Publication

Cdk2 strengthens the intra-S checkpoint and counteracts cell cycle exit induced by DNA damage

Résumé

Although cyclin-dependent kinase 2 (Cdk2) controls the G1/S transition and promotes DNA replication, it is dispensable for cell cycle progression due to redundancy with Cdk1. Yet Cdk2 also has non-redundant functions that can be revealed in certain genetic backgrounds and it was reported to promote the G2/M DNA damage response checkpoint in TP53 (p53)-deficient cancer cells. However, in p53-proficient cells subjected to DNA damage, Cdk2 is inactivated by the CDK inhibitor p21. We therefore investigated whether Cdk2 differentially affects checkpoint responses in p53-proficient and deficient cell lines. We show that, independently of p53 status, Cdk2 stimulates the ATR/Chk1 pathway and is required for an efficient DNA replication checkpoint response. In contrast, Cdk2 is not required for a sustained DNA damage response and G2 arrest. Rather, eliminating Cdk2 delays S/G2 progression after DNA damage and accelerates appearance of early markers of cell cycle exit. Notably, Cdk2 knockdown leads to down-regulation of Cdk6, which we show is a non-redundant pRb kinase whose elimination compromises cell cycle progression. Our data reinforce the notion that Cdk2 is a key p21 target in the DNA damage response whose inactivation promotes exit from the cell cycle in G2.

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Concepts associés (36)
Cell cycle checkpoint
Cell cycle checkpoints are control mechanisms in the eukaryotic cell cycle which ensure its proper progression. Each checkpoint serves as a potential termination point along the cell cycle, during which the conditions of the cell are assessed, with progression through the various phases of the cell cycle occurring only when favorable conditions are met. There are many checkpoints in the cell cycle, but the three major ones are: the G1 checkpoint, also known as the Start or restriction checkpoint or Major Checkpoint; the G2/M checkpoint; and the metaphase-to-anaphase transition, also known as the spindle checkpoint.
Cycle cellulaire
vignette|335x335px|Cycle cellulaire d'une cellule eucaryote (car présence de la mitose) Le cycle cellulaire est l'ensemble des étapes qui constituent et délimitent la vie d'une cellule. Ce cycle est composé de plusieurs phases de croissance dans lesquelles la cellule grossit et duplique son matériel génétique (interphase) et d'une phase où celle-ci se divise (mitose) pour donner naissance à deux cellules filles identiques (dans le cas de la mitose). Les cellules filles reproduiront ce cycle, et ainsi de suite.
Réparation de l'ADN
right|vignette|Chromosomes montrant de nombreuses lésions. La réparation de l'ADN est un ensemble de processus par lesquels une cellule identifie et corrige les dommages aux molécules d'ADN qui codent son génome. Dans les cellules, l'acide désoxyribonucléique (ADN) est soumis continuellement à des activités métaboliques normales et à des facteurs environnementaux portant atteinte à son intégrité. Ces facteurs environnementaux sont le plus souvent de nature chimique comme les radicaux libres de l'oxygène et les agents alkylants, ou physique, comme les radiations ultraviolettes et les rayonnements ionisants.
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