解放军医学院学报
解放軍醫學院學報
해방군의학원학보
Academic Journal of Chinese Pla Medical School
2015年
8期
845-849
,共5页
张熙%尉春艳%古茹%周乐
張熙%尉春豔%古茹%週樂
장희%위춘염%고여%주악
神经干细胞%米贝地尔%细胞增殖%细胞周期
神經榦細胞%米貝地爾%細胞增殖%細胞週期
신경간세포%미패지이%세포증식%세포주기
neural stem cell%mibefradil%cell proliferation%cell cycle
目的:探讨体外条件下T型钙通道阻滞剂米贝地尔对神经干细胞增殖的影响,间接阐明T型钙通道在神经干细胞增殖中的作用。方法构建成年大鼠脑损伤模型,分离侧脑室壁的脑室下层(subventricular zone,SVZ)细胞及新生大乳鼠SVZ细胞,以神经干细胞悬浮培养方法培养得到的细胞,观察细胞扩增及生长形态,并行Nestin染色;对培养的细胞传代培养及诱导分化,并对分化的细胞行NSE、GFAP免疫荧光染色。在神经干细胞培养基中加入米贝地尔,通过计数神经干细胞球,噻唑蓝[3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2-H-tetrazolium bromide,MTT]法分析米贝地尔对神经干细胞增殖的影响,计算半抑制浓度,在培养基中加入半抑制浓度的米贝地尔,将细胞分为实验组和对照组,Western blot法检测细胞周期蛋白(Cylin A)的表达。结果米贝地尔能够明显抑制神经干细胞球的形成,MTT法显示加入米贝地尔的浓度>5μmol/L时可显著抑制细胞增殖,5μmol/L组、10μmol/L组和20μmol/L组的OD值与对照组差异有统计学意义。米贝地尔对神经干细胞的半抑制浓度为8.93μmol/L。Western blot法提示加入半抑制浓度的米贝地尔后,Cyclin A蛋白的表达显著降低。结论米贝地尔能够抑制神经干细胞的增殖,其机制可能与抑制细胞周期相关。
目的:探討體外條件下T型鈣通道阻滯劑米貝地爾對神經榦細胞增殖的影響,間接闡明T型鈣通道在神經榦細胞增殖中的作用。方法構建成年大鼠腦損傷模型,分離側腦室壁的腦室下層(subventricular zone,SVZ)細胞及新生大乳鼠SVZ細胞,以神經榦細胞懸浮培養方法培養得到的細胞,觀察細胞擴增及生長形態,併行Nestin染色;對培養的細胞傳代培養及誘導分化,併對分化的細胞行NSE、GFAP免疫熒光染色。在神經榦細胞培養基中加入米貝地爾,通過計數神經榦細胞毬,噻唑藍[3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2-H-tetrazolium bromide,MTT]法分析米貝地爾對神經榦細胞增殖的影響,計算半抑製濃度,在培養基中加入半抑製濃度的米貝地爾,將細胞分為實驗組和對照組,Western blot法檢測細胞週期蛋白(Cylin A)的錶達。結果米貝地爾能夠明顯抑製神經榦細胞毬的形成,MTT法顯示加入米貝地爾的濃度>5μmol/L時可顯著抑製細胞增殖,5μmol/L組、10μmol/L組和20μmol/L組的OD值與對照組差異有統計學意義。米貝地爾對神經榦細胞的半抑製濃度為8.93μmol/L。Western blot法提示加入半抑製濃度的米貝地爾後,Cyclin A蛋白的錶達顯著降低。結論米貝地爾能夠抑製神經榦細胞的增殖,其機製可能與抑製細胞週期相關。
목적:탐토체외조건하T형개통도조체제미패지이대신경간세포증식적영향,간접천명T형개통도재신경간세포증식중적작용。방법구건성년대서뇌손상모형,분리측뇌실벽적뇌실하층(subventricular zone,SVZ)세포급신생대유서SVZ세포,이신경간세포현부배양방법배양득도적세포,관찰세포확증급생장형태,병행Nestin염색;대배양적세포전대배양급유도분화,병대분화적세포행NSE、GFAP면역형광염색。재신경간세포배양기중가입미패지이,통과계수신경간세포구,새서람[3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl-2-H-tetrazolium bromide,MTT]법분석미패지이대신경간세포증식적영향,계산반억제농도,재배양기중가입반억제농도적미패지이,장세포분위실험조화대조조,Western blot법검측세포주기단백(Cylin A)적표체。결과미패지이능구명현억제신경간세포구적형성,MTT법현시가입미패지이적농도>5μmol/L시가현저억제세포증식,5μmol/L조、10μmol/L조화20μmol/L조적OD치여대조조차이유통계학의의。미패지이대신경간세포적반억제농도위8.93μmol/L。Western blot법제시가입반억제농도적미패지이후,Cyclin A단백적표체현저강저。결론미패지이능구억제신경간세포적증식,기궤제가능여억제세포주기상관。
Objective To investigate the suppression of mibefradil (a kind of T-type calcium channels retardant) on the proliferation of neural stem cell in vitro and clarify the role of T-type calcium channels in the proliferation of neural stem cells indirectly.Methods Adult mice brain injury model was established and neural stem cell was separated from subventricular zone (SVZ). The proliferation and growth after adding 0, 1.25, 2.5, 5, 10 and 20μmol/L of mibefradil in culture medium were observed and nestin staining was performed. The cells were subcultured and differentiated, and NSE and GFAP immunofluorescence staining were performed in differentiated cells. The effect of mibefradil on cell proliferation was tested by 3-(4, 5-dimethyl-2-thiazolyl)-2, 5-diphenyl-2-H-tetrazolium bromide (MTT) and neural stem cell sphere counting. Then 50% inhibiting concentration (IC50) was calculated and IC50 of mibefradil was added in culture medium and neural stem cells were divided into two groups: control group and experimental group. The expression of Cyclin A was detected by western blot.Results The number of neural stem cell sphere decreased after adding mibefradil. MTT showed that the proliferation of cells could be inhibited significantly when mibefradil was added with the concentration over 5μmol/L. The OD value in 5μmol/L group, 10μmol/L group and 20μmol/L was significantly lower than that in control group. The IC50 rate of mibefradil to neural stem cells was 8.93μmol/L. The expression of Cyclin A protein in experimental group decreased significantly compared to control group.Conclusion Mibefradil can suppress the proliferation of neural stem cell. The mechanism is related to inhibit cell cycle progression.