Cdc20 and Cks Direct the Spindle Checkpoint-Independent Destruction of Cyclin A

Rob Wolthuis; Lori Clay-Farrace; Wouter van Zon; Mona Yekezare; Lars Koop; Janneke Ogink; René Medema; Jonathon Pines

doi:https://doi.org/10.1016/j.molcel.2008.02.027

Cdc20 and Cks Direct the Spindle Checkpoint-Independent Destruction of Cyclin A

Rob Wolthuis, Lori Clay-Farrace, Wouter van Zon, Mona Yekezare, Lars Koop, Janneke Ogink, René Medema, Jonathon Pines

Research output: Contribution to journal › Article › Academic › peer-review

156 Citations (Scopus)

Abstract

Successful mitosis requires the right protein be degraded at the right time. Central to this is the spindle checkpoint that prevents the destruction of securin and cyclin B1 when there are improperly attached chromosomes. The principal target of the checkpoint is Cdc20, which activates the anaphase-promoting complex/cyclosome (APC/C). A Drosophila Cdc20/fizzy mutant arrests in mitosis with high levels of cyclins A and B, but paradoxically the spindle checkpoint does not stabilize cyclin A. Here, we investigated this paradox and found that Cdc20 is rate limiting for cyclin A destruction. Indeed, Cdc20 binds efficiently to cyclin A before and in mitosis, and this complex has little associated Mad2. Furthermore, the cyclin A complex must bind to a Cks protein to be degraded independently of the checkpoint. Thus, we identify a crucial role for the Cks proteins in mitosis and one mechanism by which the APC/C can target substrates independently of the spindle checkpoint.

Original language	English
Pages (from-to)	290-302
Number of pages	13
Journal	Molecular Cell
Volume	30
Issue number	3
DOIs	https://doi.org/10.1016/j.molcel.2008.02.027
Publication status	Published - 9 May 2008
Externally published	Yes

Keywords

CELLCYCLE
PROTEINS

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https://doi.org/10.1016/j.molcel.2008.02.027

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title = "Cdc20 and Cks Direct the Spindle Checkpoint-Independent Destruction of Cyclin A",

abstract = "Successful mitosis requires the right protein be degraded at the right time. Central to this is the spindle checkpoint that prevents the destruction of securin and cyclin B1 when there are improperly attached chromosomes. The principal target of the checkpoint is Cdc20, which activates the anaphase-promoting complex/cyclosome (APC/C). A Drosophila Cdc20/fizzy mutant arrests in mitosis with high levels of cyclins A and B, but paradoxically the spindle checkpoint does not stabilize cyclin A. Here, we investigated this paradox and found that Cdc20 is rate limiting for cyclin A destruction. Indeed, Cdc20 binds efficiently to cyclin A before and in mitosis, and this complex has little associated Mad2. Furthermore, the cyclin A complex must bind to a Cks protein to be degraded independently of the checkpoint. Thus, we identify a crucial role for the Cks proteins in mitosis and one mechanism by which the APC/C can target substrates independently of the spindle checkpoint.",

keywords = "CELLCYCLE, PROTEINS",

author = "Rob Wolthuis and Lori Clay-Farrace and {van Zon}, Wouter and Mona Yekezare and Lars Koop and Janneke Ogink and Ren{\'e} Medema and Jonathon Pines",

note = "Funding Information: We thank Jean-Yves Thuret, Mark Jackman, Anja Hagting, Nicole den Elzen, Takahiro Matsumoto, Hongtao Yu, Franz Herzog, and Jan Michael Peters for reagents, Jean-Yves Thuret for writing software, Nicole den Elzen for critically reading the manuscript, and Hein te Riele for fruitful discussions. We thank all our colleagues for their enthusiastic support. This work was supported by The Netherlands Cancer Society KWF-NKB grants 2003-1967 and 2007-3789, Vidi (R.W.) and Vici (R.M.) grants from The Netherlands Organisation for Fundamental Research, and a program grant (C29/A3211) to J.P. from Cancer Research UK.",

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AU - Wolthuis, Rob

AU - Clay-Farrace, Lori

AU - van Zon, Wouter

AU - Yekezare, Mona

AU - Koop, Lars

AU - Ogink, Janneke

AU - Medema, René

AU - Pines, Jonathon

N1 - Funding Information: We thank Jean-Yves Thuret, Mark Jackman, Anja Hagting, Nicole den Elzen, Takahiro Matsumoto, Hongtao Yu, Franz Herzog, and Jan Michael Peters for reagents, Jean-Yves Thuret for writing software, Nicole den Elzen for critically reading the manuscript, and Hein te Riele for fruitful discussions. We thank all our colleagues for their enthusiastic support. This work was supported by The Netherlands Cancer Society KWF-NKB grants 2003-1967 and 2007-3789, Vidi (R.W.) and Vici (R.M.) grants from The Netherlands Organisation for Fundamental Research, and a program grant (C29/A3211) to J.P. from Cancer Research UK.

PY - 2008/5/9

Y1 - 2008/5/9

N2 - Successful mitosis requires the right protein be degraded at the right time. Central to this is the spindle checkpoint that prevents the destruction of securin and cyclin B1 when there are improperly attached chromosomes. The principal target of the checkpoint is Cdc20, which activates the anaphase-promoting complex/cyclosome (APC/C). A Drosophila Cdc20/fizzy mutant arrests in mitosis with high levels of cyclins A and B, but paradoxically the spindle checkpoint does not stabilize cyclin A. Here, we investigated this paradox and found that Cdc20 is rate limiting for cyclin A destruction. Indeed, Cdc20 binds efficiently to cyclin A before and in mitosis, and this complex has little associated Mad2. Furthermore, the cyclin A complex must bind to a Cks protein to be degraded independently of the checkpoint. Thus, we identify a crucial role for the Cks proteins in mitosis and one mechanism by which the APC/C can target substrates independently of the spindle checkpoint.

AB - Successful mitosis requires the right protein be degraded at the right time. Central to this is the spindle checkpoint that prevents the destruction of securin and cyclin B1 when there are improperly attached chromosomes. The principal target of the checkpoint is Cdc20, which activates the anaphase-promoting complex/cyclosome (APC/C). A Drosophila Cdc20/fizzy mutant arrests in mitosis with high levels of cyclins A and B, but paradoxically the spindle checkpoint does not stabilize cyclin A. Here, we investigated this paradox and found that Cdc20 is rate limiting for cyclin A destruction. Indeed, Cdc20 binds efficiently to cyclin A before and in mitosis, and this complex has little associated Mad2. Furthermore, the cyclin A complex must bind to a Cks protein to be degraded independently of the checkpoint. Thus, we identify a crucial role for the Cks proteins in mitosis and one mechanism by which the APC/C can target substrates independently of the spindle checkpoint.

KW - CELLCYCLE

KW - PROTEINS

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ER -

Cdc20 and Cks Direct the Spindle Checkpoint-Independent Destruction of Cyclin A

Abstract

Keywords

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