KIF2C-induced nuclear condensation concentrates PLK1 and phosphorylated BRCA2 at the kinetochore microtubules in mitosis

During mitosis, the human microtubule depolymerase KIF2C increases the turnover of kinetochore-microtubule attachments. This facilitates the correction of attachment errors. Moreover, BRCA2 phosphorylated at Thr207 by PLK1 (BRCA2-pT207) assembles a complex including PLK1, PP2A and BUBR1 that contributes to the stability of the kinetochore-microtubule attachments. PLK1, together with Aurora B, critically regulate the accurate segregation of chromosomes. Here we demonstrate that KIF2C contains an N-terminal domain that binds directly to several phosphorylated peptides, including BRCA2-pT207. Using an optogenetic platform, we reveal that KIF2C assembles into membrane-less compartments or biomolecular condensates that are located next to microtubules. We provide evidence that condensate assembly depends on the presence of the newly defined N-terminal phospho-binding domain of KIF2C and on the kinase activities of Aurora B and PLK1. Moreover, KIF2C condensates concentrate active PLK1 and colocalize with BRCA2-pT207. We propose that, because of its phospho-dependent binding and oligomerization capacities, KIF2C forms biomolecular condensates that partition PLK1 and locally amplify its kinase activity during mitosis. ![Figure][1] ### Competing Interest Statement The authors have declared no competing interest. [1]: pending:yes