Decoding the language of PLK1 docking motifs and activation mechanisms

Esposito-Verza A, Musacchio A, Conti D. (2025). Trends Cell Biol.
 

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Polo-like kinase 1 (PLK1) phosphorylates a plethora of different substrates to regulate key cell cycle processes that include, among others, mitotic entry, chromosome condensation, nuclear envelope breakdown, centrosome maturation, spindle assembly and chromosome biorientation, cytokinesis, and the deposition of the specialized centromere histone CENP-A. Addressing the exact spatial and temporal control of PLK1 activity in these processes and its dynamic interplay with protein phosphatases that counteract mitotic phosphorylation, most notably PP1 and PP2A, has proven especially puzzling. In this review, we focus on the main unknowns in the area of human PLK1 regulation, exploring more specifically an emerging concept that master docking sites, including newly discovered noncanonical motifs, trigger initial local activation of PLK1 that promotes subsequent localized spreading of phosphorylation.