Litcius/Paper detail

CDK activity at the centrosome regulates the cell cycle

Emma L. Roberts, J. Greenwood, Nitin Kapadia, Tania Auchynnikava, Souradeep Basu, Paul Nurse

2024Cell Reports11 citationsDOIOpen Access PDF

Abstract

In human cells and yeast, an intact "hydrophobic patch" substrate docking site is needed for mitotic cyclin centrosomal localization. A hydrophobic patch mutant (HPM) of the fission yeast mitotic cyclin Cdc13 cannot enter mitosis, but whether this is due to defective centrosomal localization or defective cyclin-substrate docking more widely is unknown. Here, we show that artificially restoring Cdc13-HPM centrosomal localization promotes mitotic entry and increases CDK (cyclin-dependent kinase) substrate phosphorylation at the centrosome and in the cytoplasm. We also show that the S-phase B-cyclin hydrophobic patch is required for centrosomal localization but not for S phase. We propose that the hydrophobic patch is essential for mitosis due to its requirement for the local concentration of cyclin-CDK with CDK substrates and regulators at the centrosome. Our findings emphasize the central importance of the centrosome as a hub coordinating cell-cycle control and explain why the cyclin hydrophobic patch is essential for mitosis.

Topics & Concepts

Cell biologyCentrosomeCyclin-dependent kinaseCyclin APolo-like kinaseMitosisMitotic exitCyclin A2BiologyCyclin BCyclin DCentrosome cycleChemistryCell cycleCyclinSpindle apparatusBiochemistryCellCell divisionMicrotubule and mitosis dynamicsPhotosynthetic Processes and MechanismsCancer-related Molecular Pathways