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Fibrosis, a tumor-like lesion between benign tissue and malignant tumor, mostly occurs in the liver, kidney, heart, lung, bone marrow and other organs and tissues. It can affect almost every organ and eventually induce multiple organ failure and cancers, seriously endangering human life. It will be of great importance to prevent cancer if the disease can be opportunely blocked in the fibrotic stage. The pathogenesis of fibrosis is still not completely clear. It is of great clinical significance to study the occurrence, development, and mechanism of fibrosis as well as to screen new therapeutic targets. Enhancer of zeste homolog 2 (EZH2) is mainly located in the nucleus and involved in the formation of the polycomb repressive complex 2. EZH2 is a methyltransferase which makes the lysine on position 27 of histone H3 (H3K27me3) undergo trimethyl modification induces gene silencing through classical or nonclassical actions, so as to inhibit or activate transcription. EZH2 plays a critical role in cell growth, proliferation, differentiation, and apoptosis, which is regulated by different targets and signaling pathways. EZH2 regulates the transformation of myofibroblasts and participates in the fibrosis of multiple organs. Recent studies have shown that EZH2 plays a role in fibrosis-related pathophysiological processes such as epithelial-mesenchymal transition, oxidative stress, and inflammation. EZH2 as the target of fibrosis, EZH2 inhibitors, and EZH2-related traditional Chinese medicine (TCM) formula and active compounds have gradually become hot research directions. EZH2 may be a powerful target for organ fibrosis. Exploring the structure, function, and distribution of EZH2, the role of EZH2 in fibrosis, the EZH2 inhibitors, and TCM formulas and active components targeting EZH2 has great meanings. This paper reviews the research progress in EZH2 and fibrosis, providing new ideas for the diagnosis, treatment, and drug development of fibrosis.
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Objective:To investigate potential effective components of traditional Chinese medicine and their molecular mechanisms of action in the anti-angiogenic treatment of Kaposi′s sarcoma based on network pharmacology, and to predict key targets and signal pathways in the anti-angiogenic treatment of Kaposi′s sarcoma with traditional Chinese medicine.Methods:According to the previous network pharmacology-based analysis results, main chemical components and targets of Rhizoma Polygoni Cuspidati, Cortex Mori, Rhizoma Smilacis Glabrae and Fructus Perillae were obtained by using the traditional Chinese medicine systems pharmacology database and analysis platform (TCMSP); potential therapeutic targets for angiogenesis and Kaposi′s sarcoma were obtained by searching the GeneCard, OMIM, DrugBank and TTD databases, and a Venn diagram was constructed to obtain targets for the interaction between Kaposi′s sarcoma and anti-angiogenic drug components; a protein-protein interaction model was constructed using the STRING 11.5 platform; the Cytoscape 3.6.0 software was used to construct the component-target visual network. Meanwhile, the Metascape platform was used to analyze the Gene Ontology (GO) functions and the enrichment of Kyoto Encyclopedia of Genes and Genome (KEGG) -based pathways. The main active ingredients and core targets obtained through the above analyses were then verified by molecular docking. Results:The core components of anti-Kaposi′s sarcoma angiogenesis drugs were resveratrol (degree: 142), quercetin (degree: 141), kaempferol (degree: 56), luteolin (degree: 56), β-sitosterol (degree: 37), arachidonic acid (degree: 36), naringenin (degree: 36), etc., and the core target was prostaglandin-endoperoxide synthase 2 (PTGS2). KEGG analysis revealed that the cancer signaling pathways were the important pathways related to the inhibiton of angiogenesis in Kaposi′s sarcoma; functional enrichment analysis showed that the positive regulation of cell migration was the most significantly enriched GO term in the biological process category. Molecular docking results showed that resveratrol, quercetin, kaempferol and luteolin had good affinity with PTGS2, especially quercetin and luteolin exhibited the strongest binding abilities to PTGS2, with the binding energies being -9.4 and -9.5 kcal/mol, respectively.Conclusion:This study showed that the 4 traditional Chinese medicines recorded in TCMSP (including Rhizoma Polygoni Cuspidati., Cortex Mori, Rhizoma Smilacis Glabrae and Fructus Perillae) may play an anti-angiogenic role by regulating cancer signaling pathways and acting on targets such as PTGS2, and predicted the possible anti-angiogenesis mechanisms of traditional Chinese medicines in Kaposi′s sarcoma.
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Herpes simplex keratitis(HSK), caused by the infection of herpes simplex virus type Ⅰ(HSV-1)in cornea, is a global blinding corneal disease. After the primary infection in ocular surface, HSV-1 is transported into trigeminal ganglion and establishes the life-lasting latency, and it results in recurrent keratopathy. In the process of studying the latent mechanism of HSV, it has been gradually recognized that both the virus itself and the host response regulate the latent process of HSV. In recent years, a large number of research results have been obtained on the molecular mechanisms of invasion, immunity, latency and recurrence of neurotropic viruses, which provide new ideas for the prevention and treatment of HSK. In the present review, the recent progress of HSV latency mechanism in trigeminal ganglion after the primary infection in corneal surface was introduced, and the unsolved basic and clinical problems in HSK were discussed.
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Objective:To deeply explore the potential mechanism of Kangmin Zhisou Granules in the treatment of bronchial asthma through network pharmacology method; To verify it with animal experiments.Methods:The active components and corresponding target information of Kangmin Zhisou Granules were screened with the help of BATMAN-TCM database, and the related disease targets of bronchial asthma were obtained through GeneCards and OMIM databases. The drug targets and bronchial asthma targets were intersected and imported String database was used to establish PPI network. Cytoscape 3.9.1 software was used to draw the network diagram of "Chinese materia medica-active components-intersection targets" and the core targets were screened. GO and KEGG enrichment analysis was performed on the core targets using DAVID database. A mouse model of asthma induced by ovalbumin was prepared. After the intervention of Kangmin Zhisou Granules, the pathological changes of mouse lung tissue were observed, and the contents of serum TNF-α, IL-6, IL-1 β were detected by ELISA.Results:Totally 240 active components and 1 364 potential targets were obtained from Kangmin Zhisou Granules. Tumor necrosis factor (TNF), interleukin-6 (IL-6), protein kinase B (AKT1), albumin (ALB), interleukin 1-beta (IL-1β) and other 11 core targets were obtained after screening. The results of GO enrichment analysis showed that the treatment of bronchial asthma by Kangmin Zhisou Granules mainly involved the positive regulation of protein phosphorylation, the regulation of inflammatory response, lipopolysaccharide response and other biological processes, as well as TNF, activated protein kinase (MAPK), interleukin-17 (IL-17) and other signaling pathways. Animal experiments confirmed that Kangmin Zhisou Granules could reduce the expression levels of TNF-α, IL-6 and IL-1β in serum ( P<0.05), and reduce the infiltration of inflammatory cells in the lung tissue of mice, thereby relieving asthma symptoms. Conclusion:Kangmin Zhisou Granules may exert anti-inflammatory effects by acting on TNF-α, IL-6, IL-1β and other targets to alleviate asthma symptoms.
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Objective:To analyze and explore the possible mechanism of anti-tumor metastasis of Notoginseng Radix et Rhizoma using Internet pharmacology. Methods:The active components and targets of Notoginseng Radix et Rhizoma were screened by retrieving Chinese Medicine System Pharmacology Database and Analysis Platform (TCMSP). GeneCards database was used to screen the anti-tumor metastasis-related targets, and compounds and disease targets were under mapping analysis. Key targets of Notoginseng Radix et Rhizoma for anti-tumor metastasis were screened through Venn map. With the help of Cytoscape 3.7.2 software, a compound-disease network diagram was constructed. String platform was used to build a PPI network. Bioconductor was used to enrich the target genes for KEGG signaling pathway and GO biological process analysis. Results:Totally 119 active components were selected from Notoginseng Radix et Rhizoma. There were 8 eligible active components, corresponding to 162 related targets, 121 targets related to anti-tumor metastasis, and 30 key targets screened by PPI network, including AKT1, MAPK1, JUN, RELA, IL6, etc. GO enrichment analysis mainly involved biological processes such as cytokine receptor binding, heme binding, RNA polymerase Ⅱ transcription factor binding, ubiquitin protein ligase binding, and steroid hormone receptor activity. 149 signal pathways related to Notoginseng Radix et Rhizoma anti-tumor metastasis were obtained by KEGG enrichment analysis, mainly involving multiple signal pathways, such as AGE-RAGE and PI3K-Akt, and hepatitis B, Kaposi's sarcoma-associated herpes virus infection, human cytomegalovirus infection and other viral infections and various tumors. Conclusion:Notoginseng Radix et Rhizoma can pass multiple active components, such as ginsenoside f2, ginsenoside rh2 β-, sitosterol, stigmasterol and quercetin, and multiple targets, such as AKT1, MAPK1, JUN, RELA and IL6, acting on multiple pathways such as PI3K-Akt, thereby playing the role of anti-tumor metastasis.
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Objective:To explore the mechanism of Kechuan'an Oral Liquid in treating asthma based on network pharmacology; To carry out experimental verification.Methods:The effective components and targets of Kechuan'an Oral Liquid were obtained through TCMSP and literature search. The related targets of asthma were screened by GEO database, and the intersection targets of drug and disease were selected. The PPI network was constructed by STRING database, and the GO function and KEGG pathway were enriched and analyzed for key targets by DAVID database. The rats were divided into blank control group, model group and Kechuan'an Oral Liquid group according to the method of random number table. Kechuan'an Oral Liquid group received Kechuan'an Oral Liquid 12.34 ml/kg for gavage, and blank control group and model group were perfused with distilled water of the same volume for gavage, once a day for 3 days. The asthma model of rats was prepared by atomizing the mixture of acetylcholine chloride and histamine phosphate, and HE staining was used to observe the pathological changes of lung tissue; Western blot was used to detect the protein expressions of IL-6, TLR4, MyD88 and TAK1, and the network pharmacological prediction results were verified.Results:A total of 153 active components, 1 896 targets and 2 982 differentially expressed genes of Kechuan'an Oral Liquid were screened out, and 25 intersection targets of drugs and diseases were obtained. The enrichment results showed that toll-like receptor signaling pathway, TNF signaling pathway and Nod-like receptor signaling pathway were the main mechanisms of immune inflammation. Compared with the control group, the lung tissue of rats in the model group showed morphological changes such as thickening of air duct wall and infiltration of inflammatory cells, which were significantly improved in the Kechuan'an Oral Liquid group. Compared with the control group, the expressions of IL-6, TLR4, MyD88 and TAK1 in the model group significantly increased ( P<0.01), and compared with model group, the expressions of IL-6, TLR4, MyD88 and TAK1 in Kechuan'an Oral Liquid group significantly decreased ( P<0.05 or P<0.01). Conclusion:Kechuan'an Oral Liquid can inhibit toll-like receptor signaling pathway and mediate anti-inflammatory effect to treat asthma.
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Objective:To study the mechanism of Herba Hedyotidis against liver fibrosis based on network pharmacology. Methods:Based on TCMSP database and Uniprot database, the effective components and target genes of Herba Hedyotidis were screened. Target genes of liver fibrosis were screened by GeneCards and OMIM database, and the "disease-component-target" network map was constructed by Cytoscape 3.8.2 software. Protein interaction network was constructed by STRING database, and the Cytoscape 3.8.2 software was used to screen the core target out. The core targets were analyzed by gene ontology (GO) enrichment and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment. Experimental verification was performed to the analysis results. A hepatic fibrosis model was established by intraperitioneal imjection of 40% carbon tetrachloride oil solution in rats that were then divided into the model control group and the Herba Hedyotidis group by randomized number table table, with 10 rats in each group. Ten normal rats were used as the normal control group. The Herba Hedyotidis group were injected 2.7 g/kg herb aqueous extract by intragastric administration, once a day, for 4 weeks; and the normal and model control group were given the same volume distilled water for gavage. The serum GPT, GOT, Alb and liver pathologic changes were observed. The serum expressions of IL-6, IL-1β and TGF-β1 were detected by ELISA. The expressions of PI3K, Akt, HIF-1α and VEGF were detected by Western blot. Results:5 effective components and 118 targets of Herba Hedyotidis in the treatment of hepatic fibrosis were obtained. Stigmasterol, β-sitosterol and quercetin were the most effective components with high moderate value. The moderate targets were VEGF, EGFR, HIF-1α and IL-6. The core genes of PPI network were HIF-1α, IL-6, etc. GO enrichment analysis showed that RNA transcription, protein binding and other processes may be affected. KEGG pathway enrichment analysis showed that significant enrichment pathways were cancer pathway, hepatitis B pathway, PI3K/Akt, HIF pathway and so on. Animal experimental results showed that compared with model group, liver histopathology was improved significantly, the content of GPT, GOT, IL-6, IL-1β and TGF-β1 decreased ( P<0.01), the content of Alb increased ( P<0.01), and the protein expressions of PI3K, Akt, HIF-1α and VEGF in liver tissue were down-regulated ( P<0.01). Conclusion:The Herba Hedyotidis exerts functions of anti-hepatic fibrosis through acting on the targets of VEGF, EGFR, HIF-1α and IL-6, regulating the PI3K/Akt, HIF-1 pathways, and has anti-inflammatory, anti-angiogenesis, anti-tumor and other biological functions.
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Objective:To explore the mechanism of Fuyuan Xingnao Decoction in treatment of cerebral infarction based on network pharmacology and molecular docking.Methods:The active components and action targets of Fuyuan Xingnao Decoction were screened by using Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform (TCMSP),Traditional Chinese Medicine Integrated Database (TCMID),Bioactivity data of small organic molecules (PubChem),Universal Protein (Uniprot) and Swiss Target Prediction database platform. The databases of GeneCards, Online Mendelian Inheritance in Man (OMIM), Therapeutic Target Database (TTD), and Drug Bank and Pharmacogenomics Knowledgebase (PharmGKB) were used to screen targets of cerebral infarction. The drug target genes in Fuyuan Xingnao Decoction were intersected with those of cerebral infarction, the intersecting targets were introduced into Cytoscape 3.8.2 software to construct the component target network, and the PPI protein interaction network was constructed by using STRING analysis platform and Cytoscape 3.8.2 software to screen the core targets. Gene Ontology (GO) function enrichment analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) function enrichment analysis were carried out on the common target genes of Fuyuan Xingnao Decoction and cerebral infarction disease to obtain the relevant signal pathways. Finally, AutoDock and Pymol software were used for molecular docking between the predicted target and its corresponding components.Results:After screening, 80 effective components of Fuyuan Xingnao Decoction for treatment of cerebral infarction and 214 common targets of Fuyuan Xingnao Decoction and cerebral infarction were obtained. The core targets such as MAPK1, RELA, TP53, JUN, AKT1 and HSP90AA1 were related to the key targets of cerebral infarction, and they participated in the biological process of regulating the response to drugs, lipopolysaccharide and oxygen level, etc. The cell composition involved membrane raft, membrane micro region and nerve cell body, etc. Molecular functions mainly focused on nuclear receptor activity, ligand activated transcription factor activity, DNA binding transcription factor binding, etc.; it also involved in signal pathway of lipid and atherosclerosis, chemical carcinogen and receptor activation, fluid shear stress and atherosclerosis, etc. Molecular docking showed that good binding activities were seen between Quercetin and HSP90AA1 (-9.4 kJ/mol), between Kaempferol and HSP90AA1 (-9.4 kJ/mol), between Isorhamnetin and HSP90AA1 (-9.1 kJ/mol), and between Quercetin and JUN (-8.6 kJ/mol).Conclusion:Fuyuan Xingnao Decoction can prevent and treat cerebral infarction by regulating vascular endothelial function, promoting blood circulation, repairing and improving neural function, protecting blood-brain barrier, reducing cell apoptosis, and regulating immune and inflammatory response.
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Objective:To explore the molecular mechanism of Danggui Niantong Decoction in the treatment of gouty arthritis (GA) based on network pharmacology and molecular docking.Methods:By selecting for the active components and targets of Danggui Niantong Decoction with TCMSP, and retrieving the GeneCards, OMIM, PharmGKB and DrugBank databases to obtain GA related targets. The potential targets of Danggui Niantong Decoction in the treatment of GA were obtained by the intersection of mappings. The regulation network of Chinese medicine compound and protein-protein interaction network of Danggui Niantong Decoction were constructed by Cytoscape software, and the targets of Danggui Niantong Decoction in the treatment of GA were analyzed by GO and KEGG enrichment by David Database. Finally, molecular docking was performed by using Autodock software.Results:There are 198 active components that could treat GA in Danggui Niantong Decoction. The key active components are Quercetin and Kaempferol. There are 46 key targets, the core targets are NFE2L2, HMOX1, PPARA, PTGS2, IL1β, CXCL8. GO enrichment suggests that the key genes are primarily involved in many biological processes such as Inflammatory response regulation, response to oxidative stress, Fatty acid metabolism process, steroid metabolism, lipopolysaccharide response and reactive oxygen species metabolism. KEGG pathway indicates that Danggui Niantong Decoction mainly acted on IL-17 signal pathway, HIF-1 signal pathway, TNF signal pathway and AGE-RAGE signal pathway. Molecular docking shows that the active components of Danggui Niantong Decoction and action target of GA can combine toghether with high efficiency, and the structure is stable.Conclusion:Danggui Niantong Decoction has multi-component, multi pathway and multi-protein characteristics. Danggui Niantong Decoction can treat GA by regulating immune inflammatory reaction and oxidative stress reaction.
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Objective:To compare the specific mechanism and effects between christina loosestrife and snowbellleaf tickclover herb on kidney calcium oxalate calculi in rats.Methods:A total of 54 SPF grade SD male rats were fed adaptically for 1 week to 180-200 g, the models of rats with kidney calcium oxalate calculi were established by intragastric administration with glycol, and divided into nine groups according to random number table method and controlled, which were healthy control group (group A), positive control group (model group, group B), low, medium and high doses of christina loosestrife groups (C1, C2, C3, 3 groups), low, medium and high doses of snowbellleaf tickclover herb groups (D1, D2, D3, 3 groups), therapeutic control group (potassium sodium hydrogen citrate group, group E), 6 rats in each group. After 4 weeks, samples were collected to determine the urine and serum biochemical indexes of each group, and Von Kossa staining was used to detect kidney calcium oxalate crystals. Calcium oxalate crystal deposition in kidney tissues of rats was observed under polarization microscope, and the difference of efficacy between the two drug effects was determined by the percentage of positive area in photos and the urine and serum biochemical indexes. The measurement data were expressed as mean ± standard deviation ( ± s), one-way analysis of variance was used for comparison between groups, and SNK- q test was used for comparison between two groups. Kruskal-Wallis test was used to compare crystal formation between groups. Results:Compared with the positive control group and christina loosestrife groups, high dose of snowbellleaf tickclover herb could significantly reduce serum creatinine level ( P<0.01), the mean serum creatinine of rats with christina loosestrife was (86.70±11.49) μmol/L, that of rats with snowbellleaf tickclover herb was (70.72±9.08) μmol/L, the difference was statistically significant ( P<0.01). High dose of christina loosestrife and snowbellleaf tickclover herb could significantly increase urinary magnesium and decrease serum urea levels, and there was no statistical significance between them ( P>0.05). Compared with the positive control group, high dose of christina loosestrife ( P<0.000 1) and snowbellleaf tickclover herb ( P<0.000 1) could both inhibit the formation of calcium oxalate crystals and protect the kidney of rats, and there was no statistical significance between the two effects ( P>0.05). The levels of urine pH value could not be increased, while the levels of urinary calcium urinary oxalic acid and 24 h urine volume, serum calcium, serum phosphorus, serum magnesium, blood uric acid and content of kidney oxalate could not be decreased significantly after using these two drugs. Conclusion:Snowbellleaf tickclover herb is better than christina loosestrife in preventing recurrence of kidney calcium oxalate calculi and protecting renal function.
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Resumen Las enfermedades cardiovasculares (ECV) comprenden un grupo de enfermedades cuyo denominador común es la afectación de vasos sanguíneos, corazón y ritmo cardiaco. El tratamiento de las ECV representa costos muy altos para los sistemas de salud y está enfocado en el control de los factores de riesgo. A pesar de existir una gran variedad de fármacos para el tratamiento de las ECV, estas continúan siendo las principales causas de mortalidad, posiblemente debido a que su origen es multifactorial y por ello se requiere de más de un fármaco. En este contexto, la alicina, un compuesto derivado del ajo, ha mostrado regular la expresión de vías de señalización y factores de riesgo asociados a la progresión de las ECV. Por ello el objetivo del presente trabajo es revisar los mecanismos celulares y moleculares por medio de los cuales la alicina ejerce sus efectos terapéuticos y describir las evidencias científicas del porqué la alicina podría representar un potencial candidato para coadyuvar en el tratamiento de las ECV.
Abstract Cardiovascular diseases (CVD) include a group of diseases whose common denominator is the affection of the blood vessels, heart, and heart rate. The treatment of CVD represents high costs to the health systems and is focused on the control of risk factors. Despite the existence of a great variety of treatments of the CVD, these continue as the main cause of mortality mainly due to the multifactorial origin, and therefore more than one drug is required. In this context, allicin, a compound derived from garlic, has shown regulate the expression of signaling pathways and risk factors associated with the progression of CVD. Therefore, the objective of this work is to review the cellular and molecular mechanisms through which allicin exert its therapeutic effects and to describe the scientific evidences why allicin represents a potential candidate to assist in the treatment of CVD.
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Hederin is a natural active component of triterpenoid saponins extracted from many medicinal herbs, such as Lithospermum erythrorhizon, Pulsatilla chinensis, and Clematis florida. It has attracted much attention from doctors for its anti-inflammatory, anti-convulsive, anti-oxidation and anti-leishmaniasis activities. Hederin has significant anti-tumor bioactivity and is expected to be a potential drug for the treatment of malignant tumors. The available studies have demonstrated that hederin can promote the apoptosis, inhibit the proliferation, metastasis, and invasion, and induce the autophagy of tumor cells, exhibiting a promising prospect in the treatment of breast cancer, lung cancer, liver cancer, and pancreatic cancer. Specifically, hederin can regulate the phosphoinositide 3-kinase/protein kinase B (PI3K/Akt) pathway, reactive oxygen species (ROS), and microRNA (miRNA) to trigger tumor cell apoptosis. Its anti-proliferation activity is mainly reflected in the regulation of cyclin and cyclin-dependent kinase (CDK). Hederin inhibits the metastasis and invasion of tumor cells by blocking epithelial-mesenchymal transformation (EMT). In addition, hederin can influence metabolic reprogramming to induce tumor cell autophagy. Hederin is involved in a variety of pathways to exert its anti-tumor activity and may become a novel anti-tumor drug in the future, which give new sights into the study of hederin in the anti-tumor field. There are few studies about hederin and no systematic review of its anti-tumor mechanisms. Therefore, this study reviewed the studies about the anti-tumor mechanism of hederin, aiming to provide reference and information for researchers and clinical staff.
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Objective:Based on network pharmacology and molecular docking to explore the targets and mechanism of Xiaoyong Sanjie Formula treating Non-Puerperal Mastitis (NPM).Methods:By retrieving the active components and the corresponding target information of each component in Xiaoyong Sanjie Formula with Pharmacology Database and Analysis Platform of Chinese Medicine System (TCMSP), and NPM-related genes in database like GeneCard, OMIM, PharmGkb, TTD, and DrugBank, the data of the core targets of Xiaoyong Sanjie Formula and disease-related genes was compared to obtain intersecting genes, and the STRING database was used to analyze the protein interaction network and find the core genes. With the help of Cytoscape 3.8.0, the active ingredient-target-pathway regulation network diagram of Xiaoyong Sanjie Formula for the treatment of NPM was established. The R language pack was used to enrich the targets with GO function and KEGG pathway enrichment, and the potential targets and mechanism of Xiaoyong Sanjie Formula in the treatment of NPM were explored. Finally, molecular docking verification was carried out to analyze the effecacy of key components and potential core targets of Xiaoyong Sanjie Formula.Results:Network pharmacological analysis showed that there were 47 active component and 1 692 NPM-related potential targets in Xiaoyong Sanjie Formula, and 235 core targets of NPM in the treatment of Xiaoyong Sanjie Formula. The key components of Xiaoyong Sanjie Formula in the treatment of NPM include Quercetin, Naringenin, Kaempferol, Diosgenin, Luteolin, etc., with the core targets of intercellular adhesion molecule-1 (ICAM-1), vascular endothelial growth factor (VEGFA), tumor necrosis factor (TNF), interleukin-6 (IL-6), Epidermal growth factor receptor (EGFR), interleukin-1β (IL-1B), chemokine-8 (CXCL8), chemokine-2 (CCL2), etc. GO enrichment obtained 1 492 biological process entries. The KEGG pathway is enriched to obtain 105 pathways, including the TNF signaling pathway, the PI3K-Akt signaling pathway, the NF-kappa B signaling pathway, and the JAK-STAT signaling pathway, IL-17 signaling pathway, C-type lectin receptor signaling pathway, etc. The final molecular docking verified that the key active ingredients of Xiaoyong Sanjie Formula could bind with the potential core targets closely.Conclusion:Xiaoyong Sanjie Formula can treat NPM with multi-component, multi-target characteristics,which plays a role of treating NPM through signaling pathways such as immuno-inflammatory response, the metabolism of the medicine, cellular adaptive stress response, and vascular function regulation.
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Objective:To explore the mechanism of the active compounds in Banxia Houpo Decoction treating tension type headache through network pharmacology and molecular docking.Methods:The potentially effective components and targets of Banxia Houpo Decoction were screened by TCMSP, and the action targets of tension type headache were obtained by GeneCards, PharmGKB, TTD, Drugbank and OMIM. The intersection target of "Banxia Houpo Decoction - tension type headache" was obtained by Perl software. The protein interaction network was uploaded to STRING database and topological analysis was carried out. With the help of Cytoscape 3.8.0 software, the visualization network of "Banxia Houpo Decoction - medicine ingredient-Target-tension type headache" was constructed, and the GO enrichment analysis and KEGG pathway enrichment analysis of the intersection targets were carried out by using R 4.1.0 language and related programs. The AutoDockTools-1.5.6 software was used to complete the molecular docking analysis.Results:There were 33 intersection targets in Banxia Houpo Decoction and tension type headache. Topological attribute analysis suggested that MAPK1, TP53, ESR1, PTGS2, MYC, CYP1A2, CYP3A4 and GSTP1 might be important potential targets of Banxia Houpo Decoction in the prevention and treatment of tension type headache. GO enrichment analysis showed 516 cell biological processes (BP), 62 cell components (CC) and 149 molecular functions (MF). KEGG pathway enrichment analysis showed that there were 94 related signal pathways, such as cGMP-PKG signaling pathway, Cholinergicsynapse, Serotonergic synapse and TNF signaling pathway.Conclusions:Banxia Houpo Decoction has multi-component, multi-target and multi-pathway characteristics in the prevention and treatment of tension-type headache. It mainly acts on 5-HT synaptic pathway, TNF signal pathway, cholinergic synaptic pathway, G protein coupled receptor pathway and other pathways through ESR1, TP53, PGTS2 and other multi target.
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Objective:To explore the ingredients, targets, and mechanisms of Hanchuan Zupa Granules in the treatiment of Influenza A virus.Methods:By using Traditional Chinese Medicine Systems Pharmacology Database Analysis Platform (TCMSP), GeneCards, Online Mendelian Inheritance in Man (OMIM), Pharmacogenomics Knowledgebase (PharmGkb), Therapeutic target database (TTD) and DrugBank database to obtain relevant components and targets of Hanchuan Zupa Granules in the treatment of Influenza A virus; R software was used for the obtain of Hanchuan Zupa Granules -Influenza A virus intersection targets; Cytoscape software was applied for the construction of "Hanchuan Zupa Granules-component-target" network; Protein-protein interaction network (PPI) and topological analysis were constructed by STRING database and Cytoscape software. Intersection targets for gene ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analysis were conducted by R software; Auto Dock Tools were used for molecular docking.Results:All together 111 potential active ingredients, with corresponding 131 targetswere identified from Hanchuan Zupa Granules in the treatment of Influenza A virus. Quercetin, apigenin, luteolin, kaempferol, wogonin, etc. are included as core ingredients. STAT3, MAPK1, MAPK3, AKT1, JUN, etc. are included as core targets. Intersection targets were mainly enriched in 178 signal pathways such as IL-17 signal pathway, influenza A signal pathway, TNF signal pathway, etc; Molecular docking showed that core component had a good affinity with the target.Conclusion:Hanchuan Zupa Granules could play the role of anti-Influenza A virus with multi-component-multi-target-multi-pathway,characteristics, and this syudy provide a basis for future experimental research on its mechanism.
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Objective:To explore the potential mechanism of Jiajian Xuezheng Decotion in infiltrative gastric cancer by network pharmacology and proteomics.Methods:The Traditional Chinese Medicine Systems Pharmacology Database (TCMSP) database was used to find the compounds and their targets of Jiajianxuezhengtang, and the targets of invasive gastric cancer were determined by high performance liquid chromatography with tandem mass spectrometry (HPLC-MS/MS). The predicted target gene of Jiajian Xuezheng Decotion and the target protein data of infiltrative gastric cancer were analyzed by Venny to obtain the target gene. The target gene set was analyzed by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment by the David. The protein interaction network diagram (PPI) was obtained by the String method, displaying the prescription-drug-compound-gene network in Cytoscape software.Results:69 active ingredients and 215 drug targets were screened from Jiajian Xuezheng Decotion; 660 proteins were significantly up-expressed in infiltrative gastric cancer, and 10 drug targets and gene targets were the common targets. There were 10 protein nodes in the PPI network, of which 3 core nodes were CASP3, BCL2L1 and STAT1. The 11 KEGG pathways were significantly enriched such as include PI3K-Akt signaling pathway, p53 signaling pathway, proteoglycan in cancer, apoptosis, Jak-STAT signaling pathway and other pathways.Conclusions:Jiajian Xuezheng Decotion plays an anti-infiltrative gastric cancer effect possibly regulated apoptosis through PI3K-Akt signaling pathway, p53 signaling pathway and Jak-STAT signaling pathway. This study provides a theoretical basis for further research on the mechanism of Jiajian Xuezheng Decotion in the treatment of invasive gastric cancer.
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Objective:To discuss the mechanism of Yueju Pill in the treatment of functional dyspepsia (FD) based on network pharmacology and molecular docking.Methods:The chemical components and action targets of Yueju Pill were screened out by TCMSP platform and HERB, BATMAN-TCM database combined with literature were used to supplement effective components of Vietnam bow. The targets of FD were screened out by GeneCards database and OMIM database, and the intersection of the two targets was used to analyze the protein interactions using the STRING platform to construct the PPI network. Metascape platform was used for GO and KEGG pathway enrichment analysis, and Cytoscape 3.7.2 software was used to construct a network of "Yueju Pill components-functional dyspepsia targets-pathways". Online mapping tools were used to obtain the Venn plot of the intersection targets of Yueju Pill, FD and its related pathogenesis. Finally, AutoDock software was used for molecular docking.Results:The main active components of Yueju Pill in the treatment of FD are quercetin, wogonin, luteolin, kaempferol, etc. The main targets are AKT1, MAPK1, JUN, RELA, IL6, BCL2, BAX, MAPK8, EGFR, ESR1, etc. Molecular docking shows that the targets and the active components of the Yueju Pill have better binding abilit. The GO enrichment analysis result shows that there are 2 273 biological processes, 152 molecular functions and 91 cell components. KEGG enrichment analysis shows that there are 344 pathways associated with FD. According to literature review, the pathways related to FD include PI3K-Akt signaling pathway, AGE-RAGE signaling pathway, IL-17 signaling pathway, etc.Conclusion:Yueju Pill might act on AKT1, MAPK1, JUN, RELA, IL6, BCL2, BAX, MAPK8, EGFR, ESR1 and other targets to regulate PI3K-Akt signaling pathway, AGE-RAGE signaling pathways and IL-17 signaling pathway and it could treat FD.
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Objective:To study the mechanism of Tongqi Powder in the treatment of Otitis Media with Effusion based on network pharmacology.Methods:TCMSP platform was used to screen out the effective components and targeted proteins of Tongqi Powder, and UniProt database was used to map the targeted genes of it. The related targets of Otitis Media with Effusion were obtained based on OMIM, DisGeNET, GeneCards and other databases, finding that the common target of Tongqi Powder and Otitis Media with Effusion was the predicted target, Then, a medicine- component-target-disease network was obtained by using Cytoscape software. Repeated targets were imported into the STRING platform to construct a PPI network of protein interactions. Go enrichment analysis and KEGG pathway enrichment analysis were performed on the target of Tongqi Powder by Metascape platform.Results:There were 37 effective components and 211 targets of Tongqi Powder, and the key active components included quercetin, kaempferol, luteolin, β-sitosterol, etc. There were 1 431 disease targets, 76 co-acting targets of Tongqi Powder and Otitis Media with Effusion, and the key targets included TNF, JUN, AKT1, etc. A total of 273 signal pathways were obtained by enrichment analysis.Conclusion:Tongqi Powder could suppress the development of Otitis Media with Effusion through AGE-RAGE, fluid shear stress, atherosclerosis, cancer pathway, IL-17, tumor necrosis factor and other signaling pathways.
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Objective:To analyse the material basis and potential mechanism of Acanthopanax senticosus injection (ASI) in the treatment of ischemic stroke by combining UPLC-Q/TOF-MS and network pharmacology.Methods:The chemical composition of ASI was identified by UPLC-Q/TOF-MS. The Swiss Target Prediction, GeneCards and OMIM databases were used to predict the potential targets for the action of ASI in the treatment of ischemic stroke. The String database and Cytoscape software were used to construct protein interaction network maps, and the Omicshare platform was used to perform gene ontology (GO) and KEGG enrichment analysis. The DockThor platform was used for molecular docking.Results:The analysis of 53 components in ASI was firmly established and used as a basis to obtain 189 related targets of ASI for the treatment of ischemic stroke. Reverse screening showed that 25 components in ASI may be important active components in the treatment of ischemic stroke. Functional enrichment studies found that ASI may mainly regulate PI3K-Akt signaling pathway to treat ischemic stroke.Conclusion:This study preliminarily predicted the mechanism of ASI in the treatment of ischemic stroke may be related to inhibition of inflammation, antioxidant stress, promotion of angiogenesis and protection of nerve cells.
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Objective:To analyze the potential mechanism of Qifang Weitong granules in the treatment of gastric cancer based on network pharmacology and molecular docking method.Methods:TCMSP, TCMID, and Swiss Target Prediction databases were used to screen out the chemical components and related targets of Qifang Weitong Granules. GeneCards and OMIM databases were used to screen out the gastric cancer targets to obtain common targets of this disease and Qifang Weitong Granules and upload them to STRING database to form a PPI network, and obtain the key targets and analyze the correlation between the key targets and gastric cancer in Oncomine tumor database. In addition, the regulatory network of gastric cancer and Qifang Weitong Granules was constructed by using Cytoscape software, and the CluoGO plug-in and R language of Cytoscape software were used to perform GO and KEGG enrichment analysis on the key targets. The possibility of the binding between the molecules of this medicine and targeted molecules is verified by molecular docking.Results:There were 168 medicinal chemical components obtained in Qifang Weitong Granules, 2 803 gastric cancer targets, and 49 common targets. In the regulatory network of gastric cancer and Qifang Weitong Granules, β-sitosterol, formononet, stigmasterol have higher values of chemical composition. The key targets in the PPI network are MAPK8, FOS, AR, etc. The GO enrichment analysis focused on the positive regulation of mitochondrial outer membrane permeability in the apoptosis signaling pathway, while the KEGG enrichment analysis is significantly enriched in apoptosis access. The result of molecular docking showed good binding and stable conformation.Conclusion:Qifang Weitong Granules can induce the expression of genes and proteins related to gastric cancer, show its effect by affecting the level of hormones, cell apoptosis and other biological processes, and activating the apoptosis signal pathway.