Jakob Nilsson scite author profile

The Spindle Assembly Checkpoint (SAC) is required to block sister chromatid separation until all chromosomes are properly attached to the mitotic apparatus. The SAC prevents cells entering anaphase by inhibiting the ubiquitination of cyclin B1 and securin by the Anaphase Promoting Complex/Cyclosome (APC/C) ubiquitin ligase. The target of the SAC is the essential APC/C activator, Cdc20. It is unclear how the SAC inactivates Cdc20 but current models mostly involve Cdc20 forming a stable complex with the Mad2 checkpoint protein. Here we show that most Cdc20 is not in a complex with Mad2; instead Mad2 is required for Cdc20 to form a complex with another checkpoint protein, BubR1. We further show that during the SAC the APC/C ubiquitinates Cdc20 to target it for degradation. Thus, ubiquitination of human Cdc20 is not required to release it from the checkpoint complex, but to degrade it to maintain mitotic arrest.

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A Conserved Motif Provides Binding Specificity to the PP2A-B56 Phosphatase

Hertz

et al. 2016

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Dynamic protein phosphorylation is a fundamental mechanism regulating biological processes in all organisms. Protein phosphatase 2A (PP2A) is the main source of phosphatase activity in the cell, but the molecular details of substrate recognition are unknown. Here, we report that a conserved surface-exposed pocket on PP2A regulatory B56 subunits binds to a consensus sequence on interacting proteins, which we term the LxxIxE motif. The composition of the motif modulates the affinity for B56, which in turn determines the phosphorylation status of associated substrates. Phosphorylation of amino acid residues within the motif increases B56 binding, allowing integration of kinase and phosphatase activity. We identify conserved LxxIxE motifs in essential proteins throughout the eukaryotic domain of life and in human viruses, suggesting that the motifs are required for basic cellular function. Our study provides a molecular description of PP2A binding specificity with broad implications for understanding signaling in eukaryotes.

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Direct binding between BubR1 and B56–PP2A phosphatase complexes regulate mitotic progression

et al. 2013

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SummaryBubR1 is a central component of the spindle assembly checkpoint that inhibits progression into anaphase in response to improper kinetochore-microtubule interactions. In addition, BubR1 also helps stabilize kinetochore-microtubule interactions by counteracting the Aurora B kinase but the mechanism behind this is not clear. Here we show that BubR1 directly binds to the B56 family of protein phosphatase 2A (PP2A) regulatory subunits through a conserved motif that is phosphorylated by cyclin-dependent kinase 1 (Cdk1) and polo-like kinase 1 (Plk1). Two highly conserved hydrophobic residues surrounding the serine 670 Cdk1 phosphorylation site are required for B56 binding. Mutation of these residues prevents the establishment of a proper metaphase plate and delays cells in mitosis. Furthermore, we show that phosphorylation of serines 670 and 676 stimulates the binding of B56 to BubR1 and that BubR1 targets a pool of B56 to kinetochores. Our data suggest that BubR1 counteracts Aurora B kinase activity at improperly attached kinetochores by recruiting B56-PP2A phosphatase complexes.

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Jakob Nilsson

The APC/C maintains the spindle assembly checkpoint by targeting Cdc20 for destruction

A Conserved Motif Provides Binding Specificity to the PP2A-B56 Phosphatase

Direct binding between BubR1 and B56–PP2A phosphatase complexes regulate mitotic progression

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