The Mitotic Checkpoint Complex controls the association of Cdc20 regulatory protein with the ubiquitin ligase APC/C in mitosis.

The ubiquitin ligase Anaphase-Promoting Complex/Cyclosome (APC/C) and its regulatory protein Cdc20 play important roles in the control of different stages of mitosis. APC/C associated with Cdc20 is active and promotes metaphase-anaphase transition by targeting for degradation inhibitors of anaphase initiation. Earlier in mitosis, premature action of APC/C is prevented by the mitotic checkpoint (or spindle assembly checkpoint) system, which ensures that anaphase is not initiated until all chromosomes are properly attached to the mitotic spindle. The active mitotic checkpoint system promotes the assembly of a Mitotic Checkpoint Complex (MCC), which binds to APC/C and inhibits its activity. The interaction of MCC with APC/C is strongly enhanced by Cdc20 bound to APC/C. While the association of Cdc20 with APC/C was known to be essential for both these stages of mitosis, it was not known how Cdc20 remains bound in spite of ongoing processes, phosphorylation and ubiquitylation, that stimulate its release from APC/C. We find that MCC strongly inhibits the release of Cdc20 from APC/C by the action of mitotic protein kinase Cdk1-cyclin B. This is not due to protection from phosphorylation of specific sites in Cdc20 that affect its interaction with APC/C. Rather, MCC stabilizes the binding to APC/C of partially phosphorylated forms of Cdc20. MCC also inhibits the autoubiquitylation of APC/C-bound Cdc20 and its ubiquitylation-promoted release from APC/C. We propose that these actions of MCC to maintain Cdc20 bound to APC/C in mitosis are essential for the control of mitosis during active mitotic checkpoint and in subsequent anaphase initiation.