南方医科大学学报
南方醫科大學學報
남방의과대학학보
JOURNAL OF SOUTHERN MEDICAL UNIVERSITY
2013年
12期
1744-1747
,共4页
刘丽华%代勤%闵志刚%张明
劉麗華%代勤%閔誌剛%張明
류려화%대근%민지강%장명
转化生长因子β1%上皮间质转化%ERK/MAPK信号转导通路%脑胶质瘤%E-cadherin
轉化生長因子β1%上皮間質轉化%ERK/MAPK信號轉導通路%腦膠質瘤%E-cadherin
전화생장인자β1%상피간질전화%ERK/MAPK신호전도통로%뇌효질류%E-cadherin
transforming growth factorβ1%epithelial-mesenchymal transition%ERK/MAPK pathway%glioma%E-cadherin
目的:探讨转化生长因子β1对脑胶质瘤细胞SF767细胞侵袭能力的影响以及可能的分子机制。方法转化生长因子β1分别干预脑胶质瘤细胞SF767细胞12、24、48 h,Western blotting检测EMT和ERK/MAPK通路相关蛋白表达情况,MTT法检测和对比干预前后细胞增殖情况,体外侵袭实验观察细胞侵袭能力改变。结果 Western blotting显示E-cadherin表达下调,而Vimentin和MMP-2表达上调。在ERK/MAPK信号转导通路中,ERK表达未见变化,但P-ERK表达上调,核转录因子Zeb-1表达增强。体外增殖实验显示干预后细胞倍增时间明显缩短;体外侵袭实验显示干预后穿膜细胞明显增多,统计学显示有显著性差异(P<0.05)。结论转化生长因子β1可能通过ERK/MAPK信号转导通路诱导EMT促进脑胶质瘤细胞SF767细胞侵袭。
目的:探討轉化生長因子β1對腦膠質瘤細胞SF767細胞侵襲能力的影響以及可能的分子機製。方法轉化生長因子β1分彆榦預腦膠質瘤細胞SF767細胞12、24、48 h,Western blotting檢測EMT和ERK/MAPK通路相關蛋白錶達情況,MTT法檢測和對比榦預前後細胞增殖情況,體外侵襲實驗觀察細胞侵襲能力改變。結果 Western blotting顯示E-cadherin錶達下調,而Vimentin和MMP-2錶達上調。在ERK/MAPK信號轉導通路中,ERK錶達未見變化,但P-ERK錶達上調,覈轉錄因子Zeb-1錶達增彊。體外增殖實驗顯示榦預後細胞倍增時間明顯縮短;體外侵襲實驗顯示榦預後穿膜細胞明顯增多,統計學顯示有顯著性差異(P<0.05)。結論轉化生長因子β1可能通過ERK/MAPK信號轉導通路誘導EMT促進腦膠質瘤細胞SF767細胞侵襲。
목적:탐토전화생장인자β1대뇌효질류세포SF767세포침습능력적영향이급가능적분자궤제。방법전화생장인자β1분별간예뇌효질류세포SF767세포12、24、48 h,Western blotting검측EMT화ERK/MAPK통로상관단백표체정황,MTT법검측화대비간예전후세포증식정황,체외침습실험관찰세포침습능력개변。결과 Western blotting현시E-cadherin표체하조,이Vimentin화MMP-2표체상조。재ERK/MAPK신호전도통로중,ERK표체미견변화,단P-ERK표체상조,핵전록인자Zeb-1표체증강。체외증식실험현시간예후세포배증시간명현축단;체외침습실험현시간예후천막세포명현증다,통계학현시유현저성차이(P<0.05)。결론전화생장인자β1가능통과ERK/MAPK신호전도통로유도EMT촉진뇌효질류세포SF767세포침습。
Objective To investigate the effect of transforming growth factorβ1 (TGF-β1) on the invasiveness of human glioma SF767 cell line in vitro and explore the possible molecular mechanism. Methods Human glioma SF767 cell line treated with TGF-β1 for 12, 24, or 48 h were examined for the expressions of epithelial-mesenchymal transition-and ERK/MAPK pathway-associated proteins using Western blotting. MTT assay and Transwell assay were employed to assess the changes in the cell proliferation and invasiveness after TGF-β1 treatment, respectively. Results Western blotting showed that TGF-β1 treatment up-regulated the expressions of vimentin, MMP-2, P-ERK, and Zeb-1 and down-regulated E-cadherin expression in SF767 cells. TGF-β1 treatment of the cells resulted in significantly shortened doubling time of cells and obviously increased cell invasiveness. Conclusions TGF-β1 induces epithelial-mesenchymal transition of SF767 cell line to increase its invasiveness possibly via ERK/MAPK pathway.
