A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint

DNA damage checkpoints arrest cell cycle progression to facilitate DNA repair. The ability to survive genotoxic insults depends not only on the initiation of cell cycle checkpoints but also on checkpoint maintenance. While activation of DNA damage checkpoints has been studied extensively, molecular...

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Autores principales: van Vugt, Marcel A. T. M., Gardino, Alexandra K., Linding, Rune, Ostheimer, Gerard J., Reinhardt, H. Christian, Ong, Shao-En, Tan, Chris S., Miao, Hua, Keezer, Susan M., Li, Jeijin, Pawson, Tony, Lewis, Timothy A., Carr, Steven A., Smerdon, Stephen J., Brummelkamp, Thijn R., Yaffe, Michael B.
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2010
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811157/
https://www.ncbi.nlm.nih.gov/pubmed/20126263
http://dx.doi.org/10.1371/journal.pbio.1000287
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author van Vugt, Marcel A. T. M.
Gardino, Alexandra K.
Linding, Rune
Ostheimer, Gerard J.
Reinhardt, H. Christian
Ong, Shao-En
Tan, Chris S.
Miao, Hua
Keezer, Susan M.
Li, Jeijin
Pawson, Tony
Lewis, Timothy A.
Carr, Steven A.
Smerdon, Stephen J.
Brummelkamp, Thijn R.
Yaffe, Michael B.
author_facet van Vugt, Marcel A. T. M.
Gardino, Alexandra K.
Linding, Rune
Ostheimer, Gerard J.
Reinhardt, H. Christian
Ong, Shao-En
Tan, Chris S.
Miao, Hua
Keezer, Susan M.
Li, Jeijin
Pawson, Tony
Lewis, Timothy A.
Carr, Steven A.
Smerdon, Stephen J.
Brummelkamp, Thijn R.
Yaffe, Michael B.
author_sort van Vugt, Marcel A. T. M.
collection PubMed
description DNA damage checkpoints arrest cell cycle progression to facilitate DNA repair. The ability to survive genotoxic insults depends not only on the initiation of cell cycle checkpoints but also on checkpoint maintenance. While activation of DNA damage checkpoints has been studied extensively, molecular mechanisms involved in sustaining and ultimately inactivating cell cycle checkpoints are largely unknown. Here, we explored feedback mechanisms that control the maintenance and termination of checkpoint function by computationally identifying an evolutionary conserved mitotic phosphorylation network within the DNA damage response. We demonstrate that the non-enzymatic checkpoint adaptor protein 53BP1 is an in vivo target of the cell cycle kinases Cyclin-dependent kinase-1 and Polo-like kinase-1 (Plk1). We show that Plk1 binds 53BP1 during mitosis and that this interaction is required for proper inactivation of the DNA damage checkpoint. 53BP1 mutants that are unable to bind Plk1 fail to restart the cell cycle after ionizing radiation-mediated cell cycle arrest. Importantly, we show that Plk1 also phosphorylates the 53BP1-binding checkpoint kinase Chk2 to inactivate its FHA domain and inhibit its kinase activity in mammalian cells. Thus, a mitotic kinase-mediated negative feedback loop regulates the ATM-Chk2 branch of the DNA damage signaling network by phosphorylating conserved sites in 53BP1 and Chk2 to inactivate checkpoint signaling and control checkpoint duration.
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spelling pubmed-28111572010-02-02 A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint van Vugt, Marcel A. T. M. Gardino, Alexandra K. Linding, Rune Ostheimer, Gerard J. Reinhardt, H. Christian Ong, Shao-En Tan, Chris S. Miao, Hua Keezer, Susan M. Li, Jeijin Pawson, Tony Lewis, Timothy A. Carr, Steven A. Smerdon, Stephen J. Brummelkamp, Thijn R. Yaffe, Michael B. PLoS Biol Research Article DNA damage checkpoints arrest cell cycle progression to facilitate DNA repair. The ability to survive genotoxic insults depends not only on the initiation of cell cycle checkpoints but also on checkpoint maintenance. While activation of DNA damage checkpoints has been studied extensively, molecular mechanisms involved in sustaining and ultimately inactivating cell cycle checkpoints are largely unknown. Here, we explored feedback mechanisms that control the maintenance and termination of checkpoint function by computationally identifying an evolutionary conserved mitotic phosphorylation network within the DNA damage response. We demonstrate that the non-enzymatic checkpoint adaptor protein 53BP1 is an in vivo target of the cell cycle kinases Cyclin-dependent kinase-1 and Polo-like kinase-1 (Plk1). We show that Plk1 binds 53BP1 during mitosis and that this interaction is required for proper inactivation of the DNA damage checkpoint. 53BP1 mutants that are unable to bind Plk1 fail to restart the cell cycle after ionizing radiation-mediated cell cycle arrest. Importantly, we show that Plk1 also phosphorylates the 53BP1-binding checkpoint kinase Chk2 to inactivate its FHA domain and inhibit its kinase activity in mammalian cells. Thus, a mitotic kinase-mediated negative feedback loop regulates the ATM-Chk2 branch of the DNA damage signaling network by phosphorylating conserved sites in 53BP1 and Chk2 to inactivate checkpoint signaling and control checkpoint duration. Public Library of Science 2010-01-26 /pmc/articles/PMC2811157/ /pubmed/20126263 http://dx.doi.org/10.1371/journal.pbio.1000287 Text en van Vugt et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
van Vugt, Marcel A. T. M.
Gardino, Alexandra K.
Linding, Rune
Ostheimer, Gerard J.
Reinhardt, H. Christian
Ong, Shao-En
Tan, Chris S.
Miao, Hua
Keezer, Susan M.
Li, Jeijin
Pawson, Tony
Lewis, Timothy A.
Carr, Steven A.
Smerdon, Stephen J.
Brummelkamp, Thijn R.
Yaffe, Michael B.
A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint
title A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint
title_full A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint
title_fullStr A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint
title_full_unstemmed A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint
title_short A Mitotic Phosphorylation Feedback Network Connects Cdk1, Plk1, 53BP1, and Chk2 to Inactivate the G(2)/M DNA Damage Checkpoint
title_sort mitotic phosphorylation feedback network connects cdk1, plk1, 53bp1, and chk2 to inactivate the g(2)/m dna damage checkpoint
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2811157/
https://www.ncbi.nlm.nih.gov/pubmed/20126263
http://dx.doi.org/10.1371/journal.pbio.1000287
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