Objective To investigate the expression and clinical significance of HGF and C-Met in cholangiocarcinoma .Meth-ods The levels of HGF and C-Met were measured by ELISA ,the expression of HGF and C-Met in cholangiocarcinoma and health control was detected by immunohistochemistry .Results The preoperative levels of HGF and C-Met in cholangiocarcinoma were higher than the health control(P< 0 .05) .Compared with the preoperative state ,the levels of HGF and C-Met in cholangiocarcino-ma on the 3rd day after operation did not change significantly .However ,the levels of HGF and C-Met on the postoperative 7th and 10th day decreased obviously .In addition ,the expression of HGF and C-Met in cholangiocarcinoma was 76 .2% ,81 .0% ,respective-ly ,which is higher than that in normal tissue ( P < 0 .01) .Conclusion There is an abnormal expression of HGF and C-Met in cholangiocarcinoma ,which may be related to the incidence and development of cholangiocarcinoma .

Objective To screen the active components of total flavonoid extracts of Sarcandra glabra to promote megakaryocyte differentiation.Methods(1)A model of megakaryocyte differentiation disorder was established by co-culturing human megakaryocytic leukaemia cells(Dami)with human bone marrow stromal cells(HS-5)as an evaluation system,and the experimental groupings were as follows:the Dami group(Dami),the control group(Dami+HS-5),and the PMA group[Dami+HS-5+5 ng·mL-1 foprolol 12-tetradecanoate 13-acetate(PMA)],and model group[Dami+HS-5+1%rabbit anti-rat platelet serum(APS)+5 ng·mL-1 PMA]were cultured for 48 hours.The expressions of megakaryocyte differentiation and maturation surface marker molecules,CD41a and CD61 were detected by flow cytometry.(2)Forty-nine SD male rats were randomly divided into blank plasma group,15-minute group,30-minute group,60-minute group,90-minute group,120-minute group,and 240-minute group,with 7 rats in each group.The rats in each administration group were gavaged with 1.26 g·kg-1 of total flavonoids extracts of Sarcandra glabra,and blood was collected at six set time points(15,30,60,90,120,240 minutes)for the preparation of time-dependent serum-containing plasma of total flavonoids extracts of Sarcandra glabra.(3)Ultra-high performance liquid chromatography-quadrupole tandem time-of-flight mass spectrometry(UHPLC-Q-TOF/MS)was used to analyze the plasma of the time-dependent serum-containing plasma of the total flavonoids extracts of Sarcandra glabra,and the peak area was used to construct a matrix(X-matrix)of the amount of chemical composition change over time in the time-dependent serum-containing plasma of the total flavonoids extracts of Sarcandra glabra.The collected time-dependent serum-containing plasma of the total flavonoids extracts of Sarcandra glabra at six different time points was used to intervene in the model of megakaryocyte differentiation and maturation disorder,and the expression of cell surface molecules CD41a and CD61 was detected by flow cytometry to construct the matrix of effect of time-dependent serum-containing plasma of the total flavonoids extracts of Sarcandra glabra(Y-matrix).(4)After the data of X and Y matrices were standardized,partial least squares(PLS)was used to calculate and analyze the quantitative and qualitative effect relationship,and variable importance for projection(VIP)>1 was used as the threshold to screen the effect components related to the changes of cell surface molecules CD41a and CD61,and chemical composition identification,as the potential effector components in the total flavonoid extracts of Sarcandra glabra were used to promote the differentiation of megakaryocytes,and finally the regression evaluation system was used to verify the efficacy of its medicinal effect.Results(1)Compared with the Dami group,the expression level of CD41a on the surface of Dami cells in the control group was significantly increased(P＜0.05).Compared with the control group,the expression levels of CD41a and CD61 on the surface of Dami cells in the PMA group were significantly increased(P＜0.01).Compared with the PMA group,the expression levels of CD41a and CD61 on the surface of Dami cells in the model group were significantly reduced(P＜0.01).(2)Compared with the blank plasma group,the expression levels of the molecules CD41a and CD61 on the surface of Dami cells at each time point of 15,30,60,90,120,and 240 minutes were significantly increased(P＜0.01),and the expression levels of CD41a and CD61 were both highest in the 30-minute group.The potential effective components with VIP value greater than 1 were screened out in the positive and negative ion mode,and 540.3638@12.25 and 559.2991@11.53 were selected for pharmacodynamic verification.559.2991@11.53 was identified as daucosterol(Dau),540.3638@12.25 was identified as rosmarinic acid 4-O-β-D-glucoside(Ros).After Ros and Dau intervened in the megakaryocyte differentiation and maturation disorder model respectively,the expression levels of CD41a and CD61 on the surface of Dami cells in the low-,medium-and high-dose groups(40,60 and 80 μg·mL-1)of Ros and Dau were significantly increased compared with the model group(P＜0.05,P＜0.01).Conclusion Ros and Dau may be the active components of the total flavonoids extracts of Sarcandra glabra to promote the differentiation of megakaryocytes.

To explore the potential mechanism of frankincense volatile oil in the prevention and treatment of cardiac hypertrophy based on in vitro cell experiment and network pharmacology. METHODS: The anti-hypertrophic effect of frankincense volatile oil was investigated by isoproterenol induced H9c2 cardiomyocytes hypertrophy model. The active chemical components and targets of frankincense volatile oil and targets associated with cardiac hypertrophy were obtained by CNKI, Pubmed, Pubchem databases, etc. String database and Cytoscape 3.8.0 software were used to construct protein-protein interaction network (PPI) and a network of "drug-active component-key target-disease" of frankincense volatile oil in order to screen the key targets of frankincense volatile oil against cardiac hypertrophy. The fluorescent quantitative PCR experiments were performed to verify those key targets. Gene Ontology (GO) enrichment analysis and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway annotation analysis of key target genes were performed using David online analysis tool. RESULTS: In vitro cell experiments showed that frankincense volatile oil significantly inhibited the isoproterenol induced increases in cardiomyocytes surface area and protein synthesis, and upregulations of ANP and β-MHC mRNA. A total of 87 active components and 36 ingredient-disease targets of frankincense volatile oil were screened. Network analysis showed that ESR1, NOS3, PTGS2, TNF, MAPK14, and PPARG were key targets. Fluorescence quantitative PCR experiments results indicated that frankincense volatile oil inhibited isoproterenol induced upregulations of ESR1, PTGS2, TNF, and MAPK14 mRNA levels, and downregulations of NOS3, PPARG mRNA levels, respectively. In addition, the GO functional enrichment analysis showed that its biological pathways mainly included lipopolysaccharide-mediated signaling pathway, positive regulation of nitric oxide biosynthetic process, caveola, enzyme binding, etc. The KEGG pathway enrichment analysis included 22 KEGG pathways, which were closely related to VEGF signaling pathway, TNF signaling pathway, sphingolipid signaling pathway and others. CONCLUSION: The active components of frankincense volatile oil may regulate VEGF signaling pathway, TNF signaling pathway, Sphingolipid signaling pathway by acting on ESR1, NOS3, PTGS2, TNF, MAPK14 and PPARG targets, thereby affecting the regulation of lipopolysaccharide-mediated signaling pathway, positive regulation of nitric oxide biosynthetic process, caveola, and enzyme binding, and improving cardiac hypertrophy.

ObjectiveTo investigate the effect of different oxygen concentration on the proliferation and autophagy of colon cancer cells and to explore the effect of Yangyin Huayu Jiedu Preseription （YHJP） on autophagy and apoptosis of colon cancer cells under hypoxia based on phosphatidylinositol 3-kinase/protein kinase B （PI3K/Akt） signaling pathway. MethodHCT-116 cells were divided into normoxia group， 1% O₂ group， and 5% O₂ group. Cell viability was detected by cell proliferation assay （MTS）， and autophagy was observed based on monodansylcadaverine （MDC） staining. HCT-116 cells were treated with YHJP in 5% O₂ microenvironment. The cells were divided into normal group， blank serum group， and low-， medium-， high-dose YHJP groups （5%， 15%， 25% serum containing YHJP）. Cell inhibition rate in each group was calculated by MTS， and changes in the rate of autophagy were detected based on MDC staining. Annexin V-fluorescein isothiocyanate （FITC）/propidium iodide （PI） was employed to detect the apoptosis rate of each group. Western blotting was applied to measure the expression of autophagy proteins microtubule-associated protein 1 light chain 3 （LC3Ⅱ/Ⅰ）， yeast Atg6 homolog （Beclin-1）， ubiquitin-binding scaffold protein p62 （p62）， apoptosis-related proteins B-cell lymphoma-2 （Bcl-2）， Bcl-2/adenovirus E1B interacting protein 3 （BNIP-3）， and Bcl-2 associated X protein （Bax）， cleaved cysteine-aspartic acid protease-3 （Caspase-3）， hypoxia-inducible factor-1α （HIF-1α） and pathway proteins PI3K， phosphorylated （p）-PI3K， Akt， and p-Akt. ResultCell survival rates of the 1% O₂ and 5% O₂ groups were increased compared with that in the normoxia group， particularly the 5% O₂ group （P<0.01）. The fluorescence intensity for autophagy in 1% O₂ and 5% O₂ groups was significantly increased compared with that in the normoxia group， especially the 5% O₂ group. In the presence of 5% O₂， compared with the blank serum group， medium-dose and high-dose YHJP groups showed high cell inhibition rate， low autophagy rate， high apoptosis rate （P<0.01）， and low expression of Beclin-1 protein （P<0.05）. Compared with low-dose YHJP group， high-dose YHJP group demonstrated low expression of Beclin-1 protein （P<0.05）. Compared with the blank serum group， the three YHJP groups had low expression of LC3Ⅱ/Ⅰ protein （P<0.05， P<0.01）. Compared with the blank serum group， medium-dose and high-dose YHJP groups showed high expression of p62 protein （P<0.01）. Compared with low-dose YHJP group， high-dose YHJP group showed high expression of p62 protein （P<0.05）. Compared with the blank serum group， high-dose YHJP increased the expression of BNIP-3 and Bax and decreased the expression of Bcl-2 （P<0.01）. The expression of Bax protein in the high-dose YHJP group was increased compared with that in the low-dose YHJP group （P<0.05）. The expression of HIF-1α in the medium-dose and high-dose YHJP groups was decreased （P<0.01） and the expression of p-PI3K/PI3K and p-Akt/Akt in the high-dose YHJP group was increased （P<0.05， P<0.01） compared with that in the blank serum group. The expression of p-Akt/Akt was higher in the high-dose YHJP group than in the medium-dose YHJP （P<0.05）. ConclusionHypoxic microenvironment can significantly promote autophagy and proliferation of colon cancer cells. YHJP can significantly inhibit autophagy and proliferation and promote apoptosis of colon cancer cells in 5% O₂ environment by up-regulating the PI3K/Akt signaling pathway.