Currently, plentiful chemical-assisted methods have been applied for mouse induced pluripotent stem cells (iPSCs). It has been reported that small-molecule compounds can only reprogram mouse embryonic fibroblasts into mouse chemically induced pluripotent stem cells (mouse CiPSCs). However, human CiPSCs have not been reported. Therefore, it is still necessary to search for safer chemically assisted human pluripotent stem cells, which might realize the potential of human iPSCs. Here, we developed two sets of chemical cocktails to greatly improve the induction efficiency of human nonintegrated iPSCs, including the 4 compound mixture (4M) and the 5 compound mixture (4MI). These two sets of complex driving strategies might greatly improve the reprogramming efficiency to generate integration-free iPSCs.
Keywords: high efficiency; human iPSC; safety concerns; two sets of compound complex driving.