Signaling pathways regulating proliferation of mouse embryonic stem cells

Mouse embryonic stem (MES) cells possess joint abilities for unlimited proliferation and maintenance of pluripotency during long-term cultivation. The regulation of the cell cycle of these cells is of great interest. This review is focused on the regulation of the cell cycle of these cells via different signaling pathways (LIF-STAT3, PI3K-Akt, β-catenin). The mechanisms underlying the unlimited proliferation of MES cells and their inability to long-term block of proliferation in response to DNA-damaging and stress factors are discussed. The functioning of negative (cyclin-kinase inhibitors and Rb) and positive (cyclin-kinase complexes and E2F factors) cell cycle regulators are also the topics of this survey. Permanent mitogenic stimuli are thought to prevent the induction of apoptosis; in any case, agents which cause a prolonged halt to proliferation without stimulating the onset of differentiation or the induction of apoptosis are currently unknown. Special concern is given to the role of the Wnt signaling pathway in sustaining the pluripotent state of MES cells. Cell cycle regulation by downstream targets of LIF-STAT3, PI3-kinase and β-catenin pathways is discussed in light of the cooperative action of these pathways in the maintenance of undifferentiated states of MES cells. © Pleiades Publishing, Ltd. 2007.