Heterogeneous cell-cycle behavior in response to UVB irradiation by a population of single cancer cells visualized by time-lapse FUCCI imaging

The present study analyzed the heterogeneous cell-cycle dependence and fate of single cancer cells in a population treated with UVB using a fluorescence ubiquitination-based cell-cycle (FUCCI) imaging system. HeLa cells expressing FUCCI were irradiated by 100 or 200 J/m² UVB. Modulation of the cell-cycle and apoptosis were observed by time-lapse confocal microscopy imaging every 30 min for 72 h. Correlation between cell survival and factors including cell-cycle phase at the time of the irradiation of UVB, mitosis and the G1/S transition were analyzed using the Kaplan–Meier method along with the log rank test. Time-lapse FUCCI imaging of HeLa cells demonstrated that UVB irradiation induced cell-cycle arrest in S/G₂/M phase in the majority of the cells. The cells irradiated by 100 or 200 J/m2 UVB during G₀/G₁ phase had a higher survival rate than the cells irradiated during S/G₂/M phase. A minority of cells could escape S/G₂/M arrest and undergo mitosis which significantly correlated with decreased survival of the cells. In contrast, G₁/S transition significantly correlated with increased survival of the cells after UVB irradiation. UVB at 200 J/m² resulted in a greater number of apoptotic cells