Kwon Yoo-Wook, Jang Seulgi, Paek Jae-Seung, Lee Jae-Woong, Cho Hyun-Jai, Yang Han-Mo, Kim Hyo-Soo
National Research Laboratory for Stem Cell Niche, Seoul National University College of Medicine, Seoul, Republic of Korea; Innovative Research Institute for Cell Therapy, Seoul National University Hospital, Seoul, Republic of Korea.
National Research Laboratory for Stem Cell Niche, Seoul National University College of Medicine, Seoul, Republic of Korea.
Stem Cell Res. 2015 Nov;15(3):481-494. doi: 10.1016/j.scr.2015.09.004. Epub 2015 Sep 16.
We have previously shown that pluripotent stem cells can be induced from adult somatic cells which were exposed to protein extracts isolated from mouse embryonic stem cells (mESC). Interestingly, generation of induced pluripotent stem (iPS) cells depended on the background of ES cell lines; possible by extracts from C57, but not from E14. Proteomic analysis of two different mES cell lines (C57 and E14) shows that embryonic Ras (E-Ras) is expressed differently in two mES cell lines; high level of E-Ras only in C57 mESC whose extracts allows iPS cells production from somatic cells. Here, we show that E-Ras augments the efficiency in reprogramming of fibroblast by promoting cell proliferation. We found that over-expression of E-Ras in fibroblast increased cell proliferation which was caused by specific up-regulation of cyclins D and E, not A or B, leading to the accelerated G1 to S phase transition. To figure out the common transcription factor of cyclins D and E, we used TRANSFAC database and selected SP1 as a candidate which was confirmed as enhancer of cyclins D and E by luciferase promoter assay using mutants. As downstream signaling pathways, E-Ras activated only c-Jun N-terminal kinases (JNK) but not ERK or p38. Inhibition of JNK prevented E-Ras-mediated induction of pSP1, cyclins D, E, and cell proliferation. Finally, E-Ras transduction to fibroblast enhanced the efficiency of iPS cell generation by 4 factors (Oct4/Klf4/Sox2/C-myc), which was prevented by JNK inhibitor. In conclusion, E-Ras stimulates JNK, enhances binding of Sp1 on the promoter of cyclins D and E, leading to cell proliferation. E-Ras/JNK axis is a critical mechanism to generate iPS cells by transduction of 4 factors or by treatment of mESC protein extracts.
我们之前已经表明,多能干细胞可以从暴露于从小鼠胚胎干细胞(mESC)中分离出的蛋白质提取物的成体体细胞诱导产生。有趣的是,诱导多能干细胞(iPS)的产生取决于胚胎干细胞系的背景;可能由C57的提取物诱导产生,但E14的提取物则不行。对两种不同的mES细胞系(C57和E14)进行蛋白质组分析表明,胚胎Ras(E-Ras)在两种mES细胞系中的表达不同;仅在C57 mESC中E-Ras表达水平高,其提取物能够从体细胞产生iPS细胞。在此,我们表明E-Ras通过促进细胞增殖提高了成纤维细胞重编程的效率。我们发现,成纤维细胞中E-Ras的过表达增加了细胞增殖,这是由细胞周期蛋白D和E的特异性上调引起的,而非A或B,从而导致从G1期到S期的加速转变。为了找出细胞周期蛋白D和E的共同转录因子,我们使用了TRANSFAC数据库并选择SP1作为候选因子,通过使用突变体的荧光素酶启动子测定法证实其为细胞周期蛋白D和E的增强子。作为下游信号通路,E-Ras仅激活c-Jun氨基末端激酶(JNK),而不激活ERK或p38。抑制JNK可阻止E-Ras介导的pSP1、细胞周期蛋白D、E的诱导以及细胞增殖。最后,将E-Ras转导至成纤维细胞可使4种因子(Oct4/Klf4/Sox2/C-myc)诱导产生iPS细胞的效率提高,而JNK抑制剂可阻止这种提高。总之,E-Ras刺激JNK,增强Sp1与细胞周期蛋白D和E启动子的结合,从而导致细胞增殖。E-Ras/JNK轴是通过转导4种因子或处理mESC蛋白质提取物产生iPS细胞的关键机制。
