Plk1 inhibition delays mitotic entry revealing prophase-specific changes to the phosphoproteome

Polo-like kinase 1 (plk1) is a conserved regulator of cell division. During prophase, plk1 phosphorylates direct substrates and is involved in activation of the cyclin-dependent kinase 1 (cdk1). However, the exact functions of plk1 in prophase remain incompletely understood. By testing several cell lines and small-molecule inhibitors, we confirm that plk1 inhibition causes a delay in mitotic entry. We show that cells are delayed in a prophase-like state displaying progressively condensing chromosomes, increased microtubule dynamics, reorganization of the actin cortex, while the nuclear envelope remains intact. We show that during this prolonged prophase cdk1 activity increases gradually over several hours with individual cells stochastically reaching the entry threshold, explaining the highly variable timing of mitotic entry. We then use phosphoproteomics to characterize this prolonged prophase state revealing for the first time phosphosites specific to prophase including several regulators of chromatin organization and the cytoskeleton. Together, we show that plk1 functions as a catalyst of prophase to prometaphase transition, and by using plk1 inhibition as a tool, we identify early changes in the phosphoproteome as the cell prepares for division.