Establishment of drug screening in human embryonic stem cells based on a high-content screening system

High-content screening (HCS) systems can be used for high-throughput screening of drugs in human embryonic stem cells (hESCs). However, hESCs require immunofluorescence staining with stemness markers (e.g., Oct-4) prior to HCS, which can be time consuming and labor intensive. In this study, we employed transgenic hESCs with enhanced green fluorescent protein driven by stemness gene Oct-4 promoter (Oct-4-EGFP-H9), in which the colony area and relative green fluorescence area inferred a state of hESC proliferation and stemness, respec-tively. The Oct-4-EGFP-H9 transgenic hESCs were cultured in mTeSR medium with different concentrations of 5Fluorouracil (5-FU), vitamin C (VC), or retinoic acid (RA) for 5-7 days, followed by repeated imaging using the HCS system. Finally, the hESC colony area and green fluorescence area were calculated. Results showed that 5 FU treatment markedly reduced colony area in a dose-dependent manner, whereas VC and RA treatments did not. MTT assay and flow cytometry indicated that 5-FU inhibited the proliferation of hESCs significantly, verifying reliability of the data from the HCS system based on colony area analysis. The green fluorescence to total colony area ratio decreased with RA treatment, suggesting that RA significantly promoted differentiation, whereas 5-FU and VC had almost no effect, as verified by quantitative real-time polymerase chain reaction and western blot analysis. In conclusion, our study established a rapid and efficient drug screening system without the requirement of staining based on HCS.