KSR-based medium improves the generation of high-quality mouse iPS cells.

Kai Liu,Lin Liu,Jingzhuo Zhang,Fang Wang,Xiaoying Ye,Lingling Wang,Jiao Yang,Laurent Coen

doi:10.1371/journal.pone.0105309

Abstract

Induced pluripotent stem (iPS) cells from somatic cells have great potential for regenerative medicine. The efficiency in generation of iPS cells has been significantly improved in recent years. However, the generation of high-quality iPS cells remains of high interest. Consistently, we demonstrate that knockout serum replacement (KSR)-based medium accelerates iPS cell induction and improves the quality of iPS cells, as confirmed by generation of chimeras and all iPS cell-derived offspring with germline transmission competency. Both alkaline phosphatase (AP) activity assay and expression of Nanog have been used to evaluate the efficiency of iPS cell induction and formation of ES/iPS cell colonies; however, appropriate expression of Nanog frequently indicates the quality of ES/iPS cells. Interestingly, whereas foetal bovine serum (FBS)-based media increase iPS cell colony formation, as revealed by AP activity, KSR-based media increase the frequency of iPS cell colony formation with Nanog expression. Furthermore, inhibition of MAPK/ERK by a specific inhibitor, PD0325901, in KSR- but not in FBS-based media significantly increases Nanog-GFP+ iPS cells. In contrast, addition of bFGF in KSR-based media decreases proportion of Nanog-GFP+ iPS cells. Remarkably, PD can rescue Nanog-GFP+ deficiency caused by bFGF. These data suggest that MAPK/ERK pathway influences high quality mouse iPS cells and that KSR- and PD-based media could enrich homogeneous authentic pluripotent stem cells.

Highlights

IPS cells can be artificially produced from fibroblasts through the forced expression of Oct4, Sox2, Klf4, and c-Myc [1,2]
Mouse embryonic fibroblasts (MEFs) medium was replaced by different types of embryonic stem (ES) media on day 3, and the efficiencies of Induced pluripotent stem (iPS) cell induction were compared among these different induction media on day 12
On day 12 post-infection, iPS cell colonies induced by knockout serum replacement (KSR) were generally more compact than those induced by foetal bovine serum (FBS)

Summary

Introduction

IPS cells can be artificially produced from fibroblasts through the forced expression of Oct, Sox, Klf, and c-Myc [1,2]. Mouse iPS cells are able to produce viable mice through tetraploid complementation [3], demonstrating their authentic pluripotency, and Tbx and Zscan further enhance their pluripotency [3,4,5]. Possible explanations for these findings could be that the stoichiometry of reprogramming factors strongly influences the epigenetic state and pluripotency of iPS cells [6]. Mouse iPS cells can even be generated by a combination of small molecules without exogenes [15]

Methods

Results

Conclusion