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ABSTRACT: Cdc14 is a dual-specific phosphatase with relevant functions during mitotic exit in yeast. The relevance of vertebrate Cdc14 phosphatases is not well understood due to the presence of two paralogs, Cdc14A and Cdc14B, and their dispensability for cell cycle progression. Here, we report that overexpression of mammalian Cdc14B, but not Cdc14A, leads to dramatic changes in morphology and malignant transformation of normal murine fibroblasts. Cdc14B disrupts the cytoskeletal F-actin organization with loss of actin stress fibers and vinculin adhesions in a phosphatase-dependent manner. These morphological changes are associated to cellular transformation, as Cdc14B-overexpressing cells display anchorage-independent growth and are able to form tumors in vivo. These alterations are similar to those induced by Ras oncogenes ,and both Cdc14B and H-RasV12 lead to similar changes in the transcriptional profile of transformed cells. Pharmacologic inhibition of the Ras-Mek pathway rescues these defects. These data suggest that Cdc14B, but not Cdc14A, is one of the few phosphatases that display oncogenic activity in mammals and point to the Ras-MAP kinase pathway as a major effector pathway during oncogenic transformation by Cdc14B.
Cell cycle (Georgetown, Tex.) 05/2011; 10(10):1607-17. · 5.36 Impact Factor
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ABSTRACT: Cdc14 is an essential phosphatase in yeast but its role in the mammalian cell cycle remains obscure. We report here that Cdc14b-knockout cells display unscheduled induction of multiple cell cycle regulators resulting in early entry into DNA replication and mitosis from quiescence. Cdc14b dephosphorylates Ser5 at the C-terminal domain (CTD) of RNA polymerase II, a major substrate of cyclin-dependent kinases. Lack of Cdc14b results in increased CTD-Ser5 phosphorylation, epigenetic modifications that mark active chromatin, and transcriptional induction of cell cycle regulators. These data suggest a function for mammalian Cdc14 phosphatases in the control of transcription during the cell cycle.
Scientific Reports 01/2011; 1:189.
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ABSTRACT: Targeting mitotic exit has been recently proposed as a relevant therapeutic approach against cancer. By using genetically engineered mice, we show that the APC/C cofactor Cdc20 is essential for anaphase onset in vivo in embryonic or adult cells, including progenitor/stem cells. Ablation of Cdc20 results in efficient regression of aggressive tumors, whereas current mitotic drugs display limited effects. Yet, Cdc20 null cells can exit from mitosis upon inactivation of Cdk1 and the kinase Mastl (Greatwall). This mitotic exit depends on the activity of PP2A phosphatase complexes containing B55α or B55δ regulatory subunits. These data illustrate the relevance of critical players of mitotic exit in mammals and their implications in the balance between cell death and mitotic exit in tumor cells.
Cancer cell 12/2010; 18(6):641-54. · 25.29 Impact Factor
