The mitotic surveillance pathway requires PLK1-dependent 53BP1 displacement from kinetochores

53BP1 acts at the crossroads between DNA repair and p53-mediated stress response. With its interactor USP28, it is part of the mitotic surveillance pathway (MSP), a sensor that monitors the duration of cell division, promoting p53-dependent cell cycle arrest when a critical time threshold is surpassed. 53BP1 dynamically associates with kinetochores, being recruited during prophase, and then undergoing a time-dependent loss of affinity. However, the relevance of this behaviour remains unclear. Here, we identify CENP-F as an interaction partner and kinetochore receptor for 53BP1. By engineering human cells with a CENP-F point mutation, we demonstrate that preventing 53BP1 kinetochore localization does not reduce MSP proficiency. Strikingly, however, preventing the loss of 53BP1 from the kinetochore by inhibiting Polo-like kinase 1 (PLK1) restrains MSP activity, a phenomenon that is abrogated in the CENP-F mutant condition. Taken together, we demonstrate that kinetochore-loaded 53BP1 represents an MSP functionally inhibited state and that PLK1-dependent re-localization of 53BP1 represents an important layer of MSP regulation.