Maintenance of chromosomal stability depends on error-free chromosome segregation. The pseudokinase BUBR1 is essential for this, because it is a core component of the mitotic checkpoint and is required for formation of stable kinetochore-microtubule attachments. We have identified a conserved and highly phosphorylated domain (KARD) in BUBR1 that is crucial for formation of kinetochore-microtubule attachments. Deletion of this domain or prevention of its phosphorylation abolishes formation of kinetochore microtubules, which can be reverted by inhibiting Aurora B activity. Phosphorylation of KARD by PLK1 promotes direct interaction of BUBR1 with the PP2A-B56α phosphatase that counters excessive Aurora B activity at kinetochores. As a result, removal of BUBR1 from mitotic cells or inhibition of PLK1 reduces PP2A-B56α kinetochore binding and elevates phosphorylation of Aurora B substrates on the outer kinetochore. We propose that PLK1 and BUBR1 cooperate to stabilize kinetochore-microtubule interactions by regulating PP2A-B56α-mediated dephosphorylation of Aurora B substrates at the kinetochore-microtubule interface.
Centrosomes comprise a pair of centrioles surrounded by an amorphous pericentriolar material (PCM). Here, we have performed a microscopy-based genome-wide RNA interference (RNAi) screen in Drosophila cells to identify proteins required for centriole duplication and mitotic PCM recruitment. We analysed 92% of the Drosophila genome (13,059 genes) and identified 32 genes involved in centrosome function. An extensive series of secondary screens classified these genes into four categories: (1) nine are required for centriole duplication, (2) 11 are required for centrosome maturation, (3) nine are required for both functions, and (4) three genes regulate centrosome separation. These 32 hits include several new centrosomal components, some of which have human homologs. In addition, we find that the individual depletion of only two proteins, Polo and Centrosomin (Cnn) can completely block centrosome maturation. Cnn is phosphorylated during mitosis in a Polo-dependent manner, suggesting that the Polo-dependent phosphorylation of Cnn initiates centrosome maturation in flies.
Highlights d The majority of disseminating cells of colorectal cancer are Lgr5 À d Lgr5 À cancer cells are the main seeds of colorectal cancer metastatic lesions d Long-term metastatic growth from Lgr5 À cells requires appearance of Lgr5 + cells d Lgr5 À metastases have the intrinsic capacity to re-establish the cellular hierarchy
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