Effect of β-asarone on expression of ECV340 cell adhesion molecules induced by β-amyloid peptide / 中成药

AIM:To explore the effect of β-asarone on vascular endotheliam and adhesion molecule expression of endothelium induced by β-amyloid peptide from Alzheimer's disease and to estimate the injury repair.METHODS:Cultured ECV304 cells were incubated with freshly solublizeal Aβ1-42 and the mixture of Aβ1-42 and β-asarone,the expression of three central adhesion molecules,CD106,CD62P,CE62E and Ca2+ concentration were examined and apoptosis was recorded by Flow eytometry.Test viability of cells by MTT methods.RESULTS:The results showed that in model group and treated group,ligation of endothelial CD106,CD62P,CE62E,markers for endothelial cell activation and Ca2+ concentration,leads to a lot of release.The livability decreased and the apoptosis increased.Further more,simultaneous treatment of ECV304 cells with β-asarone resulted in the decrease significandy in these three adhesion molecules described above and Ca2+ concentration as well as the livability upper and apoptosis lower.CONCLUSION:CD106,CD62P,CE62E,important inflammational factor of Aβ-induced endothelial injury,may be promotion of the inflammatory scade in vascular endothelial.β-asarone may protect ECV304 cell apoptosis by regulate Ca2+ and expression of cell surface markers.

Effect of Docosahexaenoic Acid (DHA) on the Apoptosis of Human Endothelial ECV304 Cells

DHA, one of w-3 fatty acids, modulates cell growth or death though the changes of apoptotic signaling in human endothelial ECV304 cells. We investigated the effects of DHA on the changes of apoptotic signaling in human vascular endothelial ECV304 cells using lipid peroxidation (LPO) metabolites. LPO could be originated by dietary polyunsaturated fatty acids such as linoleic acid (LA), arachidonic acid (AA) and docosahexaenoic acid (DHA). DHA caused cell death of ECV304 cells compared to LA, AA or control as evidenced by changes in cell morphology and MTT assay. LPO levels was significantly elevated by 10 fold in DHA-treated ECV 304 cells and caspase-3 activity was increased by DHA corresponding to increasing incubation times compared to control. One of reasons of the cell death in DHA-treated ECV304 cells could be expected that caspase activity, marker for mitochondrial damages, might be triggered by the increasing LPO levels. Our results strongly indicated that DHA induced LPO production has an important role on apoptotic signaling pathway in ECV304 cells. LPO production in endothelial cells which was metabolized by oxidation of dietary PUFA, might be one of risk factors in the initial progression of atherosclerosis.

Effect of ?-asarone on expression of ECV340 cell adhesion molecules induced by ?-amyloid peptide / 中成药

AIM:To explore the effect of ?-asarone on vascular endothelium and adhesion molecule expression of endothelium induced by ?-amyloid peptide from Alzheimer's disease and to estimate the injury repair.METHODS:Cultured ECV304 cells were incubated with freshly solublized A?_ 1-42 and the mixture of A?_ 1-42 and ?-asarone,the expression of three central adhesion molecules,CD106,CD62P,CE62E and Ca 2+ concentration were examined and apoptosis was recorded by Flow cytometry.Test viability of cells by MTT methods.RESULTS:The results showed that in model group and treated group,ligation of endothelial CD106,CD62P,CE62E,markers for endothelial cell activation and Ca 2+ concentration,leads to a lot of release.The livability decreased and the apoptosis increased.Further more,simultaneous treatment of ECV304 cells with ?-asarone resulted in the decrease significantly in these three adhesion molecules described above and Ca 2+ concentration as well as the livability upper and apoptosis lower.CONCLUSION:CD106,CD62P,CE62E,important inflammational factor of A?-induced endothelial injury,may be promotion of the inflammatory scade in vascular endothelial.?-asarone may protect ECV304 cell apoptosis by regulate Ca 2+ and expression of cell surface markers.

Construction of NF-?B/p65-targeting RNAi combinant adenovirus vector and its suppressive effect on the expression of p65 in ECV304 cells / 中华内分泌代谢杂志

Objective To construct RNAi combinant adenoviral expressive vectors specific to p65 subunit of NF-?B and to observe their gene silencing effect on p65 subunit.Methods Three pairs of complementary. single-strand DNA oligos targeting three various sites of p65 mRNA were designed and synthesized.Annealling was used to generate double-strand oligos(ds-oligos),and then the ds-oligos were cloned into pENTR~TM/u6 to generate the entry clone named pENTR.Recombination reaction in vitro with the pENTR and pAd/BLOCK-iT~TM- DEST was used to creat the adenovirus plasmid which contains the RNAi cassette.Then,the adenovirus plasmids digested with PacI were transfected into HEK293A cells to product adenovirus,and latter infected the HEK293A cells to amplify the adenoviral stock.Plaque forming assay was used to titer the adenoviral stock.The p65 gene silencing effect induced by the RNAi adenovirus was detected by Western blot and immunocytochemistry assay in ECV304 cells.Results The RNAi adenovirus specific to p65 subunit of NF-?B were produced with titer of 3.0 x 10~9pfu/ml to 2.5?10~10pfu/ml.The expression of p65 protein in ECV304 cells could be down-regulated efficiently by the RNAi adenovirus 48-72 h after infection,which would last for more than 6 days after infection.Conclusion RNAi adenovirus is an important tool inhibiting the expression of target gene efficiently.

Effect of glomerular intercellular interaction under high glucose concentration on production of ROS and TGF-?_1 in co-cultured ECV304 cells and intervention with tea polyphenols / 中国病理生理杂志

AIM: To investigate the effect of glomerular intercellular interaction under high glucose concentration on the production of reactive oxygen species (ROS) and transforming growth factor ?_1 (TGF-?_1) in co-cultured human ECV304 cells, and to study the intervention with tea polyphenols (TPs). METHODS: The endothelial cells were cultured alone or co-cultured with mesangial cells in high glucose media with or without TPs for 0 h, 12 h and 36 h, respectively. The activity of SOD and the content of MDA in the media of the system were detected by spectrophotometry. The expression of TGF-?_1 mRNA in the endothelial cells was measured by using semi-quantitative reverse transcription PCR (RT-PCR). RESULTS: High glucose decreased the activity of SOD, increased the content of MDA and up-regulated the expression of TGF-?_1 mRNA in co-cultured ECV304 cells and the effect became more prominent than the single-cultured cells. TPs interrupted it more effectively. CONCLUSION: These data suggest that there is interaction between mesangial cells and ECV304 cells under high glucose concentration. The interaction may markedly up-regulate the production of ROS and the expression of TGF-?_1 in co-cultured ECV304 cells. TPs may protect ECV304 cells by intervening intercellular interaction.

Establishment of quantitative measurement method of cell migration in vitro and it's application / 中国病理生理杂志

AIM: To establish a quantitative measurement method of ECV-304 cell migration in a scratch wound model in vitro. METHODS: The method of ECV-304 cell scratch wound model was improved. The ECV-304 cell migration was measured quantitatively using a computer-assisted video microscopic method with image-analysis system. The effects of heparin and thrombospondin-1 on ECV-304 cell migration were observed in the scratch wound model in vitro. RESULTS: The average width and length of cell scratch wound was (0.95?0.08) mm and (51.20?3.40) mm respectively in 120 experiments. The peak of cell migration reached about 24 h after culture. The stimulated effect of heparin and inhibited effect of thrombospondin-1(TSP-1) on cell migration were observed. CONCLUSION: A quantitative measurement method of ECV-304 cell migration in vitro is established. The stimulated and inhibited effects on ECV-304 cell migration were proven respectively using this method.

ECV304 cells can be used as a general model, tool or target in the re search of biomedicine and pharmacology / 中国病理生理杂志

ECV304 was reported first in 1990 as a spont aneously-transformed and immortalized cell line derived from a Japanese HUVEC. S ubsequently, many studies validated that the ECV304 is a permanent endothelial cell line. It has been used widely as an endothelial cell model and an useful re search tool in biomedicine and pharmacology. However, several distinct differenc es exist between ECV304 and HUVEC. Some studies even pointed out that ECV304 is not of HUVEC origin. According to the research data including ours, this reporte dly endothelial-derived permanent human cell line ECV304 may be dedifferentiated towards an epithelial phenotype. It is therefore not an appropriate cell line t o study endothelial cell biology. But cultured ECV304 cells can still be used as a model, tool or target in the pathophysiological and pharmacological studies, depending on whether or not their functional expression or markers are suitable for the research work.

Effects of ruscogenin on adhesion of HL-60 cells to ECV304 cells / 中国药理学通报

Aim To investigate the anti-inflammatory activity of ruscogenin,a major sapogenin from Ophiopogon japonicus,effect of ruscogenin on cell adhesion is studied.Methods By MTT assay,effect of ruscogenin on normal and TNF-?-induced adhesion of human pro-myelocytic leukemia cell strain(HL-60)to venous endothelial cell strain(ECV304)was observed and effect of ruscogenin on the viability of ECV304 cells and HL-60 cells were investigated.Results Adhesion between HL-60 cells and ECV304 cells induced by TNF-? was significantly inhibited when ECV304 cells were pretreated with ruscogenin at the concentration of 0.1,1.0 ?mol?L~(-1).Meanwhile,ruscogenin remarkably inhibited TNF-a-induced adhesion when HL-60 cells were pretreated with ruscogenin at the concentration of 0.001,0.01,0.1 ?mol?L~(-1).On the other hand,their viability and adhesion of HL-60 cells to normal ECV304 cells were not affected at above concentrations.Conclusion Ruscogenin shows significant anti-inflammatory activity via inhibition of adherence of HL-60 cells to activated ECV304 cells.

Protective effects of carvedilol on oxidative stress injury induced by hydrogen peroxide in vascular endothelial cells / 中国药理学通报

Aim To observe the influence of carvedilol on the injury and expression of intercellular adhesion molecule-1 induced by hydrogen peroxide in ECV-304 cells and investigate the anti-atherosclerotic effect of carvedilol.Methods: The viability of ECV-304 cells was detected by MTT assay.Morphological changes of ECV-304 cells were observed under converse microscope.The level of lactate dehydrogenase released to the extracellular medium,the intracellular superoxide dismutase activity and the extracellular and intracellular Malondialdelyde level were determined using automatic biochemistry analyser.The expression of ICAM-1 in protein level and mRNA level was detected with flow cytometric technique and RT-PCR.Results Pretreated with carvidilol(1.0?10~(-5)～1.0?10~(-9)mol?L~(-1)) for 24 h,the cell survival rate was increased significantly in a concentration-dependent manner.Pre-incubation for 24 h with carvedilol results in a significant concentration-dependent decline of LDH release from hydrogen peroxide(1.0?10~(-6)mol?L~(-1))injured cells.While ECV-304 cells were pre-incubated with carvedilol,the level of MDA decreased and the activity of SOD increased significantly.Carvedilol produced a concentration-dependent inhibition of the expression of ICAM-1 protein and mRNA in hydrogen peroxide injured ECV-304 cells in a similar manner.Conclusion: These experiments demonstrated that carvedilol was able to protect ECV-304 cells from the oxidative stress injury and inhibit ICAM-1expression in ECV-304 cells induced by hydrogen peroxide.Therefore,we can consider that carvedilol maintains and improves the function of endothelium damaged by hydrogen peroxide from many aspects,which does indicate extensive antioxidant effects on the hydrogen peroxide-injured vascular endothelial cells and suggest promising effects in atherogenesis process.