Chan Ken Kwok-Keung, Zhang Jingyao, Chia Na-Yu, Chan Yun-Shen, Sim Hui Shan, Tan Ker Sin, Oh Steve Kah-Weng, Ng Huck-Hui, Choo Andre Boon-Hwa
Stem Cell Group, Bioprocessing Technology Institute, A*STAR (Agency for Science, Technology and Research), Biopolis, Singapore.
Stem Cells. 2009 Sep;27(9):2114-25. doi: 10.1002/stem.143.
Insight into the regulation of core transcription factors is important for a better understanding of the molecular mechanisms that control self-renewal and pluripotency of human ESCs (hESCs). However, the transcriptional regulation of NANOG itself in hESCs has largely been elusive. We established a NANOG promoter luciferase reporter assay as a fast read-out for indicating the pluripotent status of hESCs. From the functional cDNA screens and NANOG promoter characterization, we successfully identified a zinc finger transcription factor KLF4 and a homeodomain transcription factor PBX1 as two novel transcriptional regulators that maintain the pluripotent and undifferentiated state of hESCs. We showed that both KLF4 and PBX1 mRNA and protein expression were downregulated during hESC differentiation. In addition, overexpression of KLF4 and PBX1 upregulated NANOG promoter activity and also the endogenous NANOG protein expression in hESCs. Direct binding of KLF4 on NANOG proximal promoter and PBX1 on a new upstream enhancer and proximal promoter were confirmed by chromatin immunoprecipitation and electrophoretic mobility shift assay. Knockdown of KLF4/PBX1 or mutation of KLF4/PBX1 binding motifs significantly downregulated NANOG promoter activity. We also showed that specific members of the SP/KLF and PBX family are functionally redundant at the NANOG promoter and that KLF4 and PBX1 cooperated with OCT4 and SOX2, and transactivated synergistically the NANOG promoter activity. Our results show two novel upstream transcription activators of NANOG that are functionally important for the self-renewal of hESC and provide new insights into the expanded regulatory circuitry that maintains hESC pluripotency.
深入了解核心转录因子的调控机制,对于更好地理解控制人类胚胎干细胞(hESCs)自我更新和多能性的分子机制至关重要。然而,hESCs中NANOG自身的转录调控在很大程度上仍不清楚。我们建立了一种NANOG启动子荧光素酶报告基因检测方法,作为一种快速检测手段来指示hESCs的多能状态。通过功能cDNA筛选和NANOG启动子特征分析,我们成功鉴定出锌指转录因子KLF4和同源结构域转录因子PBX1,它们是维持hESCs多能和未分化状态的两个新型转录调节因子。我们发现,在hESCs分化过程中,KLF4和PBX1的mRNA及蛋白表达均下调。此外,KLF4和PBX1的过表达上调了hESCs中NANOG启动子活性以及内源性NANOG蛋白表达。通过染色质免疫沉淀和电泳迁移率变动分析,证实了KLF4直接结合在NANOG近端启动子上,PBX1结合在一个新的上游增强子和近端启动子上。敲低KLF4/PBX1或突变KLF4/PBX1结合基序可显著下调NANOG启动子活性。我们还表明,SP/KLF和PBX家族的特定成员在NANOG启动子处功能冗余,并且KLF4和PBX1与OCT4和SOX2协同作用,协同激活NANOG启动子活性。我们的研究结果揭示了NANOG的两个新型上游转录激活因子,它们对hESCs的自我更新具有重要功能,并为维持hESCs多能性的扩展调控网络提供了新的见解。
