The "starter" and "gas pedal" of mitosis reside at the centrosome: Commentary on "Characterization of centrosomal localization and dynamics of CDC25C phosphatase in mitosis" by Bonnet et al.

Abstract

The CDC25 phosphatases play an essential role in the spatial and temporal regulation of the control of entry into mitosis. These enzymes dephosphorylate and activate the CDK-cyclin complexes, in particular CDK1-cyclin B1, the master regulator of mitosis. Three CDC25 genes in exist in humans (CDC25A, CDC25B and CDC25C), and the original model of their function proposed that they acted sequentially at discrete cell cycle transitions, i.e., that CDC25A was dedicated to the activation of the G1/S progression-associated CDKs, CDC25B controlled early prophase events, while CDC25C was thought to achieve the full activation of CDK1-cyclin B1 at entry into mitosis. Indeed, the situation appears much more complicated than this, and current evidence shows that all three CDC25 phosphatases act at a variety of mitotic stages, with and considerable experimental evidence to indicate that all three are involved in orchestrating cell cycle progression in mitosis.1 Previous work has led to the proposal that CDC25B acts as ...