Role for the PP2A/B56δ Phosphatase in Regulating 14-3-3 Release from Cdc25 to Control Mitosis

DNA-responsive checkpoints prevent cell-cycle progression following DNA damage or replication inhibition. The mitotic activator Cdc25 is suppressed by checkpoints through inhibitory phosphorylation at Ser287 ( Xenopus numbering) and docking of 14-3-3. Ser287 phosphorylation is a major locus of G2/M...

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Veröffentlicht in:	Cell 2006-11, Vol.127 (4), p.759-773
Hauptverfasser:	Margolis, Seth S., Perry, Jennifer A., Forester, Craig M., Nutt, Leta K., Guo, Yanxiang, Jardim, Melanie J., Thomenius, Michael J., Freel, Christopher D., Darbandi, Rashid, Ahn, Jung-Hyuck, Arroyo, Jason D., Wang, Xiao-Fan, Shenolikar, Shirish, Nairn, Angus C., Dunphy, William G., Hahn, William C., Virshup, David M., Kornbluth, Sally
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creator	Margolis, Seth S. Perry, Jennifer A. Forester, Craig M. Nutt, Leta K. Guo, Yanxiang Jardim, Melanie J. Thomenius, Michael J. Freel, Christopher D. Darbandi, Rashid Ahn, Jung-Hyuck Arroyo, Jason D. Wang, Xiao-Fan Shenolikar, Shirish Nairn, Angus C. Dunphy, William G. Hahn, William C. Virshup, David M. Kornbluth, Sally
description	DNA-responsive checkpoints prevent cell-cycle progression following DNA damage or replication inhibition. The mitotic activator Cdc25 is suppressed by checkpoints through inhibitory phosphorylation at Ser287 ( Xenopus numbering) and docking of 14-3-3. Ser287 phosphorylation is a major locus of G2/M checkpoint control, although several checkpoint-independent kinases can phosphorylate this site. We reported previously that mitotic entry requires 14-3-3 removal and Ser287 dephosphorylation. We show here that DNA-responsive checkpoints also activate PP2A/B56δ phosphatase complexes to dephosphorylate Cdc25 at a site distinct from Ser287 (T138), the phosphorylation of which is required for 14-3-3 release. However, phosphorylation of T138 is not sufficient for 14-3-3 release from Cdc25. Our data suggest that creation of a 14-3-3 “sink,” consisting of phosphorylated 14-3-3 binding intermediate filament proteins, including keratins, coupled with reduced Cdc25-14-3-3 affinity, contribute to Cdc25 activation. These observations identify PP2A/B56δ as a central checkpoint effector and suggest a mechanism for controlling 14-3-3 interactions to promote mitosis.
doi_str_mv	10.1016/j.cell.2006.10.035
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The mitotic activator Cdc25 is suppressed by checkpoints through inhibitory phosphorylation at Ser287 ( Xenopus numbering) and docking of 14-3-3. Ser287 phosphorylation is a major locus of G2/M checkpoint control, although several checkpoint-independent kinases can phosphorylate this site. We reported previously that mitotic entry requires 14-3-3 removal and Ser287 dephosphorylation. We show here that DNA-responsive checkpoints also activate PP2A/B56δ phosphatase complexes to dephosphorylate Cdc25 at a site distinct from Ser287 (T138), the phosphorylation of which is required for 14-3-3 release. However, phosphorylation of T138 is not sufficient for 14-3-3 release from Cdc25. Our data suggest that creation of a 14-3-3 “sink,” consisting of phosphorylated 14-3-3 binding intermediate filament proteins, including keratins, coupled with reduced Cdc25-14-3-3 affinity, contribute to Cdc25 activation. 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title	Role for the PP2A/B56δ Phosphatase in Regulating 14-3-3 Release from Cdc25 to Control Mitosis
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