Critical Role for P53 in Regulating the Cell Cycle of Ground State Embryonic Stem Cells

Summary: Mouse embryonic stem cells (ESCs) grown in serum-supplemented conditions are characterized by an extremely short G1 phase due to the lack of G1-phase control. Concordantly, the G1-phase-specific P53-P21 pathway is compromised in serum ESCs. Here, we provide evidence that P53 is activated upon transition of serum ESCs to their pluripotent ground state using serum-free 2i conditions and that is required for the elongated G1 phase characteristic of ground state ESCs. RNA sequencing and chromatin immunoprecipitation sequencing analyses reveal that P53 directly regulates the expression of the retinoblastoma (RB) protein and that the hypo-phosphorylated, active RB protein plays a key role in G1-phase control. Our findings suggest that the P53-P21 pathway is active in ground state 2i ESCs and that its role in the G1-checkpoint is abolished in serum ESCs. Taken together, the data reveal a mechanism by which inactivation of P53 can lead to loss of RB and uncontrolled cell proliferation. : Compared with somatic cells, mouse embryonic stem cells (ESCs) grown in serum-rich conditions display a shortened G1 phase and lack activity of the P53-P21 pathway. Stunnenberg and colleagues show that P53 is activated upon adaptation of ESCs to their pluripotent ground state in serum-free conditions. P53 modulates elongation of the G1 phase not via P21, but through transcriptional activation of the RB protein. Keywords: embryonic stem cells, G1 checkpoint, P53, RB