1. Academic Validation
  2. Proximity-based activation of AURORA A by MPS1 potentiates error correction

Proximity-based activation of AURORA A by MPS1 potentiates error correction

  • bioRxiv. 2024 Jun 13:2024.06.11.598300. doi: 10.1101/2024.06.11.598300.
Nelson Leça Francisca Barbosa Sergi Rodriguez-Calado Margarida Moura Paulo D Pedroso Inês Pinto Arianna E Verza Tanja Bange Claudio E Sunkel Marin Barisic Thomas J Maresca Carlos Conde
Abstract

Faithfull cell division relies on mitotic chromosomes becoming bioriented with each pair of sister kinetochores bound to microtubules oriented toward opposing spindle poles. Erroneous kinetochore-microtubule attachments often form during early mitosis, but are destabilized through the phosphorylation of outer kinetochore proteins by centromeric Aurora B kinase (ABK) and centrosomal Aurora A kinase (AAK), thus allowing for re-establishment of attachments until biorientation is achieved. MPS1-mediated phosphorylation of NDC80 has also been shown to directly weaken the kinetochore-microtubule interface in yeast. In human cells, Mps1 has been proposed to transiently accumulate at end-on attached kinetochores and phosphorylate SKA3 to promote microtubule release. Whether Mps1 directly targets NDC80 and/or promotes the activity of AURORA kinases in metazoans remains unclear. Here, we report a novel mechanism involving communication between kinetochores and centrosomes, wherein Mps1 acts upstream of AAK to promote error correction. Mps1 on pole-proximal kinetochores phosphorylates the C-lobe of AAK thereby increasing its activation at centrosomes. This proximity-based activation ensures the establishment of a robust AAK activity gradient that locally destabilizes mal-oriented kinetochores near spindle poles. Accordingly, Mps1 depletion from Drosophila cells causes severe chromosome misalignment and erroneous kinetochore-microtubule attachments, which can be rescued by tethering either Mps1 or constitutively active AAK mutants to centrosomes. Proximity-based activation of AAK by Mps1 also occurs in human cells to promote AAK-mediated phosphorylation of the NDC80 N-terminal tail. These findings uncover an MPS1-AAK cross-talk that is required for efficient error correction, showcasing the ability of kinetochores to modulate centrosome outputs to ensure proper chromosome segregation.

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