Cyclin E Ablation in the Mouse
Copyright policy )Cyclin E Ablation in the Mouse
E type cyclins (E1 and E2) are believed to drive cell entry into the S phase. It is widely assumed that the two E type cyclins are critically required for proliferation of all cell types. Here, we demonstrate that E type cyclins are largely dispensable for mouse development. However, endoreplication of trophoblast giant cells and megakaryocytes is severely impaired in the absence of cyclin E. Cyclin E-deficient cells proliferate actively under conditions of continuous cell cycling but are unable to reenter the cell cycle from the quiescent G(0) state. Molecular analyses revealed that cells lacking cyclin E fail to normally incorporate MCM proteins into DNA replication origins during G(0)-->S progression. We also found that cyclin E-deficient cells are relatively resistant to oncogenic transformation. These findings define a molecular function for E type cyclins in cell cycle reentry and reveal a differential requirement for cyclin E in normal versus oncogenic proliferation.
- Harvard University United States
- Tufts University United States
- DANA-FARBER CANCER INSTITUTE
- Massachusetts Institute of Technology United States
- University of Oxford United Kingdom
DNA Replication, Male, Cell-Cycle, Placenta, Cardiovascular Abnormalities, 610, DNA-Replication, Mice, Pregnancy, Gene-Targeting, SUPPORT-U-S-GOVT-P-H-S, Cyclin E, Animals, Spermatogenesis, Cardiovascular-Abnormalities, Mice, Knockout, Cyclin-E, Biochemistry, Genetics and Molecular Biology(all), Cell Cycle, Cell-Transformation-Neoplastic, Mice-Knockout, Embryo, Mammalian, Trophoblasts, Cell Transformation, Neoplastic, Embryo, Gene Targeting, Female, Megakaryocytes
DNA Replication, Male, Cell-Cycle, Placenta, Cardiovascular Abnormalities, 610, DNA-Replication, Mice, Pregnancy, Gene-Targeting, SUPPORT-U-S-GOVT-P-H-S, Cyclin E, Animals, Spermatogenesis, Cardiovascular-Abnormalities, Mice, Knockout, Cyclin-E, Biochemistry, Genetics and Molecular Biology(all), Cell Cycle, Cell-Transformation-Neoplastic, Mice-Knockout, Embryo, Mammalian, Trophoblasts, Cell Transformation, Neoplastic, Embryo, Gene Targeting, Female, Megakaryocytes
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