1.Comparative Studies of Anti-inflammation and Analgesic Effects between X. Sibiricum and X. Mongolicum
Xiaomei FU ; Yanchao SUN ; Jing LIU ; Zhigui WU ; Jianguo PEI ; Shuimei PENG ; Daopeng TAN
Herald of Medicine 2014;(5):555-557
Objective To investigate the anti-inflammatory and analgesic activities of different extracts from X. mongolicum compared with that of X. sibiricum. Methods Seventy male Kunming mices were randomly divided into seven groups:control group,aspirin group,the ethanol extracts of X. sibiricum group and X. mongolicum group,the extracts from X. mongolicum with ether,ethyl acetate,and n-butyl alcohol group(n=10 each). The mice were administrated with 500 mg·kg-1 ( p. o. ) of different extracts. The hot-plate tests and the xylene-induced ear edema in mice were performed to observe the analgesic and anti-inflammatory activities,respectively. Results In the hot-plate tests,the pain threshold from the extracts of X. sibiricum and the different extracts from X. mongolicum at 60,120,180 min were prolonged,and there was no statistically significant differences(P>0. 05) between the ethanol extracts from X. sibiricum and X. mongolicum. The best analgesic activity was the ether and butyl alcohol extracts from X. mongolicum. Meanwile,the ear edema from the extracts of X. sibiricum and the different extracts of X. mongolicum were inhibited significantly(P<0. 05). There was also no significant differences between the ethanol extracts of X. sibiricum and X. mongolicum(P>0. 05). The ether and butyl alcohol extracts from of X. mongolicum showed the best anti-inflammatory effect. Conclusion X. mongolicum exhibites significant anti-inflammatory and analgesic activities comparable to that of X. sibiricum. The best anti-inflammation and analgesic activities were from ether and butyl alcohol extracts from X. mongolicum.
2.Alkaloids from Senecio scandens.
Daopeng TAN ; Ying CHEN ; Lili JI ; Guixin CHOU ; Zhengtao WANG
China Journal of Chinese Materia Medica 2010;35(19):2572-2575
OBJECTIVETo investigate the alkaloids from Senecio scandens.
METHODCompounds were isolated with silica gel and Sephadex LH-20 column chromatography and their structures were determined by spectral analysis and chemical evidence. The hepatic cytotoxicity of isolated compounds was tested by MTT method in vitro.
RESULTSix alkaloids were obtained and identified as adonifoline (1), 7-angeloylturneforcidine (2), hordenine (3), 1, 3, 6, 6-tetramethyl-5, 6, 7, 8-tetrahydro-isoquinolin-8-one (4), 4-(pyrrolidin-2-one) -phenyl acetic acid (5), (4-pyrrolidinophenyl) acetic acid (6).
CONCLUSIONCompound 6 is a new natural product, compounds 3, 4 were obtained from the genus Senecio for the first time, compounds 2, 5 were obtained from this plant for the first time. Compound 1 showed significant growth inhibitory effect against hepatocyte at 100 micromol x L(-1).
Acetic Acid ; chemistry ; Alkaloids ; chemistry ; isolation & purification ; pharmacology ; Animals ; Cell Proliferation ; drug effects ; Cells, Cultured ; Chromatography, High Pressure Liquid ; methods ; Dextrans ; chemistry ; Hepatocytes ; Lactones ; isolation & purification ; metabolism ; pharmacology ; Mice ; Mice, Inbred ICR ; Pyrrolizidine Alkaloids ; isolation & purification ; metabolism ; pharmacology ; Senecio ; chemistry ; Silica Gel ; Tyramine ; analogs & derivatives ; isolation & purification ; pharmacology
3.Study on the Effects of Gypenosides on Gene Expression of Major Urinary Proteins in Hypercholesterolemia Model Mice
Yanping YANG ; Yimei DU ; Lin QIN ; Wei WANG ; Yanliu LU ; Anjing LU ; Yao ZENG ; Daopeng TAN ; Yuqi HE
China Pharmacy 2020;31(15):1809-1815
OBJECTIVE:To investigate the effects of gypenosides (GPs)on gene expression of major urinary proteins (Mups) in liver tissue of hypercholesterolemia model mice. METHODS :C57BL/6J mice were divided into control (ND)group,model (HFD)group and GPs therapy (GP)group according to body weight (BW),with 11 mice in each group. Except for ND group , other groups were given high-lipid diet to induce hypercholesterolemia model. From the 17th week of feeding ,ND group and HFD group were given constant volume of 0.1%CMC-Na solution intragastrically ;GP group were given GPs suspension (250 mg/kg) intragastrically,once a day ,for consecutive 22 weeks. BW ,the levels of blood glucose (BG)and blood lipid (TC,LDL-C)were detected in each group. Total RNA of liver tissue was extracted ,and reverse transcription library was constructed and RNA-seq sequencing was performed. The differentially expressed genes were screened by PCA ,volcano map and scatter plot. RT-qPCR was used for verification for differentially expressed genes. The correlation between the expression of differentially expressed genes and the above pharmacodynamic indexes was analyzed by bivariate analysis. RESULTS :Compared with ND group ,BW,the levels of BG,TC and LDL-C in HFD group were increased significantly (P<0.05). Compared with HFD group ,above indexes of GP group were decreased significantly except for BW (P<0.05). PCA showed that the data of ND group and HFD group distributed in different quadrants ,and the data distribution of GP group was between above two groups. mRNA of Mup4,Mup5,Mup11,Mup15 and Mup21 in liver tissue of mice were increased significantly after treated with high-fat diet (P<0.05). mRNA of Mup3,Mup4, Mup5,Mup8,Mup12 and Mup21 were decreased significantly after treated with GPs (P<0.05). In ND group vs. HFD group and HFD group vs. GP group ,mRNA of Mup4,Mup5 and Mup21 genes changed significantly and the trend was opposite. Results of RT-qPCR verification showed that compared with ND group ,relative mRNA expression of Mup4,Mup5 and Mup21 gene were increased significantly in HFD group (P<0.05). Correlation analysis revealed that mRNA expression of Mup5 was positively correlated with the levels of TC and BG (r=0.727 1,0.670 6,P<0.05),mRNA expression of Mup4 and Mup21 were positively correlated with the level of BG (r=0.737 8,0.721 5,P<0.05). CONCLUSIONS :GPs can regulate the expression of Mups genes in liver tissue of hypercholesterolemia model mice , and reduce glucose and lipid level through regulating the mRNA over-expression of Mup4,Mup5 and Mup21.