Generation of mouse iPS cells using an inducible expression of transgenes via the cumate gene-switch

We applied an inducible gene expression system that utilizes the p-cmt operon, the cumate gene-switch, to generate mouse induced pluripotent stem (iPS) cells. Mouse embryonic fibroblast (MEF) E6E7-MEF cells were transfected with a single cumate gene-switch vector enabling concomitant expression of Oct4, Sox2, c-Myc, Klf4, and Gfp. Then, the cells were cultured with cumate, a monoterpene. An increase in colonies positive for alkaline phosphatase activity was observed dose-dependently with cumate. In the absence of cumate, the expression of GFP, a marker for transgene expression, was undetectable in tightly aggregated iPS cell-like colonies with endogenous expression of NANOG and OCT4. From primary MEFs using the cumate gene-switch, we also isolated iPS cells expressing endogenous NANOG, OCT4, SOX2, KLF4, and SSEA1 with hypo-methylated genomic promoter regions of endogenous Nanog and Oct4. In embryoid bodies with the progression of differentiation, expression of markers for all three germ layers was detected, and contracting cardiomyocytes were observed. Overall, we suggest that the cumate gene-switch is applicable for the generation of mouse iPS cells. The cumate gene-switch in combination with other inducible systems, such as the tet system, may provide useful approaches for analyzing the roles of transgenes underlying the establishment of iPS cells.