M. S. Lianguzova scite author profile

Mouse embryonic stem cells (mESC) are characterized by high proliferation activity. mESC are highly sensitive to genotoxic stresses and do not undergo G 1 /S checkpoint upon DNA-damage. mESC are supposed to develop sensitive mechanisms to maintain genomic integrity provided by either DNA damage repair or elimination of defected cells by apoptosis. The issue of how mESC recognize the damages and execute DNA repair remains to be studied. We analyzed the kinetics of DNA repair foci marked by antibodies to phosphorylated ATM kinase and histone H2AX (γH2AX). We showed that mESC display non-induced DNA single-strand breaks (SSBs), as revealed by comet-assay, and a noticeable background of γH2AX staining. Exposure of mESC to γ-irradiation induced the accumulation of phosphorylated ATM-kinase in the nucleus as well as the formation of additional γH2AX foci, which disappeared thereafter. To decrease the background of γH2AX staining in control non-irradiated cells, we pre-synchronized mESC at the G 2 /M by low concentration of nocodazol for a short time (6 h). The cells were then irradiated and stained for γH2AX. Irradiation induced the formation of γH2AX foci both in G 2 -phase and mitotic cells, which evidenced for the active state of DNA-damage signaling at these stages of the cell cycle in mESC. Due to the G 1 /S checkpoint is compromised in mESCs, we checked, whether wild-type p53, a target for ATM kinase, was phosphorylated in response to γ-irradiation. The p53 was barely phosphorylated in response to irradiation, which correlated with a very low expression of p53-target p21/Waf1 gene. Thus, in spite of the dysfunction of the p53/Waf1 pathway and the lack of cell cycle checkpoints, the mESC are capable of activating ATM and inducing γH2AX foci formation, which are necessary for the activation of DNA damage response.

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Phosphoinositide 3‐kinase inhibitor LY294002 but not serum withdrawal suppresses proliferation of murine embryonic stem cells

Lianguzova

Chuykin

Nordheim

et al. 2007

Cell Biology International

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Mouse embryonic stem (mES) cells have short duration of their cell cycle and are capable of proliferating in the absence of growth factors. To find out which signaling pathways contribute to the regulation of the mES cell cycle, we used pharmacological inhibitors of MAP and PI3 kinase cascades. The MAP kinase inhibitors as well as serum withdrawal did not affect mES cell cycle distribution, whereas the inhibitor of PI3K activity, LY294002, induced accumulation of cells in G(1) phase followed by apoptotic cell death. Serum withdrawal also causes apoptosis, but it does not change the content and activity of cell cycle regulators. In contrast, in mES cells treated with LY294002, the activities of Cdk2 and E2F were significantly decreased. Interestingly, LY294002had a much stronger effect on cell cycle distribution in low serum conditions, implying that serum can promote G(1)-->S transition of mES cells by a LY294002-resistant mechanism. Thus, proliferation of mES cells is maintained by at least two separate mechanisms: a LY294002-sensitive pathway, which is active even in the absence of serum, and LY294002-resistant, but serum-dependent, pathway.

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β-catenin does not show nuclear location in undifferentiated murine embryonic stem cells

2006

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Signaling pathways regulating proliferation of mouse embryonic stem cells

2007

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M. S. Lianguzova

Activation of DNA damage response signaling in mouse embryonic stem cells

Phosphoinositide 3‐kinase inhibitor LY294002 but not serum withdrawal suppresses proliferation of murine embryonic stem cells

β-catenin does not show nuclear location in undifferentiated murine embryonic stem cells

Signaling pathways regulating proliferation of mouse embryonic stem cells

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