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Mitotic slippage is determined by p31comet and the weakening of the spindle-assembly checkpoint

Tsun Ming Lok, Yang Wang, Wendy Kaichun Xu, Siwei Xie, Hoi Tang, Randy Y.C. Poon

2020Oncogene57 citationsDOIOpen Access PDF

Abstract

Abstract Mitotic slippage involves cells exiting mitosis without proper chromosome segregation. Although degradation of cyclin B1 during prolonged mitotic arrest is believed to trigger mitotic slippage, its upstream regulation remains obscure. Whether mitotic slippage is caused by APC/C CDC20 activity that is able to escape spindle-assembly checkpoint (SAC)-mediated inhibition, or is actively promoted by a change in SAC activity remains an outstanding issue. We found that a major culprit for mitotic slippage involves reduction of MAD2 at the kinetochores, resulting in a progressive weakening of SAC during mitotic arrest. A further level of control of the timing of mitotic slippage is through p31 comet -mediated suppression of MAD2 activation. The loss of kinetochore MAD2 was dependent on APC/C CDC20 , indicating a feedback control of APC/C to SAC during prolonged mitotic arrest. The gradual weakening of SAC during mitotic arrest enables APC/C CDC20 to degrade cyclin B1, cumulating in the cell exiting mitosis by mitotic slippage.

Topics & Concepts

Mad2Mitotic exitSpindle checkpointMitosisBiologyCell biologyKinetochoreSlippageSpindle apparatusCell divisionGeneticsChromosomeCellMaterials scienceGeneComposite materialMicrotubule and mitosis dynamicsGenomics and Chromatin DynamicsCancer-related Molecular Pathways
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