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ObjectiveTo investigate the effect and mechanism of Shenling Baizhusan on the treatment of oligoasthenospermia with hyperuricemia (HUA). MethodThirty-two male Kunming (KM) mice were randomly divided into blank group (n=6), model group (n=6), high-dose Shenling Baizhusan group (n=7), low-dose Shenling Baizhusan group (n=7), and febuxostat group (n=6). Except for the blank group, all other groups received intraperitoneal injection of potassium oxazinate suspension (600 mg·kg-1) for 7 days. After modeling, the high-dose Shenling Baizhusan group and the low-dose Shenling Baizhusan group were orally administered with 20.14 g·kg-1 and 10.07 g·kg-1 of Shenling Baizhusan, respectively. The Febuxostat group was orally administered with 0.25 g·kg-1 of Febuxostat, while the blank group and model group were orally administered with the same volume of physiological saline. Oral administration was performed once a day for 14 consecutive days, after which samples were collected. Biochemical methods were used to measure serum uric acid (UA), superoxide dismutase (SOD) and malondialdehyde (MDA) in testicular tissue. Hematoxylin-eosin (HE) staining was used to observe the histopathological changes in testicular tissue and evaluate the spermatogenesis function. Automated sperm analyzer was used to measure sperm density and motility. Single-cell gel electrophoresis (SCGE) was used to assess sperm DNA integrity. Terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) was used to detect testicular cell apoptosis rate. Western blot analysis was performed to measure the protein expression levels of Kelch-like ECH-associated protein 1 (Keap1), nuclear factor E2-related factor 2 (Nrf2), heme oxygenase-1 (HO-1), B-cell lymphoma-2 (Bcl-2), Bcl-2-associated X protein (Bax), and Caspase-3 in testicular tissue. Real-time polymerase chain reaction (PCR) was conducted to evaluate the mRNA expression levels of Keap1, Nrf2, and HO-1 in testicular tissue. ResultCompared with the blank group, the model group showed elevated serum UA level (P<0.01), decreased testicular spermatogenesis function, sperm density, and motility (P<0.01), and increased sperm trailing rate and testicular cell apoptosis rate (P<0.01). Compared with the model group, the high-dose Shenling Baizhusan group showed significant improvements in the above-mentioned indicators (P<0.05, P<0.01). Additionally, the expression levels of Keap1, Bax, and Caspase-3 in testicular tissue were reduced, while the expression levels of Nrf2, HO-1, and Bcl-2 increased (P<0.05, P<0.01). The mRNA level of Keap1 decreased (P<0.05, P<0.01), while the mRNA levels of Nrf2 and HO-1 increased (P<0.05, P<0.01). ConclusionShenling Baizhusan can significantly improve HUA oligoasthenospermia, and its mechanism may be related to the Nrf2/antioxidant response element (ARE) signaling pathway.
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Objective:To explore the molecular mechanism of Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair for depression and Alzheimer disease (AD) with the same treatment through network pharmacology. Methods:Effective components of Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair were retrieved from TCMSP, TCMID and ETCM databases. The disease targets of depression and AD were retrieved from GeneCards, TTD and CTD databases. Targets of action of drugs on active components were predicted through SwissTargetPrediction, and then the intersection targets of medicinal pair and the diseases were taken. Cytoscape 3.6.1 was used to construct the interaction network of Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair on "component-common target-disease". The enrichment analysis of GO function and KEGG pathway was carried out with the help of Metascape platform, and molecular docking verification was carried out. Results:Through searching the databases and literature, 78 compounds in Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair were obtained, corresponding to 41 targets of different diseases with the same treatment. The GO function was mainly concentrated in response to lipopolysaccharide and cellular response to nitrogen compound. The KEGG pathway was mainly concentrated in lipid and atherosclerosis, calcium signaling pathway, serotonergic synapse, insulin resistance and so on. The core targets were PTGS2, ESR2, etc. Molecular docking showed that most of the core components could form stable conformation with the core targets. Conclusions:Polygalae Radix - Acori Tatarinowii Rhizoma medicinal pair has the characteristics of multi-component, multi-target and multi-pathway in the same treatment of depression and AD. Through their core components of senegenin, 1-carbobutoxy-β-carboline, 6-hydroxy-1,2,3,7-tetramethoxyxanthone, kaempferol and etc., the pair can act on PTGS2 and other targets, regulate lipid and atherosclerosis, calcium signaling pathway, serotonergic synapse, insulin resistance and so on, and play a therapeutic role in depression and Alzheimer's disease with the same treatment.
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Objective:To explore the mechanism of Coptidis Rhizoma- Puerariae Lobamle Radix on the treatment of diabetic retinopathy (DR) and diabetic nephropathy (DN) by means of network pharmacology. Methods:The TCMSP and UniProt databases were used to retrieve the active components and targets of Coptidis Rhizoma and Puerariae Lobamle Radix. GeneCards and OMIM databases were used to search for DR and DN genes, and the online tool Venny was used to obtain intersection targets. Cytoscape 3.8.2 software was used to construct a network diagram of "components-targets", and the STRING platform was used to construct a protein interaction (PPI) network. GO function and KEGG pathway enrichment analysis were carried out through the DAVID annotation database. Molecular docking verification was performed. Results:A total of 18 active components and 74 disease-drug intersection targets were screened out from Coptidis Rhizoma- Puerariae Lobamle Radix. GO functional enrichment analysis showed that intersection targets were mainly concentrated in biological processes such as inflammation and apoptosis, involving cellular components such as extracellular space, plasma membrane, and cytoplasm, and was related to molecular functions such as protein binding, ATP binding, and enzyme binding. Enrichment analysis of KEGG revealed that the intersection target may be related to TNF signaling pathway, Toll-like receptor signaling pathway, PI3K-Akt signaling pathway, etc. The results of molecular docking showed that the core component had a good binding energy with the core targets. Conclusion:Coptidis Rhizoma-Puerariae Lobamle Radix may regulate TNF signal pathway, Toll-like receptor signal pathway and PI3K/Akt signal pathway through TNF, IL6, TP53 and other targets, and play a role in inhibiting cell apoptosis, oxidative stress and reducing inflammation.
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Objective:To reveal the regular pattern characteristics of different diseases with the same treatment in the most common diseases with blood stasis syndrome; To provide reference for the clinical treatment of blood stasis syndrome and the development of new drugs.Methods:RCTs of blood stasis syndrome were retrieved from CNKI, Chongqing VIP, Wanfang Data, SinoMed, and China Medical Journal Full-text Database from the establishment of the databases to December 31, 2022. Diseases, accompanied symptoms, prescriptions and medicines were extracted. The diseases with the highest frequency among the three disease systems with the highest frequency were collected, and their medication characteristics and prescription rules were analyzed using frequency statistics and association rules Apriori algorithm. The core prescriptions of blood stasis syndrome of three kinds of diseases were excavated and their network similarity was analyzed.Results:A total of 2 052 articles were included. Stable coronary heart disease, ischemic stroke and DN were more common diseases with blood stasis syndrome. The common drugs for the three diseases were Chuanxiong Rhizoma, Carthami Flos, Persicae Semen, Angelicae Sinensis Radix. The core prescription of stable coronary heart disease was Persicae Semen- Carthami Flos- Chuanxiong Rhizoma- Angelicae Sinensis Radix- Paeoniae Radix Rubra; the core prescription of ischemic stroke is Buyang Huanwu Decoction; the core prescription of DN was Persicae Semen- Carthami Flos- Chuanxiong Rhizoma- Angelicae Sinensis Radix- Cornus Officinalis- Dioscoreae Rhizoma- Astragali Radix. The similarity between stable coronary heart disease and ischemic stroke core prescription network was 0.35, the similarity between ischemic stroke and DN core prescription network was 0.29, and the similarity between stable coronary heart disease and DN core prescription network was 0.26. Conclusions:The theory of "different diseases with the same treatment" can profoundly guide clinical practice. The core medicines of blood stasis syndrome are Persicae Semen, Carthami Flos, Angelicae Sinensis Radix, and Chuanxiong Rhizoma. On this basis, combined with different diseases and syndromes to make changes of adding and subtracting.
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Objective:To explore the material basis and mechanism of Linggui Zhugan Decoction in treating hypertension and obesity by means of network pharmacology and molecular docking technique.Methods:The TCMSP was retrieved and the main active components and action targets of Linggui Zhugan Decoction were screened. The GeneCards, OMIM, TTD, DisGeNET and DrugBank databases were used to screen disease-related targets of hypertension and obesity. The Cytoscape 3.9.0 was used to draw Chinese materia medica-composition-intersection target-disease network diagram. The STRING 11.5 database was used to draw PPI network. The cytoNCA plug-in was used to screen core active components and targets. The bioenrichment analysis of GO and KEGG was carried out in the R4.1.2, and the Chinese materia medica-intersection target-path diagram was drawn, and the core active components and core targets were docked in PyMOL and AutoDockTools 1.5.7.Results:A total of 102 potentially active components and 62 intersection targets were obtained, and 8 active components and 7 core targets were screened. Enrichment analysis showed that the key targets were mainly enriched through the signaling pathways of fluid shear stress and atherosclerosis, lipid and atherosclerosis, and AGE-RAGE, which were involved in biological processes such as the response to nutritional levels and the regulation of small molecule metabolism. Molecular docking showed that there were 37 groups with addinity < -7 kcal/mol.Conclusion:The main active components of Linggui Zhugan Decoction are quercetin, kaempferol and naringenin, which may play a role in fluid shear stress and atherosclerosis pathway, lipid and atherosclerosis pathway and AGE-RAGE signal pathway through AKT1, EGFR, IL1B and other targets.
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Objective:To reveal the effective components, targets and possible mechanisms of Qinggan Huayu granules in the treatment of non-alcoholic fatty liver disease (NAFLD) and liver cancer based on network pharmacology and experimental verification, and to provide a basis for its rational interpretation of treating different diseases with same method for NAFLD and liver cancer. Method:Based on databases of traditional Chinese medicine and disease, the network pharmacology was used to screen main active compounds and potential targets of Qinggan Huayu granules for NAFLD and liver cancer. STRING 11.0 was used to analyze the interaction between potential targets. The core targets were selected from the interaction targets by cytoHubba plug-in. The gene ontology (GO) function and the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis were performed on the target by Metascape database. At the same time, <italic>in vitro</italic> experiments were conducted to validate the effect of kaempferol, one of the main active ingredients of Qinggan Huayu granules, on hepatocellular carcinoma cell model and NAFLD cell model. Result:A total of 43 potential targets of Qinggan Huayu granules for for NAFLD and liver cancer were screened, corresponding to 136 active ingredients in 8 herbal medicines. Through enrichment analysis of potential targets, there were 20 biological processes, 13 molecular functions, 9 cellular components and 15 signaling pathways. Qinggan Huayu granules regulated biological behaviors of tumors related to liver cancer and NAFLD (such as apoptosis inhibition and oxidative stress) mainly through kaempferol, quercetin, luteolin and other active ingredients for Caspase-3 (CASP3), tumor protein p53 (TP53), vascular endothelial growth factor A (VEGFA) and other hub genes. <italic>In vitro</italic> experiments revealed that kaempferol could inhibit cell proliferation in a dose-dependent manner in hepatocellular carcinoma cell model. And kaempferol could modulate the levels of malondialdehyde (MDA) and glutathione peroxidase (GPx), which were the molecular markers of oxidative stress of NAFLD cell model. Kaempfero also regulated the expression level of CASP3 in hepatocellular carcinoma cell model and NAFLD cell model. Conclusion:The main mechanism of Qinggan Huayu granules in treating liver cancer and NAFLD with concept of treating different diseases with same method is related to systematic synergy effect of multiple compounds (represented by quercetin, luteolin and kaempferol), multiple targets (represented by VEGFA, TP53 and CASP3) and multiple signaling pathways (represented by oxidative stress and cell apoptosis).
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Pharmacology network was used to investigate the common key target and signaling pathway of Notoginseng Radix et Rhizoma in the protection against diabetic nephropathy(DN), diabetic encephalopathy(DE) and diabetic cardiomyopathy(DCM). The chemical components of Notoginseng Radix et Rhizoma were obtained through TCMSP database and literature mining, and SwissTargetPrediction database was used to predict potential targets of Notoginseng Radix et Rhizoma. The disease targets of DN, DE and DCM were obtained through OMIM and GeneCards databases. The overlapped targets of component targets and disease targets of DN, DE and DCM were obtained, and the network of "chemical component-target-disease" was established. The enriched GO and KEGG of the overlapped genes were investigated by using ClueGo plug-in with Cytoscape. At the same time, the PPI network was constructed through STRING database, and the common key targets for the treatment of three diseases by Notoginseng Radix et Rhizoma were obtained through topological parametric mathematical analysis by Cytoscape. A total of 166 chemical components and 835 component targets were screened out from Notoginseng Radix et Rhizoma. Briefly, 216, 194 and 230 disease targets of DN, DE and DCM were collected, respectively. And 54, 45 and 57 overlapped targets were identified when overlapping these disease targets with component targets of Notoginseng Radix et Rhizoma, respectively. Enrichment analysis indicated that the AGE-RAGE signaling pathway and FoxO signaling pathway were the common pathways in the protection of Notoginseng Radix et Rhizoma against DN, DE and DCM. Network analysis of the overlapped targets showed that TNF, STAT3, IL6, VEGFA, MAPK8, CASP3 and SIRT1 were identified as key targets of Notoginseng Radix et Rhizoma against DN, DE and DCM, the selected key targets were verified by literature review, and it was found that TNF, IL6, VEGFA, CASP3 and SIRT1 had been reported in the literature. In addition, there were the most compounds corresponding to the commom core target STAT3, indicating that more compounds in Notoginseng Radix et Rhizoma could regulate STAT3. This study indicated that Notoginseng Radix et Rhizoma potentially protected against DN, DE and DCM through regulating AGE-RAGE signaling pathway and FoxO signaling pathway and 7 common targets including TNF, STAT3, IL6, VEGFA, MAPK8, CASP3 and SIRT1. This study provided a reference for the research of "different diseases with same treatment" and also elucidated the potential mechanism of Notoginseng Radix et Rhizoma against DN, DE and DCM.
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Humans , Brain Diseases , Diabetes Mellitus , Diabetic Cardiomyopathies/genetics , Diabetic Nephropathies/genetics , Research Design , Signal TransductionABSTRACT
Objective: Under the guidance of traditional Chinese medicine theory, this paper used network pharmacology model to explore the effective components and mechanism of “treating different diseases with same method” of Chaihu Guizhi Decoction (CHGZD) in treating gastric ulcer and epilepsy, which provided modern medical evidence for the theory of “treating different diseases with same method” of traditional Chinese medicine. Methods: The chemical constituents and potential targets of CHGZD were collected by TCMSP and TCMID databases. Disease targets of gastric ulcer and epilepsy were obtained in PubMed, CTD, and OMIM databases. Cytoscape 3.6.0 software was used to map CHGZD for gastric ulcer and epilepsy. The pharmacodynamic basis and molecular mechanism of the “treating different diseases with same method” network, and the functional and pathway enrichment analysis of gene targets was analyzed by DAVID 6.8 and KOBAS 3.0. Results: A total of 198 kinds of chemical constituents, 417 target targets, 114 gastric ulcer disease targets, and 461 epileptic disease targets were collected from CHGZD. Network analysis showed that 152 active components such as quercetin, beta-sitosterol, wogonin, kaempferol, and saikosaponin a in CHGZD played a role in the treatment of gastric ulcers and epilepsy through 17 common targets including PTGS2, VEGFA, TP53, IL6, and TNF, and 62 pathways such as pathways in cancer, and proteoglycans in cancer. Conclusion: The similar efficacy network composed of 17 common targets in gastric ulcer and epilepsy was the basis for CHGZD to play the role of “different disease and common treatment”. A total of 152 components work together through 62 pathways and 17 pathways to achieve the effect of “treating different diseases with same method”, which provides modern medical evidence for the traditional Chinese medicine to treat gastric ulcer and epilepsy from the liver and spleen.
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Abstract Treating different diseases with same method and treating same disease with different methods have profound theoretical origins as an important content of TCM syndrome differentiation and treatment system.This theory is introduced into studies of TCM prevention and treatment of fibrosis and sclerosis of the liver,kidney.lung and other organs to search for effective drugs for common treatment of multiple organ fibrosis.so as to reveal the essenee of fibrosis and sclerosis of organs and open a new way for TCM prevention and treatment of refractory diseases;to provide experimental basis for TCM theory of treating different diseases with same method and treating same disease with different methods,and to provide new thinking and new method for studies of integrated western and Chinese medicine,TCM modernization and standardization.