Objective:Analysis of anti-aging traditional Chinese medicine from the point of drug properties and explain the different types of drug characteristics.METHODS:The related literatures were derived from CNKI,and 51 traditional Chinese medicines were collected,then the ward method cluster analysis was carried out based on the property of a medicine data.Results:These drugs were divided into ten categories,the first kind of cold,bitter taste,liver meridian,can clear the liver;the second kinds of cold,bitter,spleen meridian,can clear splenopyretic;the third types of cold,sweet,nourishing yin;the fourth,five and six types were flat meridian,fiat sweet lung channel and flat sweet Spleen meridian,can nourishing liver,lung and spleen respectively;the seventh kinds of taste,to the kidney,can tonifying kidney-Qi;the eighth kinds of warm-natured,Spleen meridian,can fill the spleen meridian;the ninth kinds of warmnatured,spicy,to the kidney,tonifying kidney and dispelling cold;the tenth kinds of warm sweet to the kidney,tonifying kidney yang.Conclusion:The anti-aging traditional Chinese medicine was divided into ten categories based on the property of a medicine,the role of each type is different ways,reflecting the characteristics of anti-aging herbs.Adapt to the treatment of different aging patients.Through the classification of anti-aging drugs,it can be used to assist in the treatment of diseases,which provide clues for the study of anti-aging.

Objective:To investigate the role and mechanism of metformin in algesia of rats with type 2 diabetic neuropathic pain (DNP).Methods:Eighty sprague-dawley rats were randomly divided into normal control group ( n=15) and high-fat and high-glucose group ( n=65); normal diet and high-fat and high-sugar diet were given, respectively; before and 8 weeks after feeding, the body mass of rats and fasting blood glucose level were recorded, fasting insulin level was detected by ELISA, and insulin sensitivity index (ISI) was calculated. Mechanical withdrawal threshold (MWT) and thermal withdrawal latency (TWL) 8 weeks after feeding (baseline values) were measured in the high-fat and high-glucose group; after 12 h of fasting, intraperitoneal injection of streptozotocin (STZ, 35 mg/kg) was performed; 3 d after fasting, blood glucose was measured; 14 d after STZ injection, body mass was recorded and MWT and TWL were measured again: when MWT and TWL were ≤85% baseline values, it was defined that DNP model was successfully established ( n=45); and the left were into the diabetic painless group ( n=15). The rats with successful DNP were randomly divided into DNP group, DNP+vehicle group and DNP+metformin group ( n=15); 14 d after STZ injection, rats in the DNP+metformin group were given intraperitoneal injection of metformin (200 mg/kg) once daily for 14 consecutive d; DNP group did not accept any treatment, and rats in DNP+vehicle group were intraperitoneally injected with same amount of normal saline. MWT and TWL of all rats were measured 14 d after STZ injection, and 3, 7, 14 and 21 d after metformin injection. The expression levels of interleukin (IL)-6, IL-1β and tumor necrosis factor (TNF)-α were detected by ELISA 7, 14 and 21 d after metformin injection. The fluorescence intensity of ionized calcium binding adaptor molecule-1 (Iba-1) in the spinal cord was detected by immunofluorescence staining, and the expression levels of Toll-like receptor 4 (TLR4), nuclear transcription factor (NF)-κB, phosphorylated (p)-NF-κB, adenylate activated protein kinase (AMPK), p-AMPK, and peroxisome proliferator activated receptor-γ coactivator (PGC)-1α in the spinal cord were detected by Western blotting 21 d after metformin injection. Results:(1) After 8 weeks of feeding, the body mass of rats in the high-fat and high-glucose group was significantly higher than that in the normal control group ( P<0.05); and the body mass of rats in the high-fat and high-glucose group was statistically lower than that in the normal control group 14 d after STZ injection ( P<0.05). Three d after STZ injection, the blood glucose level in high-fat and high-glucose group was significantly higher than that in normal control group ( P<0.05). After 8 weeks of feeding, the insulin level of high-fat and high-glucose group was statistically higher than that of normal control group, and the ISI in the high-fat and high-glucose group was significantly decreased as compared with that in the normal control group ( P<0.05). (2) As compared with those in the normal control group and diabetic painless group, MWT and TWL of DNP group and DNP+vehicle group were significantly decreased at each time point ( P<0.05). Three, 7, 14 and 21 d after metformin injection, MWT and TWL in DNP+metformin group were significantly increased as compared with those in DNP group and DNP+vehicle group ( P<0.05). (3) Seven, 14, and 21 d after metformin injection, the levels of IL-6, IL-1β and TNF-α in the spinal cord of rats in the DNP group and DNP+vehicle group were significantly increased as compared with those in the normal control group and diabetic painless group ( P<0.05); as compared with those in the DNP group and DNP+vehicle group, the levels of IL-6, IL-1β and TNF-α in the spinal cord of DNP+metformin group were significantly decreased ( P<0.05). (4) As compared with normal control group and diabetic painless group, the fluorescence intensity of Iba-1 and number of Iba-1 positive cells in the spinal cord tissues of DNP group and DNP+vehicle group were significantly increased ( P<0.05); while the fluorescence intensity of Iba-1 and number of Iba-1 positive cells in spinal cord tissues of DNP+metformin group were significantly decreased as compared with those in the DNP group and DNP+ vehicle group ( P<0.05). (5) As compared with those in the normal control group and diabetic painless group, the TLR4 and p-NF-κB protein expressions and p-NF-κB/NF-κB values in the spinal cord tissues of DNP group and DNP+vehicle group were significantly increased ( P<0.05); while those in the spinal cord tissues of DNP+metformin group were significantly decreased as compared with those in the DNP group and DNP+vehicle group ( P<0.05). As compared with those in the normal control group and diabetic painless group, the PGC-1α protein expression and p-AMPK/AMPK values in the spinal cord tissues of DNP group and DNP+vehicle group were significantly decreased ( P<0.05); while those in the spinal cord tissues of DNP+metformin group were significantly increased as compared with those in the DNP group and DNP+vehicle group ( P<0.05). Conclusion:Metformin, by activating AMPK/PGC-1α signaling pathway, may inhibit the TLR4/NF-κB expression, reduce the activation of microglia and the expressions of pro-inflammatory factors, and thus alleviate DNP.

ObjectiveTo investigate the protective effect of folic acid against cholestatic liver injury in mice induced by bis（2-ethylhexyl） phthalate （DEHP） exposure and its mechanism. MethodsICR mice were randomly divided into control group， high-dose folic acid （H-FA） group， DEHP group， DEHP+low-dose folic acid （DEHP+L-FA） group， and DEHP+high-dose folic acid （DEHP+H-FA） group， with 6 mice in each group. The mice in the H-FA group， the DEHP+L-FA group， and the DEHP+H-FA group were given folic acid by gavage at the corresponding dose， and those in the control group and the DEHP group were given an equal volume of PBS solution by gavage. After 2 hours， the mice in the DEHP group， the DEHP+L-FA group， and the DEHP+H-FA group were given corn oil containing 200 mg/kg DEHP， and those in the control group and the H-FA group were given an equal volume of pure corn oil， by gavage for 4 weeks. Body weight and food intake were recorded every day， and blood and liver tissue samples were collected. A biochemical analyzer was used to measure the serum levels of total bile acid （TBA） and alkaline phosphatase（ALP）； HE staining was used to observe the histopathological changes of liver tissue； kits were used to measure the content of malondialdehyde （MDA） and superoxide dismutase （SOD） in the liver； LC-MS/MS was used to measure serum bile acid profiles； Western blot was used to measure the expression levels of proteins associated with hepatic bile acid metabolism. A one-way analysis of variance was used for comparison of continuous data between multiple groups， and the least significant difference t-test was used for further comparison between two groups. ResultsCompared with the control group， the daily food intake of the mice in the DEHP group decreased significantly， and the body weight decreased significantly from day 10 （P<0.05）， and compared with the DEHP group， the DEHP+L-FA group and the DEHP+H-FA group had basically unchanged body weight and daily food intake （P>0.05）. Compared with the control group， the DEHP group had significant increases in liver weight index and the serum levels of TBA and ALP （all P<0.05）， with enlarged portal area， bile duct deformity and hyperplasia， and a small amount of inflammatory cell infiltration in liver tissue； compared with the DEHP group， the DEHP+L-FA group and the DEHP+H-FA group had a significant reduction in liver weight index （P<0.01）， and the DEHP+H-FA group had significant reductions in the serum levels of TBA and ALP （P<0.05）， with a significant improvement in liver histomorphology and structure after folic acid intervention. Compared with the control group， the DEHP group had a significant reduction in the content of SOD （P<0.05） and a significant increase in the content of MDA in the liver （P<0.01）， and compared with the DEHP group， the DEHP+H-FA group had significant reductions in the content of MDA and SOD （P<0.05）. Compared with the control group， the DEHP group had significant increases in the serum levels of α-muricholic acid （α-MCA），β- muricholic acid （β-MCA），deoxycholic acid （DCA）， lithocholic acid （LCA）， taurocholic acid （TCA）， taurodeoxycholic acid （TDCA）， tauroursodeoxycholic acid （TUDCA）， tauro-β-muricholic acid （T-β-MCA）， tauro-α-muricholic acid （T-α-MCA）， taurohyodeoxycholic acid （THDCA）， and taurolithocholic acid （TLCA） （P<0.05） and a significant reduction in ursodeoxycholic acid （UDCA）（P<0.05）； compared with the DEHP group， the DEHP+H-FA group had significant reductions in the serum levels of DCA， LCA， TCA， TDCA， TUDCA， T-β-MCA， T-α-MCA， THDCA， and TLCA （P<0.05）. Compared with the control group， the DEHP group had significant increases in the protein expression levels of FXR and CYP3A11 in the liver （P<0.01） and significant reductions in the protein expression levels of CYP7A1 and MRP2 （P<0.01）； compared with the DEHP group， the DEHP+L-FA group and the DEHP+H-FA group had significant reductions in the protein expression levels of FXR and CYP3A11 in the liver （P<0.05） and a significant increase in the protein expression level of MRP2 （P<0.05）， and the DEHP+H-FA group had a significant increase in the protein expression level of CYP7A1 （P<0.05）. ConclusionFolic acid has a protective effect against cholestatic liver injury in mice induced by DEHP exposure， possibly by regulating bile acid synthesis， catabolism， and transport and maintaining bile acid homeostasis.

OBJECT IVE To study the effects of ergosterol peroxide derivatives EP-3P on the proliferation ，migration and invasion of human tripe negative breast cancer cell MDA-MB- 231，and to provide reference for the development of breast cancer related drugs. METHODS MTT assay was adopted to detect the proliferation of MDA-MB- 231 cells after treated with 0（blank control），1.25，2.5，5，10，20，40 μmol/L EP-3P for 24，48 and 72 h. Wound healing assay and Transwell chamber method were adopted to detect the migration and invasion ability of MDA-MB- 231 cells after treated with 0（blank control ），5，10，20 EP-3P for 24 h. The apoptosis and cell cycle distribution were detected by flow cytometry. Western blot assay was used to detect the expressions of B-cell lympho ma-2（Bcl-2），Bcl-2 associated X protein （Bax），caspase-3，cleaved-caspase-3，cytochrome C （Cyt-C），matrix metalloproteinase- 2（MMP-2）and MMP- 9. RESULTS Compared with blank control group ，2.5，5，10，20，40 μmol/L EP-3P could significantly increase the inhibitory rate of cell proliferation （P＜0.05 or P＜0.01）in a dose and time- dependent manner. After 24 h treatment of EP- 3P（10，20 μmol/L），the rate of cell migration and the number of invasive cells were decreased significantly （P＜0.01），and cell was arrested at G 2/M stage （P＜0.05 or P＜0.01）；the apoptotic rate was increased significantly （P＜0.05）；the protein expressions of Bax ，Cyt-C and cleaved-caspase- 3 were upregulated significantly ， while those of Bcl- 2，caspase-3，MMP-2 and MMP- 9 were downregulated significantly （P＜0.01）. CONCLUSIONS EP-3P can inhibit the proliferation ，migration and invasion of human tripe negative breast cancer cells MDA-MB- 231 through mitochondrial mediated endogenous caspase pathway ，and induce the apoptosis of cells .