lipid peroxidation and protein carbonization, increase antioxidant defense, scavenge reactive oxygen species (ROS), and regulate fatty acid metabolism via signal pathways.…”

Section: Discussionmentioning

confidence: 99%

Regulation of Fatty Acid Metabolism and Inhibition of Colorectal Cancer Progression by Erchen Decoction

Liao

Zhang

Zhuo

et al. 2023

Evidence-Based Complementary and Alternative Medicine

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Erchen decoction (ECD) is a traditional Chinese prescription widely used in the treatment of various diseases such as obesity, fatty liver, diabetes, and hypertension. In this study, we investigated the effect of ECD on fatty acid metabolism in a colorectal cancer (CRC) mouse model fed a high-fat (HF) diet. The HF-CRC mouse model was established by azoxymethane (AOM)/dextran sulphate sodium (DSS) combined with a high-fat diet. Mice were then gavaged with ECD. Change in the body weight was recorded every two weeks for 26 weeks. Changes in blood glucose (GLU), total cholesterol (TC), total triglycerides (TG), and C-reactive protein (CRP) were measured. Colorectal tissues were collected to observe changes in colorectal length and tumorigenesis. Hematoxylin-eosin (HE) staining and immunohistochemical staining were performed to observe changes in intestinal structure and inflammatory markers. Fatty acids and the expression of related genes in colorectal tissues were also studied. ECD gavage inhibited HF-induced weight gain. CRC induction and HF diet intake resulted in increased GLU, TC, TG, and CRP, where ECD gavage reduced these elevated indicators. ECD gavage also increased colorectal length and inhibited tumorigenesis. HE staining revealed that ECD gavage suppressed inflammatory infiltration of colorectal tissues. ECD gavage suppressed the fatty acid metabolism abnormalities caused by HF-CRC in colorectal tissues. Consistently, ECD gavage lowered ACSL4, ACSL1, CPT1A, and FASN levels in colorectal tissues. Conclusions. ECD inhibited HF-CRC progression through the regulation of fatty acid metabolism.

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Section: Discussionmentioning

confidence: 99%

Regulation of Fatty Acid Metabolism and Inhibition of Colorectal Cancer Progression by Erchen Decoction

Liao

Zhang

Zhuo

et al. 2023

Evidence-Based Complementary and Alternative Medicine

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Network Pharmacology, Molecular Docking, and Experimental Validation to Investigate the Mechanism of Qifu Longkui Decoction in the Treatment of Colorectal Cancer

Xiong,

Liu,

Chen

et al. 2024

Natural Product Communications

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Objective This study aimed to validate the potential targets of QLD for treating CRC and explore its possible therapeutic mechanism through network pharmacology, molecular docking, and experimental validation. Methods The Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform (TCMSP), the Traditional Chinese Medicine Information Database (TCMID), a literature search, and the SwissTargetPrediction database were used to identify the active components and potential targets of QLD. The Online Mendelian Inheritance in Man (OMIM), GeneCards, and DrugBank databases were utilized for CRC target identification. Common targets in CRC and QLD were subsequently screened via a Venn diagram. Next, the Search Tool for the Retrieval of Interacting Genes/Genomes (STRING) database was used to perform protein-protein interaction (PPI) network analysis of the common targets. Gene Ontology (GO) functions and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses were employed to identify signaling pathways. After that, “drug-component-target” networks were built via Cytoscape 3.9.1 [2024.3.2]. AutoDock Tools 1.5.7 [2024.4.6] and PyMoL 2.4.0 [2024.4.13] were utilized for molecular docking to analyze the relationships between the active ingredients and core targets. Later, in vitro experiments were performed to validate the anticancer effects of QLD on CRC. Results Network pharmacology analysis revealed 200 active components and 194 potential targets of QLD from the TCMSP database. Disease target databases predicted 1590 targets associated with CRC. The potential anti-colorectal cancer mechanism of QLD may involve lipid and atherosclerosis, chemical carcinogenesis-receptor activation, HIF-1 signaling pathway, TNF signaling pathway, cellular senescence, EGFR tyrosine kinase inhibitor resistance, platinum drug resistance, and the FoxO signaling pathway. Furthermore, QLD has a therapeutic effect through its effects on the 6 core targets TP53, AKT1, TNF, EGFR, IL6 and CASP3. Kaempferol is an active ingredient of QLD and is a flavonoid compound that is known for its antitumor, antioxidant and anti-inflammatory effects. It is unclear how kaempferol affects the onset of CRC. 1 In this study, when the concentration of kaempferol was 2 mg/mL, the proliferative capacity of colorectal cancer cells was inhibited, and kaempferol regulated the AKT/CyclinD1 pathway to inhibit the proliferation of Caco-2 cells. Conclusions Network pharmacology approaches in cancer therapy are highly beneficial. 2 This approach serves as an effective supplementary method for identifying multiple targets of QLD and the underlying mechanisms involved in the fight against CRC. This research reveals the potential role of QLD in the treatment of CRC from a network pharmacology perspective for the first time, enhances the knowledge regarding QLD and offers new insight into QLD research for CRC treatment.

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Chinese herbal medicine for the treatment of intestinal cancer: preclinical studies and potential clinical applications

Zhang,

Wu,

Tian

et al. 2024

Mol Cancer

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Intestinal cancer (IC) poses a significant global health challenge that drives continuous efforts to explore effective treatment modalities. Conventional treatments for IC are effective, but are associated with several limitations and drawbacks. Chinese herbal medicine (CHM) plays an important role in the overall cancer prevention and therapeutic strategies. Recent years have seen a growing body of research focus on the potential of CHM in IC treatment, showing promising results in managing IC and mitigating the adverse effects of radiotherapy and chemotherapy. This review provides updated information from preclinical research and clinical observation on CHM’s role in treatment of IC, offering insights into its comprehensive management and guiding future prevention strategies and clinical practice.

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Investigating the effects and mechanisms of Erchen Decoction in the treatment of colorectal cancer by network pharmacology and experimental validation

Cited by 4 publications

References 75 publications

Regulation of Fatty Acid Metabolism and Inhibition of Colorectal Cancer Progression by Erchen Decoction

Regulation of Fatty Acid Metabolism and Inhibition of Colorectal Cancer Progression by Erchen Decoction

Network Pharmacology, Molecular Docking, and Experimental Validation to Investigate the Mechanism of Qifu Longkui Decoction in the Treatment of Colorectal Cancer

Chinese herbal medicine for the treatment of intestinal cancer: preclinical studies and potential clinical applications

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