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Notch activates cell cycle reentry and progression in quiescent cardiomyocytes.


ABSTRACT: The inability of heart muscle to regenerate by replication of existing cardiomyocytes has engendered considerable interest in identifying developmental or other stimuli capable of sustaining the proliferative capacity of immature cardiomyocytes or stimulating division of postmitotic cardiomyocytes. Here, we demonstrate that reactivation of Notch signaling causes embryonic stem cell-derived and neonatal ventricular cardiomyocytes to enter the cell cycle. The proliferative response of neonatal ventricular cardiomyocytes declines as they mature, such that late activation of Notch triggers the DNA damage checkpoint and G2/M interphase arrest. Notch induces recombination signal-binding protein 1 for Jkappa (RBP-Jkappa)-dependent expression of cyclin D1 but, unlike other inducers, also shifts its subcellular distribution from the cytosol to the nucleus. Nuclear localization of cyclin D1 is independent of RBP-Jkappa. Thus, the influence of Notch on nucleocytoplasmic localization of cyclin D1 is an unanticipated property of the Notch intracellular domain that is likely to regulate the cell cycle in multiple contexts, including tumorigenesis as well as cardiogenesis.

SUBMITTER: Campa VM 

PROVIDER: S-EPMC2557048 | biostudies-literature | 2008 Oct

REPOSITORIES: biostudies-literature

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Notch activates cell cycle reentry and progression in quiescent cardiomyocytes.

Campa Víctor M VM   Gutiérrez-Lanza Raquel R   Cerignoli Fabio F   Díaz-Trelles Ramón R   Nelson Brandon B   Tsuji Toshiya T   Barcova Maria M   Jiang Wei W   Mercola Mark M  

The Journal of cell biology 20081001 1


The inability of heart muscle to regenerate by replication of existing cardiomyocytes has engendered considerable interest in identifying developmental or other stimuli capable of sustaining the proliferative capacity of immature cardiomyocytes or stimulating division of postmitotic cardiomyocytes. Here, we demonstrate that reactivation of Notch signaling causes embryonic stem cell-derived and neonatal ventricular cardiomyocytes to enter the cell cycle. The proliferative response of neonatal ven  ...[more]

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