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Berberine (BBR) is the main pharmacological active ingredient of Coptidis, which has hypoglycemic effect, but its clinical application is limited due to its poor oral bioavailability. Polyphenols, derived from cinnamon, are beneficial for type 2 diabetes mellitus (T2DM). The combination of both may have an additive effect. The aim of this study was to investigate the hypoglycemic effect and mechanism of combined medication in diabetic rats. The modeling rats were randomly divided into 5 groups (berberine group, cinnamon group, combined group, metformin group, diabetic control group) and normal control group. The animal experiments were approved by the Animal Ethics Committee (approval number: HMUIRB2022003). The subjects were given orally, and the control group was given equal volume solvent and body weight was measured weekly. Thirty days after administration, oral glucose tolerance test and insulin sensitivity test were performed, and fasting blood glucose (FBG), glycated serum protein (GSP), and serum insulin (INS) levels were detected; high-throughput sequencing technology was used to detect intestinal microbiota structure; real-time quantitative PCR (RT-qPCR) and Western blot were used to detect G protein-coupled receptor 5 (TGR5) and glucagon-like peptide-1 (GLP-1) expression levels. The results showed that, compared with the diabetic control group, the levels of FBG (P < 0.01) and GSP (P < 0.01) in the combined group were lower, and the insulin resistance was improved, which was better than that in the berberine group. Combined treatment increased the relative abundance of Bacteroides, Prevotella and Lactobacillus, reversed the decrease in Lactobacillus in the berberine alone induction group, and the combination of the two could promote the expression of TGR5 and GLP-1. In summary, the combined application of cinnamon and berberine can regulate glucose metabolism better than the application of berberine alone. Berberine combined with cinnamon can improve the function of pancreatic islet β cells in diabetes mellitus type 2 rats by changing the intestinal microbiota, increasing the expression of TGR5 and GLP-1 proteins, and thereby better regulating glucose metabolism.
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Objective:To discuss the regulatory effect of berberine(BBR)on fatty acids in the human glioma T98G cells and its effect on the cell proliferation,migration,and invasion,and to clarify its potential mechanism.Methods:The T98G cells at logarithmic growth phase were divided into control group and different concentrations(25,50,and 100 mg·L-1)of BBR groups.Cell wound healing assay was used to detect the migration rates of the cells in various groups;Transwell chamber assay was used to detect the invasion rates of the cells in various groups.The T98G cells at logarithmic growth phase were divided into control group and 100 mg·L-1 BBR group,and Mass spectrometry was used to detect the fatty acid contents in the cells in two groups.The T98G cells at logarithmic growth phase were divided into control group and different concentrations(50,100,and 150 mg·L-1)of BBR groups;Western blotting method was used to detect the expression levels of phosphatidylinositol 3-kinase(PI3K),phosphorylated PI3K(p-PI3K),protein kinase B(AKT),phosphorylated AKT(p-AKT),sterol regulatory element-binding protein 1(SREBP-1),and fatty acid synthase(FASN)in the cells in various groups.The expression of FASN was suppressed by gene silencing technology,and the T98G cells at logarithmic growth phase were divided into control group,shFASN1 group,and shFASN2 group.Western blotting method was used to detect the expression levels of FASN protein in the cells in various groups;clone formation assay was used to detect the clone formation of the cells in various groups;cell wound healing assay was used to detect the migration rates of the cells in various groups.Results:Compared with control group,the migration rates and invasion rates of the cells in different concentrations of BBR groups were decreased in a concentration-dependent manner(P<0.01),and the fatty acid content in the cells in 100 mg·L-1 BBR group was significantly decreased(P<0.01).Compared with control group,the expression levels of p-PI3K,p-AKT,SREBP-1,and FASN proteins in the cells in 150 mg·L-1 BBR group were significantly decreased(P<0.05 or P<0.01),and the expression level of SREBP-1 protein in the cells in 100 and 150 mg·L-1 BBR groups were significantly decreased(P<0.01).After suppression of FASN expression,compared with control group,the expression levels of FASN protein in the cells in shFASN1 and shFASN2 groups were significantly decreased(P<0.01),and the expression level of FASN protein in the cells in shFASN2 group was lower than that in shFASN1 group(P<0.05);compared with control group,the numbers of clone formation and migration rates of the cells in shFASN1 and shFASN2 groups were significantly decreased(P<0.01),and the migration rate of the cells in shFASN2 group was significantly lower than that in shFASN1 group(P<0.05).Conclusion:BBR interferes with fatty acid synthesis in the glioma T98G cells by reducing the expression of the PI3K/AKT/SREBP-1/FASN pathway related proteins,and decrease their migration and invasion capabilities.
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Objective To investigate the effect of berberine hydrochloride tablets combined with compound glutamine in treating ulcerative colitis(UC).Methods One hundred and two patients with UC admitted to our hospital were collected and grouped into two groups according to the random number table.Fifty-one patients in the control group were given conventional treatment+compound glutamine,and 51 patients in the experimental group were given berberine hydrochloride tablets based on the control group.Both groups were treated for 8 weeks.The efficacy,modified Mayo score,intestinal mucosal barrier function,soluble late glycation end product receptor(sRAGE),interleukin-17(IL-17),IL-6 and incidence of untoward reactions were compared between the two groups.Results The total effective rate of the experimental group was higher than that of the control group(92.2%vs.76.5%,P<0.05).After treatment,scores of defecation frequency,blood in stool,endoscopic findings,physician's overall evaluation,diamine oxidase(DAO),D-lactic acid,endotoxin,sRAGE,IL-17 and IL-6 were lower in both groups than those before treatment(P<0.05),and the research group was lower than the control group(P<0.05).There was no significant difference in the total incidence of untoward reactions between the experimental group and the control group(P>0.05).Conclusion Berberine hydrochloride tablets combined with compound glutamine are effective in treating UC,which can reduce the activity of UC,improve the intestinal mucosal barrier function,regulate serum sRAGE,IL-17 and IL-6 levels,without increasing adverse reactions.
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BACKGROUND:The implant osseointegration rate of patients with diabetes is low,and the failure rate is high,which seriously affects the quality of life.It is urgent to improve the implant osseointegration of patients with diabetes by effective means to elevate the success rate.Exploring the effect of berberine on the osteogenic differentiation of bone marrow mesenchymal stem cells under a high-glucose environment and its specific mechanism will provide effective theoretical support for solving the above problems. OBJECTIVE:To explore the effect of natural extract berberine on the osteogenic differentiation of rat bone marrow mesenchymal stem cells under the high-glucose microenvironment. METHODS:Bone marrow mesenchymal stem cells of SD rats were cultured by the whole bone marrow adherence method.CCK-8 assay was used to detect the effects of different concentrations of berberine on the proliferation of bone marrow mesenchymal stem cells under the high-glucose environment and to screen out the optimal berberine concentration.The expressions of Runx2 and Osx were detected by alkaline phosphatase activity,alicarin red staining and PCR to determine the effect of berberine on osteogenic differentiation of bone marrow mesymal stem cells under the high-glucose environment.To further explore the underlying mechanism,we introduced the AMPK-specific inhibitor Dorsomorphin and used a DCFH-DA reactive oxygen species fluorescent probe to examine reactive oxygen species levels.The p-AMPK expression was also determined by western blot assay. RESULTS AND CONCLUSION:(1)10 μmol/L was the optimal concentration of berberine to promote bone marrow mesenchymal stem cell proliferation.(2)Alberberine promoted alkaline phosphatase viability of bone marrow mesenchymal stem cells and mineralized nodule formation in a high-glucose microenvironment.(3)Alberberine promoted the expression of Runx2 and OSx in a high-glucose microenvironment.(4)Alberensine effectively inhibited the reactive oxygen species level of bone marrow mesenchymal stem cells in a high-glucose environment.(5)The effects of berberine on promoting bone marrow mesenchymal stem cell osteogenesis and inhibition of reactive oxygen species were reversed by the AMPK inhibitor.(6)Berberine activated AMPK and promoted p-AMPK expression.(7)The above results indicate that berberine(10 μmol/L)promotes the osteogenic differentiation of bone marrow mesenchymal stem cells in a high-glucose environment by activating AMPK and reducing intracellular reactive oxygen species levels.
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BACKGROUND:Berberine has the potential to induce osteogenic differentiation of various mesenchymal stem cells under normal conditions and special conditions such as high glucose,infection and inflammation.It is a natural small molecule drug that can induce bone formation in seed cells instead of growth factors,and has great application prospect in bone tissue engineering. OBJECTIVE:To review and summarize the research progress in the osteogenic mechanism and efficacy of berberine,especially its osteogenic potential under high glucose,infection and inflammation conditions,and its biological safety,so as to provide theoretical basis for its development and application in bone tissue engineering. METHODS:PubMed,WanFang,and CNKI were searched for relevant literature using the keywords of"berberine,bone defects,bone repair,bone regeneration,osteoinductive,osteoporosis,osteoblast,osteoclast,bone tissue engineering,bone,high glucose,diabetes,inflam*,infect*"in English and Chinese,respectively.A total of 105 literatures were selected for review. RESULTS AND CONCLUSION:Berberine can be used to treat multiple diseases including bone diseases,and it has the ability to promote bone regeneration.This article systematically reviews the mechanism of berberine on bone regeneration and in vivo and in vitro studies.Studies have shown that it can play a role in bone repair by promoting osteogenesis,inhibiting osteoclast formation and activity,and preventing osteoporosis.It shows excellent osteogenic differentiation potential mainly via Wnt/β-catenin,PI3K/AKT,EGFR/MEK/p38MAPK,cAMP/PKA/CREB,ERK and other signaling pathways.Berberine can also relieve the inhibition of osteogenic differentiation caused by high glucose,infection and inflammation,which provides more possibilities for the treatment of bone defects in patients with diabetes or infection and inflammation in the bone defect site.Berberine also has the advantages of low toxicity,low price,easy access(currently it can be synthesized),which is a relatively ideal bone induction potential drug.In recent years,the application of berberine in the treatment of bone defect tends to be localized,mainly through the combination with bone tissue engineering technology to improve bioavailability,and has shown good bone repair effect and excellent biological safety in animal experiments.In addition,preclinical experiments have shown splendid bone regeneration potential in the conditions of diabetes,local infection and inflammation.In the future,more studies are needed to fully reveal the osteogenic mechanism and biological safety of berberine,and seek the most suitable controlled release loading system to make artificial bone replacement materials with good mechanical strength,efficacy and biological safety.
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Objective:To examine the impact of berberine on polycystic ovary syndrome (PCOS) in mice, and to investigate the effects of berberine on the intestinal flora and the intestinal flora on PCOS.Methods:A mouse model of PCOS was established by administering dehydroepiandrosterone in combination with high fat diet, and the mouse model was given a berberine treatment. The study consisted of a blank control group (C group), a PCOS model group (M group) and a berberine treatment group (T group). During the experiment, the mice were closely monitored through timed body weight measurements and estrous cycle monitoring; intraperitoneal glucose tolerance test and insulin tolerance test were done. Upon completion of the pharmacological intervention, the wet weights of liver, ovary and fat deposits of mice were assessed and subjected to HE staining to confirm the success of PCOS modeling and the efficacy of berberine. Additionally, fecal samples were analyzed for intestinal flora through 16S rRNA analysis.Results:The PCOS model was established successfully, berberine alleviated the disturbance of estrous cycle in mice, and significantly alleviated fat accumulation and metabolic abnormalities of glucose in mice. The cross-sectional area of fat pad cells in T group was (2 858±146) μm2, which was significantly lower than that in M group [(9 518±347) μm2], and the difference was statistically significant ( P<0.001). The blood glucose levels in T group were significantly lower than those in M group ( P<0.05). The composition and structure of intestinal flora in mice of M group with PCOS (compared with C group) and in mice of T group after berberine intervention (compared with M group) were significantly altered. However, alpha diversity did not change significantly among three groups ( P>0.05). Conclusion:Berberine could alleviate PCOS by intervening in the alterations of gut microbiota.
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Diabetic kidney disease (DKD) is a chronic kidney disease caused by diabetes, influenced by genetic and environmental factors and their interaction. It is the primary cause of chronic kidney disease and end-stage renal disease. Recent studies have found, as a natural isoquinoline alkaloid, berberine (BBR) has hypoglycemic, hypolipidemic, antioxidant, anti-inflammatory and anti-fibrotic properties, thus protects against kidney injury in DKD. The mechanisms of action of BBR may involve improving glucolipid metabolism, reducing oxidative stress, alleviating inflammatory responses, mitigating renal fibrosis, regulating DNA methylation, promoting mitochondrial function and modulating the gut microbiota to enhance gut metabolism and clearance. This article systematically reviews the current status of research on the mechanisms of BBR in the treatment of DKD and provides reference for future clinical application of BBR in the treatment of DKD.
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OBJECTIVE To investigate the in vitro inhibitory mechanism of berberine on the proliferation of tumor stem cells and evaluate its in vivo safety. METHODS Flow cytometry was used to select tumor stem cells from mouse skin melanoma B16F10 cells; CD44, CD133, Nanog homologous box protein (NANOG) and octamer-binding transcription factor 4 (OCT4) were used as indicators to characterize tumor stem cells. Tumor stem cells were divided into control group, all-trans retinoic acid (ATRA) group, and berberine group, and the CCK-8 method was used to detect the effects of berberine on the viability of tumor stem cells; flow cytometry was adopted to detect cell apoptotic rate, the proportion of CD44+/CD133+ and the positive cell rate of sex determining region Y box protein 2 (SOX2); the morphological changes of tumor balls were recorded after treatment with berberine; the morphology of cell pyroptosis in each group was recorded, and the release rate of lactate dehydrogenase (LDH) was detected; Western blot assay was adopted to detect the expressions of pyroptosis-related protein gasdermin E (GSDME), GSDME- N, caspase-3 and cleaved caspase-3. Preliminary evaluation of in vivo safety of berberine was conducted by using zebrafish embryo toxicity experiments. RESULTS Compared with B16F10 cells, the proportion of CD44+/CD133+ cells in tumor stem cells and the fluorescence intensity of NANOG and OCT4 were significantly increased (P<0.000 1). The half-inhibitory concentration of berberine to tumor stem cells was 50.98 μmol/L. Compared with the control group, the apoptotic rate of cells in the berberine group was significantly increased, while the proportion of CD44+/CD133+ cells and the rate of SOX2 positive cells were reduced significantly (P<0.000 1); tumor stem cell spheroids were atrophied, with partial cell death. After treatment with berberine, tumor stem cells exhibited swelling in their outermost layer, the release rate of LDH of cells was significantly increased and the release rate of LDH increased with increasing dose; the protein expressions of GSDME-N and cleaved-caspase-3 of cells in berberine 20, 40 μmol/L groups were significantly increased, and the protein expressions of GSDME and caspase-3 were significantly reduced (except for berberine 20 μmol/L group, P<0.05). The embryonic development of zebrafish treated with berberine was almost unaffected, and the survival rate of embryo reached 100%, with no obvious abnormalities observed. CONCLUSIONS Berberine has good activity against the proliferation of tumor stem cells, and its mechanism of action may be related to activating GSDME and promoting cell pyroptosis; berberine has good in vivo safety.
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Aim To explore the effect of berberine (B E) on RSV infected HEp-2 cells and the related mechanism. Methods HEp-2 cells were infected with RSV and treated with BE. Cell viability was assessed using the CCK-8 assay. Protein expression levels of NLRP3, ASC, caspase-1, PINK1, Parkin, Beclinl, p62, LC3 I,LC3 II,and BNIP3 in HEp-2 cells were detected by Western blot. The secretion level of IL-1 p in HEp-2 cells was measured using ELISA. Apoptosis rate and mitochondrial membrane potential of HEp-2 cells were examined by flow cytometry. Mitochondrial ROS (mtROS) in HEp-2 cells was detected through MitoSOX staining. Colocalization of mitochondria and autophagosomes in HEp-2 cells was investigated using immunofluorescence staining. Cyclosporin A was used for validation experiments. Results BE could significantly improve the activity of RSV-infected HEp-2 cells,reduce the apoptosis rate (P < 0. 05), and decrease the activation level of NLRP3 inflammasomes and IL-lp level (P <0. 05); BE improved mitochondrial function by increasing mitochondrial membrane potential and ATP levels,and reduced mtROS. BE significantly promoted the colocalization of mitochondria-autophagosome in RSV infected cells, inducing PINK1/ Parkin and BNIP3 to mediate mitochondrial autophagy; cyclosporine A aggravated RSV infection. Conclusions BE has protective effects on HEp-2 cells infected by RSV. The mechanism may be related to the inhibitory effect of BE on the production of mtROS and the activation of NLRP3 inflammasomes by inducing PINK1/ Parkin and BNIP3-mediated mitochondrial autophagy.
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OBJECTIVE To investigate the effect of berberine on ferroptosis in MG63 osteosarcoma cells and its mechanism. METHODS Using cells without drug treatment as control, the cell viability, proliferation, the related indexes of ferroptosis [nuclear proliferation associated-antigen (Ki67), mitochondrial ultrastructure, ferric ion (Fe2+), reactive oxygen species (ROS), malondialdehyde (MDA), and glutathione (GSH)], the protein expression of signal transducer and activator of transcription 3 (STAT3), tumor protein 53 (p53), and solute carrier family 7 member 11 (SLC7A11) were detected after being treated with different concentrations of berberine. Cells were transfected with p53 siRNA and then assigned to the control group, p53 siRNA group, berberine group, and p53 siRNA+berberine group to explore the role of p53 in berberine-induced ferroptosis. After 24 h incubation with 10.0 μmol/L berberine, the protein expressions of p53 and SLC7A11, the levels of mitochondrial membrane potential, GSH, and MDA content were determined. Cells were transfected with STAT3 overexpressed plasmid and then assigned to the control group, berberine group, STAT3 group, and STAT3+berberine group to explore the effect of STAT3 on the regulation of the p53/SLC7A11 pathway. After 24 h incubation with 10 μmol/L berberine, the protein expressions of p-STAT3, STAT3, p53, and SLC7A11 were detected. RESULTS Compared with the control cell, the concentrations of 2.5, 5.0 and 10.0 μmol/L berberine could reduce the cell viability and expression of Ki67, and induce the morphological changes in ferroptosis-related mitochondria, increase the levels of Fe2+, ROS and MDA, and the protein expression of p53, reduce the level of GSH, the binding activity of STAT3 with DNA, and the protein expressions of p-STAT3 and SLC7A11; the above differences were statistically significant (P< 0.05 or P<0.01). Compared with the berberine group,significantly down-regulated p53 protein expression and MDA level, up-regulated SLC7A11 protein expression, and increased mitochondrial membrane potential and GSH level were observed in the p53 siRNA+berberine group (P<0.01). Compared with the berberine group, the protein expressions of p-STAT3, STAT3, and SLC7A11 in the STAT3+berberine group were significantly increased (P<0.01), while the protein expression of p53 was significantly decreased (P<0.01). CONCLUSIONS Berberine can induce the ferroptosis of MG63 cells by mediating STAT3/p53/SLC7A11 signaling pathway.
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Berberine is a natural isoquinoline alkaloid that was initially used as a broad-spectrum antibacterial agent in clinical treatment of enteritis,peptic ulcers,chronic gastritis,pneumonia,and other diseases.In recent years,in-depth study of the pharmacological effects of berberine has provided increasing evidence that berberine has neuroprotective effects on ischemic stroke.In this review,we introduce the effect of berberine on risk factors of ischemic stroke and discuss the neuroprotective effects of berberine on various mechanisms of ischemic stroke in detail to provide a reference for clinical and basic research in this field.
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@#Objective The potential mechanism of curcumin(CUR)combined with berberine(BBR)in improving drug-induced liver injury(DILI)was preliminarily predicted by a method of in vivo experiment in combination with network pharmacology.Methods The animal model was established by acetaminophen(APAP)-induced DILI and the levels of alanine aminotransferase(ALT)and aspartate aminotransferase(AST)were detected in serum of mice.The network pharmacological approach was used to collect related targets of CUR,BBR,and DILI;Wayne mapping was carried out to screen intersection targets,followed by establishment of a protein-protein interaction(PPI)network of CUR-BBR-DILI.Functional enrichment analysis of gene ontology(GO)and pathway enrichment analysis of Kyoto Encyclopedia of Genes and Genomes(KEGG)were conducted finally.Results The in vivo experimental results showed that the combination of CUR and BBR can significantly reduce the serum ALT and AST levels in mice,which is better than administration alone;Network pharmacology experiment results exhibited that 291 related targets of CUR and 208 related targets of BBR were collected by PharmMapper database,and 904 related targets of DILI were collected by Genecards database;77 intersection targets were screened by Venny 2.1.0 database;52 gene functions and 20 signal pathways possibly in connection with the improvement of DILI via drug combination were obtained by GO and KEGG analysis,respectively;nine of the top ten core targets according to degree in PPI network were enriched to PI3K/AKT signaling pathway,which were in order as follows:SRC,EGFR,HSP90AA1,IGF1,HRAS,MAPK14,ESR1,CASP3,and PTK2.Conclusion DILI might be synergistically improved by CUR combined BBR through multi-target and multi-pathway manner,providing a theoretical basis for the elucidation of the mechanism of drug combination against DILI.
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Metabolic reprogramming, a newly recognized trait of tumor biology, is an intensively studied prospect for oncology medicines. For numerous tumors and cancer cell subpopulations, oxidative phosphorylation (OXPHOS) is essential for their biosynthetic and bioenergetic functions. Cancer cells with mutations in isocitrate dehydrogenase 1 (IDH1) exhibit differentiation arrest, epigenetic and transcriptional reprogramming, and sensitivity to mitochondrial OXPHOS inhibitors. In this study, we report that berberine, which is widely used in China to treat intestinal infections, acted solely at the mitochondrial electron transport chain (ETC) complex I, and that its association with IDH1 mutant inhibitor (IDH1mi) AG-120 decreased mitochondrial activity and enhanced antileukemic effect in vitro andin vivo. Our study gives a scientific rationale for the therapy of IDH1 mutant acute myeloid leukemia (AML) patients using combinatory mitochondrial targeted medicines, particularly those who are resistant to or relapsing from IDH1mi.
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Humans , Oxidative Phosphorylation , Berberine , Electron Transport , Mitochondria , Leukemia, Myeloid, Acute , Isocitrate DehydrogenaseABSTRACT
ObjectiveTo investigate the protective effect and regulatory mechanism of berberine (BBR) against the senescence of ovarian granulosa cells. MethodA cell senescence model in the human ovarian granulosa-like tumor (KGN) cell line was induced by H2O2. A control group, a model group, and high-dose (1 μmol·L-1) and low-dose (0.5 μmol·L-1) BBR groups were set up. The cells in the model group and the BBR groups were incubated with 10 μmol·L-1 H2O2 for 40 min. The effect of BBR on KGN cell proliferation was detected by cell counting kit-8 (CCK-8) assay. The effect of BBR on the senescence of KGN cells was detected by β-galactosidase staining. The effects of BBR on the apoptosis and ROS content of KGN cells were detected by flow cytometry. The effects of BBR on the mRNA expression of B-cell lymphoma-2 (Bcl-2)/Bcl-2-associated X protein (Bax), cysteinyl aspartate-specific protease-3 (Caspase-3), forkhead transcription factor O1 (FoxO1), and catalase (CAT) was detected by Real-time fluorescence quantitative polymerase chain reaction (Real-time PCR). Western blot was used to detect the effects of BBR on protein expression of silent information regulator1 (SIRT1), superoxide dismutase 2 (SOD2), c-Jun N-terminal kinase (JNK), FoxO1, autophagy-associated protein microtubule-associated protein light chain 3Ⅱ (LC3BⅡ), mammalian ortholog of yeast Atg6 (Beclin-1), and ubiquitin-binding protein p62. ResultAfter H2O2 induction for 40 min, the cell proliferation rate of the model group decreased compared with that of the control group (P<0.01), and the cell proliferation rates of the BBR groups increased compared with that of the model group (P<0.05). The results of β-galactosidase staining showed that the cells of the model group showed significant senescence compared with those of the control group (P<0.01), and the cellular senescence in the BBR groups was reduced compared with that of the model group (P<0.01). As revealed by flow cytometry, compared with the control group, the model group showed increased apoptosis rate (P<0.01), and compared with the model group, BBR groups showed decreased apoptosis rates (P<0.05). Meanwhile, the ROS content in the model group increased compared with that in the control group (P<0.01), and compared with the model group, the BBR groups showed reduced cellular ROS content (P<0.01). The Real-time PCR results showed that compared with the control group, the model group showed decreased mRNA expression of CAT and Bcl-2/Bax in KGN cells and increased mRNA expression of Caspase-3 and FoxO1 (P<0.05), and compared with the model group, the BBR groups showed increased mRNA expression of CAT and Bcl-2/Bax (P<0.05) and reduced mRNA expression of Caspase-3 and FoxO1 in KGN cells (P<0.05). As revealed by Western blot results, SIRT1, SOD2, and p62 protein levels decreased in the model group compared with those in the control group (P<0.01), and JNK FoxO1, LC3BⅡ, and Beclin-1 protein levels increased (P<0.05). After BBR intervention, SIRT1, SOD2, and p62 protein levels increased (P<0.01), and JNK, FoxO1, LC3BⅡ, and Beclin-1 protein levels decreased compared with those in the model group (P<0.05). ConclusionBBR has an inhibitory effect on ovarian granulosa cell senescence, and the mechanism is related to the inhibition of apoptosis and autophagy mediated by the SIRT1/FoxO1 pathway.
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Objective To study the effect and mechanism of berberine (BBR) on the lung metastasis of mouse breast cancer via epithelial-mesenchymal transition (EMT). Methods CCK-8 and Transwell migration assays were utilized to investigate the proliferation and migration properties of breast cancer 4T1 cells after BBR treatment.Mouse 4T1-Luc cells were injected into mice under the fourth mammary fat pad, and the mice were then randomly divided into the control and BBR groups.The mice in the BBR group received daily intraperitoneal injections of BBR working solution and those in the control group were continuously intraperitoneally injected with the same volume of the solvent used to dissolve BBR powder.Tumor metastasis in the lungs of living mice was detected by using an in vivo imaging system.After 42 days of administration, lung metastasis was measured via microscopy and HE staining.Western blot analysis was used to examine the effects of BBR on the expression of EMT-related proteins (Vimentin and Snail) as well as the activation of the Akt and ERK signaling pathways. Results BBR significantly promoted 4T1 cell migration (P < 0.05).In vivo experiments showed that the number of lung metastases in the BBR group had significantly increased compared with that in control group (P < 0.05) as observed under microcopy and histological staining.Compared with the control group, BBR upregulated the expression levels of Vimentin and Snail as well as the phosphorylated levels of p-Akt and p-ERK (P < 0.05). Conclusion BBR may promote EMT and lung metastasis of breast cancer 4T1 cells by activating the expression of proteins in the p-Akt and p-ERK pathways.
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OBJECTIVE@#To evaluate the regulatory effect of berberine on autophagy and apoptosis balance of fibroblast-like synoviocytes (FLSs) from patients with in rheumatoid arthritis (RA) and explore the mechanism.@*METHODS@#The inhibitory effect of 10, 20, 30, 40, 50, 60, 70, and 80 μmol/L berberine on RA-FLS proliferation was assessed using CCK-8 method. Annexin V/PI and JC-1 immunofluorescence staining was used to analyze the effect of berberine (30 μmol/L) on apoptosis of 25 ng/mL TNF-α- induced RA-FLSs, and Western blotting was performed to detect the changes in the expression levels of autophagy- and apoptosis-related proteins. The cells were further treated with the autophagy inducer RAPA and the autophagy inhibitor chloroquine to observe the changes in autophagic flow by laser confocal detection of mCherry-EGFP-LC3B. RA-FLSs were treated with the reactive oxygen species (ROS) mimic H2O2 or the ROS inhibitor NAC, and the effects of berberine on ROS, mTOR and p-mTOR levels were observed.@*RESULTS@#The results of CCK-8 assay showed that berberine significantly inhibited the proliferation of RA-FLSs in a time- and concentration-dependent manner. Flow cytometry and JC-1 staining showed that berberine (30 μmol/L) significantly increased apoptosis rate (P < 0.01) and reduced the mitochondrial membrane potential of RA-FLSs (P < 0.05). Berberine treatment obviously decreased the ratios of Bcl-2/Bax (P < 0.05) and LC3B-II/I (P < 0.01) and increased the expression of p62 protein in the cells (P < 0.05). Detection of mCherry-EGFP-LC3B autophagy flow revealed obvious autophagy flow block in berberine-treated RA-FLSs. Berberine significantly reduced the level of ROS in TNF-α-induced RA-FLSs and upregulated the expression level of autophagy-related protein p-mTOR (P < 0.01); this effect was regulated by ROS level, and the combined use of RAPA significantly reduced the pro-apoptotic effect of berberine in RA-FLSs (P < 0.01).@*CONCLUSION@#Berberine can inhibit autophagy and promote apoptosis of RA-FLSs by regulating the ROS-mTOR pathway.
Subject(s)
Humans , Synoviocytes , Berberine/metabolism , Reactive Oxygen Species/metabolism , Tumor Necrosis Factor-alpha/metabolism , Hydrogen Peroxide/metabolism , Sincalide/metabolism , Cell Proliferation , Arthritis, Rheumatoid/metabolism , Signal Transduction , TOR Serine-Threonine Kinases/metabolism , Apoptosis , Fibroblasts , Autophagy , Cells, CulturedABSTRACT
Objective To investigate the protective effect of berberine (BBR) against ionizing radiation injury in rats and its mechanism of action. Methods Sprague-Dawley rats were divided into seven groups: normal control group, 1-Gy radiation group, 1-Gy radiation plus low-dose BBR (50 mg/kg) group, 1-Gy radiation plus high-dose BBR (150 mg/kg) group, 3-Gy radiation group, 3-Gy radiation plus low-dose BBR (50 mg/kg) group, and 3-Gy radiation plus high-dose BBR (150 mg/kg) group. All the groups except the normal control group were exposed to external irradiation with a medical electron linear accelerator, followed by BBR administration by gavage for consecutive ten days. The serum levels of superoxide dismutase (SOD), reduced glutathione (GSH), and malondialdehyde (MDA) were measured by using the micromethod. The pathological changes of the bone marrow and small intestine were observed with HE staining. Results Compared with the normal control group, the radiation groups showed significantly increased MDA levels (P < 0.05), significantly decreased SOD and GSH levels (P < 0.05), and more severe pathological damage of the bone marrow and small intestine. Compared with the radiation groups, the BBR groups showed significantly decreased MDA levels (P < 0.05), significantly increased SOD and GSH levels (P < 0.05), and reduced pathological damage to the bone marrow and small intestine, which were more marked in the high-dose BBR group. Conclusion BBR has a certain protective effect against radiation injury in rats, which may be through increasing the activity of antioxidant substances, enhancing free radical clearance, and thereby alleviating free radicals-caused oxidative damage.
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Ulcerative colitis(UC) is a recurrent, intractable inflammatory bowel disease. Coptidis Rhizoma and Bovis Calculus, serving as heat-clearing and toxin-removing drugs, have long been used in the treatment of UC. Berberine(BBR) and ursodeoxycholic acid(UDCA), the main active components of Coptidis Rhizoma and Bovis Calculus, respectively, were employed to obtain UDCA-BBR supramolecular nanoparticles by stimulated co-decocting process for enhancing the therapeutic effect on UC. As revealed by the characterization of supramolecular nanoparticles by field emission scanning electron microscopy(FE-SEM) and dynamic light scattering(DLS), the supramolecular nanoparticles were tetrahedral nanoparticles with an average particle size of 180 nm. The molecular structure was described by ultraviolet spectroscopy, fluorescence spectroscopy, infrared spectroscopy, high-resolution mass spectrometry, and hydrogen-nuclear magnetic resonance(H-NMR) spectroscopy. The results showed that the formation of the supramolecular nano-particle was attributed to the mutual electrostatic attraction and hydrophobic interaction between BBR and UDCA. Additionally, supramolecular nanoparticles were also characterized by sustained release and pH sensitivity. The acute UC model was induced by dextran sulfate sodium(DSS) in mice. It was found that supramolecular nanoparticles could effectively improve body mass reduction and colon shortening in mice with UC(P<0.001) and decrease disease activity index(DAI)(P<0.01). There were statistically significant differences between the supramolecular nanoparticles group and the mechanical mixture group(P<0.001, P<0.05). Enzyme-linked immunosorbent assay(ELISA) was used to detect the serum levels of tumor necrosis factor-α(TNF-α) and interleukin-6(IL-6), and the results showed that supramolecular nanoparticles could reduce serum TNF-α and IL-6 levels(P<0.001) and exhibited an obvious difference with the mechanical mixture group(P<0.01, P<0.05). Flow cytometry indicated that supramolecular nanoparticles could reduce the recruitment of neutrophils in the lamina propria of the colon(P<0.05), which was significantly different from the mechanical mixture group(P<0.05). These findings suggested that as compared with the mechanical mixture, the supramolecular nanoparticles could effectively improve the symptoms of acute UC in mice. The study provides a new research idea for the poor absorption of small molecules and the unsatisfactory therapeutic effect of traditional Chinese medicine and lays a foundation for the research on the nano-drug delivery system of traditional Chinese medicine.
Subject(s)
Animals , Mice , Colitis, Ulcerative/drug therapy , Ursodeoxycholic Acid/adverse effects , Berberine/pharmacology , Interleukin-6 , Tumor Necrosis Factor-alpha/pharmacology , Drugs, Chinese Herbal/pharmacology , Colon , Nanoparticles , Dextran Sulfate/adverse effects , Disease Models, Animal , Colitis/chemically inducedABSTRACT
OBJECTIVE@#To investigate whether astragalus polysaccharides (APS) combined with berberine (BBR) can reduce high-fat diet (HFD)-induced obesity in mice.@*METHODS@#Except for normal mice, 32 HFD-induced obese mice were randomized into HFD, APS (1,000 mg/kg APS), BBR (200 mg/kg BBR), and APS plus BBR (1,000 mg/kg APS plus 200 mg/kg BBR) groups, respectively. After 6-week treatment (once daily by gavage), the obesity phenotype and pharmacodynamic effects were evaluated by histopathological examination of epididymal fat, liver, and colon using hematoxylin-eosin staining and serum biochemical analyses by an automated chemistry analyzer. The feces were collected at the 12 th week, and taxonomic and functional profiles of gut microbiota were analyzed by 16S ribosomal ribonucleic acid (16S rRNA) sequencing.@*RESULTS@#Compared with HFD group, the average body weight of APS plus BBR group was decreased (P<0.01), accompanied with the reduced fat accumulation, enhanced colonic integrity, insulin sensitivity and glucose homeostasis (P<0.05 or P<0.01). Importantly, APS combined with BBR treatment was more effective than APS or BBR alone in improving HFD-induced insulin resistance (P<0.05 or P<0.01). 16S rRNA sequence-based analysis of fecal samples demonstrated that APS combined with BBR treatment exhibited a better impact on HFD-induced gut microbiota dysbiosis, exclusively via the enriched abundances of Bacteroides, which corresponded to the large increase of predicted bacterial genes involved in carbohydrate metabolism.@*CONCLUSION@#APS combined with BBR may synergistically reduce obesity and modulate the gut microbiota in HFD-fed mice.
Subject(s)
Mice , Animals , Diet, High-Fat , Berberine/therapeutic use , Mice, Obese , RNA, Ribosomal, 16S/genetics , Gastrointestinal Microbiome , Obesity/drug therapy , Insulin Resistance , Mice, Inbred C57BLABSTRACT
Along with the progress of pharmaceutical science in the past century, the theme of pharmacology has gone through pseudo agent scheme, to ligand-receptor model, and then to the theory of targeted therapy today. Due to the success of drug R&D, current drug research keeps its focus mainly on drugs with single target and precise treatment, in which the molecular mechanism is relatively clear but the therapeutic efficacy is often limited. Thus, there is a big space for exploration in the field of pharmacology. In the past 30 years, several novel chemical drugs, originated from traditional Chinese medicine, have been identified and then used in clinic, provoking a strong interest to explore new theory for pharmacology, of which the term of "Biao Ben Jian Zhi" (treating diseases by directing symptoms and root causes) has demonstrated a promising nature. We consider this concept useful for future drug discovery, drug design and clinical therapy. In this review, example drugs such as berberine, metformin and azvudine, are discussed, and "drug Cloud" (dCloud) model is introduced to elaborate the mechanism of treating diseases by directing symptoms and root causes of diseases.