Objective:To explore the impacts of remimazolam(REM)on the proliferation,migration,and invasion of hepatocellular carcinoma cells by regulating sphingosine kinase 1/sphingosine 1-phosphate/sphingosine 1-phosphate receptor 3(SPHK1/S1P/S1PR3)signaling pathway.Methods:Human hepatocellular carcinoma cell line HepG2 was treated with REM at concentrations of 0,20,40,80,160,and 320 μmol/L respectively.Cell survival rate was measured,and drug concentrations were screened.Based on the results of cell survival rate,the logarithmic phase cells were di-vided into five groups:Control group,low,medium,and high concentrations of remifentanil groups(REM-L,REM-M,REM-H groups;20,40 and 80 μmol/L),and high concentrations of remifentanil+SPHK1 activator group(REM-H+K6PC-5 group).MTT assay was used to detect the survival rate of HepG2 cells.Plate cloning experiment was performed to de-tect cell proliferation ability.Scratch experiment was performed to detect cell migration ability.Transwell chamber method was performed to detect cell invasion ability.Flow cytometry was used to detect cell apoptosis.Western blot was used to detect the SPHK1,S1P,S1PR3,Bax,and Bcl-2 proteins in cells.Results:For the Control group,the REM-L,REM-M,and REM-H groups showed that the number of HepG2 cell clones,scratch healing rate,invasion rate,Bcl-2,SPHK1,S1P,S1PR3,and N-cadherin proteins gradually decreased with increasing REM concentration,while the apoptosis rate and Bax,E-cadherin proteins showed an opposite trend(P<0.05).For the REM-H group,the REM-H+K6PC-5 group showed a clear increase in the number of HepG2 cell clones,scratch healing rate,invasion rate,Bcl-2,SPHK1,S1P,S1PR3,and N-cadherin proteins,and a clear decrease in the apoptosis rate and Bax,E-cadherin proteins(P<0.05).Conclusion:REM may inhibit the proliferation,migration,and invasion of hepatocellular carcinoma cells and promote cell apoptosis by suppressing SPHK1/S1P/S1PR3 signaling pathway.

Objective:To explore the impacts of remimazolam(REM)on the proliferation,migration,and invasion of hepatocellular carcinoma cells by regulating sphingosine kinase 1/sphingosine 1-phosphate/sphingosine 1-phosphate receptor 3(SPHK1/S1P/S1PR3)signaling pathway.Methods:Human hepatocellular carcinoma cell line HepG2 was treated with REM at concentrations of 0,20,40,80,160,and 320 μmol/L respectively.Cell survival rate was measured,and drug concentrations were screened.Based on the results of cell survival rate,the logarithmic phase cells were di-vided into five groups:Control group,low,medium,and high concentrations of remifentanil groups(REM-L,REM-M,REM-H groups;20,40 and 80 μmol/L),and high concentrations of remifentanil+SPHK1 activator group(REM-H+K6PC-5 group).MTT assay was used to detect the survival rate of HepG2 cells.Plate cloning experiment was performed to de-tect cell proliferation ability.Scratch experiment was performed to detect cell migration ability.Transwell chamber method was performed to detect cell invasion ability.Flow cytometry was used to detect cell apoptosis.Western blot was used to detect the SPHK1,S1P,S1PR3,Bax,and Bcl-2 proteins in cells.Results:For the Control group,the REM-L,REM-M,and REM-H groups showed that the number of HepG2 cell clones,scratch healing rate,invasion rate,Bcl-2,SPHK1,S1P,S1PR3,and N-cadherin proteins gradually decreased with increasing REM concentration,while the apoptosis rate and Bax,E-cadherin proteins showed an opposite trend(P<0.05).For the REM-H group,the REM-H+K6PC-5 group showed a clear increase in the number of HepG2 cell clones,scratch healing rate,invasion rate,Bcl-2,SPHK1,S1P,S1PR3,and N-cadherin proteins,and a clear decrease in the apoptosis rate and Bax,E-cadherin proteins(P<0.05).Conclusion:REM may inhibit the proliferation,migration,and invasion of hepatocellular carcinoma cells and promote cell apoptosis by suppressing SPHK1/S1P/S1PR3 signaling pathway.

AIM To study endophytic fungi from Scutellaria baicalensis Georgi.and the enzyme inhibitory activities of their secondary metabolites.METHODS Six different media were used to isolate and purify endophytic fungi from S.baicalensis by tissue homogenate method.The activities of secondary metabolites were evaluated by targeting different enzymes.The highly active strains were identified by molecular biology combined with morphology,and the highly active chemical components were tracked and separated by modern chromatographic separation technology.RESULTS Sixty-four endophytic fungal strains were isolated from S.baicalensis,and one hundred and twenty-eight secondary metabolites were obtained by fermentation.The samples with certain inhibitory activities against adenosine deaminase(ADA),β-lactamase and tyrosinase(TYR)accounted for 14.06%,3.91%and 18.75%,respectively.Strain HTS-23-2 showed high TYR inhibitory activity,and 99%homology with Aspergillus flavus by molecular identification.One compound was isolated from the fermentation samples and identified as kojic acid.CONCLUSION S.baicalensis harbors a rich diversity of endophytic fungi,which serve as a valuable resource for active substances.

OBJECTIVE Gastric cancer is one of the most common malignant tumors,and the inci-dence rate is the highest in all kinds of tumors in China. However,it remains unclear that how signifi-cantly gastric cells are dependent on glycolysis,and which type of gastric cells are sensitive to glycolysis inhibition. In this study, several kind of gastric cancer cell lines were used as the research object, and the metabolic characteristics of different cell lines were systematically analyzed to provide theoretical support for the accurate treatment of gastric cancer. METHODS We examined the energy metabolism of four gastric cancer cell lines(MGC-803,SGC-7901,HGC-27 and BGC-823)by using glycolysis inhibitor, 2-deoxy-D-glucose(2-DG)and inhibitor of oxidative phosphorylation,oligomycin.Oxygen consumption rates(OCR)and L-lactate were also measured with an XF96 Analyzer(Seahorse Biosciences)to deter-mine the significance of metabolism of oxidative phosphorylation and aerobic glycolysisin gastric cells. In addition, western blot was used to detect the contribution of AMP-activated protein kinase (AMPK), and anti-apoptotic proteins(Bcl-2 and survivin)to clarify the mechanism of death or survival of gastric cancer cells treated by 2-DG or oligomycin. RESULTS In this study, it was shown that the growth of gastric cell lines were suppressed by 2-DG.However,the sensitivity to 2-DG was quite different among cell lines:IC 50 of 2-DG was from 3.28 mmol·L-1(MGC-803)to 15.57 mmol·L-1(BGC-823).MGC-803 was relatively sensitive to 2-DG (IC 50:3.28 mmol·L-1), consumed more glucose and produced more lactate (waste product of glycolysis) than the three other cell lines. Consequently, MGC-803 could be more dependent on glycolysis than other cell lines, which was further confirmed by the fact that glucose (+)FCS(-)medium showed more growth and survival than glucose(-)FCS(+)medium.Alternatively, BGC-823, most resistant to 2-DG (IC50: 15.57 mmol·L- 1), was most sensitive to oligomycin, and showed more growth and survival in glucose(-)FCS(+)medium than in glucose(+)FCS(-)medium. Thus,we had reasons to think BGC-823 cells depended on oxidative phosphorylation for energy production. In BGC-823,AMPK,which is activated when ATP becomes limiting,was rapidly phosphorylated by 2-DG, and expression of Bcl-2 was augmented,which might result in resistance to 2-DG.Interestingly,AMPK phosphorylation and augmentation of Bcl-2 expression by 2-DG were not observed in MGC-803,which is 2-DG sensitive. CONCLUSION There is a large metabolic difference between gastric cancer cell lines,which will facilitate the future gastric cancer therapy by targeting metabolic pathways.

OBJECTIVE To probe into the anti-esophagus cancer activity and mechanisms of DN3, a novel natural diterpenoid derivative. METHODS The anti-tumor activity in vitro of DN3 was evaluated by MTT, and by using human esophageal carcinoma cells xenografted into athymic mice model in vivo. The specific mechanisms of DN3, as a dual inhibitor of glycolysis and oxidative phos-phorylation(OXPHOS)were explored through cell and molecular biology techniques.For instance,the manner of cancer cell death induced by DN3 was characterized by hoechst33342, FITC-Annexin V/PI staining and flow cytometric analysis,then these changes of glucose consumption,glucose uptake and lactate production in glycolysis, as well as oxygen consumption rate (OCR) and ATP content in OXPHOS caused by DN3 were performed separately through related kits and SeahorseBioscience XF24 Extra-cellular Flux Analyzer.Furthermore,in order to obtain a clear understanding of the inhibition of DN3 to glycolysis and OXPHOS, these regulatory factors were investigated by Western blot, such as PI3K/AKT, c-Myc and p53 of glycolysis, Bax and HK2 of mitochondrial function. RESULTS DN3 inhibited the growth of esophagus cancer cell EC9706, EC109 and EC1 cells in a dose and time dependent manner,but showed no significant effects on human esophageal epithelial cells(HEECs).DN3 caused significant G2/M arrest of esophagus cancer cell lines and induced apoptosis of these cell lines, which indicated DN3 inhibited the growth of esophagus cancer cell through blocking cell cycle and inducing apoptosis in a dose and time-dependent manner. Importantly, 8 μM DN3 decreased the extracellular acidification rate (ECAR) by 45% in EC109, which indicated glycolysis was inhibited by DN3. Mean-while, DN3 decreased the oxygen consumption rate (OCR) and the OCR linked to intracellular ATP production in EC109 cells,but that was not obvious in HEECs,so which indicated that DN3 could selec-tively block OXPHOS of cancer cells. In addition, the accumulation of reactive oxygen species (ROS) and the drop of mitochondrial membrane potential (MMP) were also observed in EC109 incubated by DN3,which suggested mitochondrial biological function was disturbed.Furthermore,the expression of PI3K/AKT, c-Myc and HK2 related to glycolysis were down-regulated by DN3, but the p53 and Bax were up-regulated in esophageal carcinoma cells. The changes of these enzymes accounted for the decreased glycolysisand OXPHOS in esophageal carcinoma cells treated by DN3. CONCLUSION The new compound DN3 has a strong anti-esophageal carcinoma activity,and it is tolerable that DN3 is seen as a dual inhibitor of glycolysis and oxidative phosphorylation.

OBJECTIVE To study the anti-tumor activity and molecular mechanism of natural diter-pene derivative JD20 in vitro. METHODS Screening the sensitive of gastric carcinoma cell lines to JD20 by cytotoxicity test for 24 h.Cell morphology was evaluated by using DAPI.After staining of can-cer cells with PI or annexin V-FITC/PI respectively,the cell cycle and apoptosis induced by JD20 were detectded by flow cytometry. The change in cell membrane potential was detected by JC-1 test kit. Western blot method was used to detect the apoptosis-related protein. RESULTS The novel natural kaurane diterpene derivative JD20 had a significant inhibitory effect on tumor cells and was particularly active on gastric cancer cell lines HGC-27 (IC50=4.72 ± 1.37 μmol·L- 1) and MGC-803 (IC50=7.36 ± 0.86 μmol·L-1).Further studies found that JD20 resulted in thecell cycle arrest in the G2/M phase,and induced a significant apoptosis in HGC-27. In addition, JD20 also caused the drop of mitochondrial membrane potential of HGC-27 within a short time (3 h). Furthermore, the Western blotting analysis showed that JD20 could induce the up-regulation of p53,Bax and Bim protein expression in gastric can-cer cells,and the releasing of cytochrome c from the mitochondria into the cytoplasm,as well as the ac-tivation of casepase-9/3.CONCLUSION The natural kaurane diterpene derivative JD20 can inhibit the proliferation of various human cancer cells by blocking the cell cycle and inducing apoptosis, and its mechanism of inducing apoptosis may be related to the mitochondria-mediated apoptosis pathway.

OBJECTIVETo explore the relationship between gamma-synuclein gene expression and CpG island demethylation in colorectal cancer(CRC), and the relationship between the demethylation and clinicopathological factors of CRC.

METHODSThe expression of gamma-synuclein mRNA was examined in 30 pairs of tumor tissues and tumor-matched non-neoplastic adjacent tissues(NNAT) by RT-PCR. CRC cell lines including COLO205, LoVo, and SW480 were used and treated with a demethylating agent, 5-aza-2'-deoxycytidine(5-aza-C). Before and after the treatment, the expression of gamma-synuclein mRNA in the cells was determined by RT-PCR, and bisulfite sequencing PCR was also used to analyze methylation status of CpG island. The methylation status of gamma-synuclein was then examined in 67 CRC samples and 30 NNAT samples by nested methylation-specific PCR (NMSP) and real time methylation-specific PCR(real-time MSP). The relationship between the demethylation of gamma-synuclein in CRC and clinicopathological factors was analyzed.

RESULTSThe mean gamma-synuclein mRNA expression was 0.66+/-0.34 in CRC samples, which was much higher than 0.45+/-0.26 in NNAT samples(P=0.011). 5-aza-C could induce expression and demethylation of gamma-synuclein in COLO205, LoVo and SW480 cells. gamma-Synuclein gene was demethylated in 80.0%(24/30) of the CRC samples and 50.0%(15/30) of the NNAT samples. The demethylated status of gamma-synuclein was much higher in CRC samples than that in NNAT samples(P=0.030), and was significantly correlated with clinical stage, lymph node involvement, and distant metastasis of CRC(P<0.05).

CONCLUSIONThe upregulation of gamma-synuclein expression in CRC is primarily attributed to the demethylation of CpG island, which may be used as a marker for prognosis.

Cell Line, Tumor ; Colorectal Neoplasms ; genetics ; metabolism ; pathology ; CpG Islands ; DNA Methylation ; Gene Expression Regulation, Neoplastic ; Humans ; Prognosis ; RNA, Messenger ; genetics ; gamma-Synuclein ; genetics ; metabolism