Literature DB >> 14871926

Requirement of protein phosphatase 5 in DNA-damage-induced ATM activation.

Ambereen Ali1, Ji Zhang, Shideng Bao, Irene Liu, Diane Otterness, Nicholas M Dean, Robert T Abraham, Xiao-Fan Wang.   

Abstract

The checkpoint kinase ATM is centrally involved in the cellular response to DNA double-strand breaks. However, the mechanism of ATM activation during genotoxic stress is only partially understood. Here we report a direct regulatory linkage between the protein serine-threonine phosphatase 5 (PP5) and ATM. PP5 interacts with ATM in a DNA-damage-inducible manner. Reduced expression of PP5 attenuated DNA-damage-induced activation of ATM. Expression of a catalytically inactive PP5 mutant inhibited the phosphorylation of ATM substrates and the autophosphorylation of ATM on Ser 1981, and caused an S-phase checkpoint defect in DNA-damaged cells. Together our findings indicate that PP5 plays an essential role in the activation and checkpoint signaling functions of ATM in cells that have suffered DNA double-strand breaks.

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Year:  2004        PMID: 14871926      PMCID: PMC338278          DOI: 10.1101/gad.1176004

Source DB:  PubMed          Journal:  Genes Dev        ISSN: 0890-9369            Impact factor:   11.361


  29 in total

1.  Regulation of ATR substrate selection by Rad17-dependent loading of Rad9 complexes onto chromatin.

Authors:  Lee Zou; David Cortez; Stephen J Elledge
Journal:  Genes Dev       Date:  2002-01-15       Impact factor: 11.361

Review 2.  The renaissance of GSK3.

Authors:  P Cohen; S Frame
Journal:  Nat Rev Mol Cell Biol       Date:  2001-10       Impact factor: 94.444

3.  Interaction between protein phosphatase 5 and the A subunit of protein phosphatase 2A: evidence for a heterotrimeric form of protein phosphatase 5.

Authors:  E J Lubert; Y Hong; K D Sarge
Journal:  J Biol Chem       Date:  2001-08-14       Impact factor: 5.157

4.  Identification of potential physiological activators of protein phosphatase 5.

Authors:  Andrew J Ramsey; Michael Chinkers
Journal:  Biochemistry       Date:  2002-04-30       Impact factor: 3.162

Review 5.  ATM and related protein kinases: safeguarding genome integrity.

Authors:  Yosef Shiloh
Journal:  Nat Rev Cancer       Date:  2003-03       Impact factor: 60.716

6.  ATP activates ataxia-telangiectasia mutated (ATM) in vitro. Importance of autophosphorylation.

Authors:  Sergei Kozlov; Nuri Gueven; Katherine Keating; Jonathan Ramsay; Martin F Lavin
Journal:  J Biol Chem       Date:  2003-03-14       Impact factor: 5.157

7.  Galpha(12) and Galpha(13) interact with Ser/Thr protein phosphatase type 5 and stimulate its phosphatase activity.

Authors:  Yoshiaki Yamaguchi; Hironori Katoh; Kazutoshi Mori; Manabu Negishi
Journal:  Curr Biol       Date:  2002-08-06       Impact factor: 10.834

8.  DNA damage activates ATM through intermolecular autophosphorylation and dimer dissociation.

Authors:  Christopher J Bakkenist; Michael B Kastan
Journal:  Nature       Date:  2003-01-30       Impact factor: 49.962

9.  Requirement of the MRN complex for ATM activation by DNA damage.

Authors:  Tamar Uziel; Yaniv Lerenthal; Lilach Moyal; Yair Andegeko; Leonid Mittelman; Yosef Shiloh
Journal:  EMBO J       Date:  2003-10-15       Impact factor: 11.598

10.  Regulatory phosphorylation of the p34cdc2 protein kinase in vertebrates.

Authors:  C Norbury; J Blow; P Nurse
Journal:  EMBO J       Date:  1991-11       Impact factor: 11.598
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  55 in total

Review 1.  What goes on must come off: phosphatases gate-crash the DNA damage response.

Authors:  Dong-Hyun Lee; Dipanjan Chowdhury
Journal:  Trends Biochem Sci       Date:  2011-09-18       Impact factor: 13.807

Review 2.  Protein phosphatases in pancreatic islets.

Authors:  Henrik Ortsäter; Nina Grankvist; Richard E Honkanen; Åke Sjöholm
Journal:  J Endocrinol       Date:  2014-03-28       Impact factor: 4.286

3.  Involvement of novel autophosphorylation sites in ATM activation.

Authors:  Sergei V Kozlov; Mark E Graham; Cheng Peng; Philip Chen; Phillip J Robinson; Martin F Lavin
Journal:  EMBO J       Date:  2006-07-13       Impact factor: 11.598

4.  Posttranslational regulation of the mammalian circadian clock by cryptochrome and protein phosphatase 5.

Authors:  Carrie L Partch; Katherine F Shields; Carol L Thompson; Christopher P Selby; Aziz Sancar
Journal:  Proc Natl Acad Sci U S A       Date:  2006-06-21       Impact factor: 11.205

5.  Multimodal control of Cdc25A by nitrosative stress.

Authors:  Robert J Tomko; John S Lazo
Journal:  Cancer Res       Date:  2008-09-15       Impact factor: 12.701

6.  The molecular chaperone Hsp70 activates protein phosphatase 5 (PP5) by binding the tetratricopeptide repeat (TPR) domain.

Authors:  Jamie N Connarn; Victoria A Assimon; Rebecca A Reed; Eric Tse; Daniel R Southworth; Erik R P Zuiderweg; Jason E Gestwicki; Duxin Sun
Journal:  J Biol Chem       Date:  2013-12-10       Impact factor: 5.157

7.  Protein phosphatase 5 regulates the function of 53BP1 after neocarzinostatin-induced DNA damage.

Authors:  Yoonsung Kang; Jung-Hee Lee; Nguyen Ngoc Hoan; Hong-Moon Sohn; In-Youb Chang; Ho Jin You
Journal:  J Biol Chem       Date:  2009-01-28       Impact factor: 5.157

8.  Molecular basis for TPR domain-mediated regulation of protein phosphatase 5.

Authors:  Jing Yang; S Mark Roe; Matthew J Cliff; Mark A Williams; John E Ladbury; Patricia T W Cohen; David Barford
Journal:  EMBO J       Date:  2004-12-02       Impact factor: 11.598

9.  Human protein phosphatase 5 dissociates from heat-shock proteins and is proteolytically activated in response to arachidonic acid and the microtubule-depolymerizing drug nocodazole.

Authors:  Tamás Zeke; Nick Morrice; Cristina Vázquez-Martin; Patricia T W Cohen
Journal:  Biochem J       Date:  2005-01-01       Impact factor: 3.857

10.  Elevated levels of Ser/Thr protein phosphatase 5 (PP5) in human breast cancer.

Authors:  Teresa Golden; Ileana V Aragon; Beth Rutland; J Allan Tucker; Lalita A Shevde; Rajeev S Samant; Guofei Zhou; Lauren Amable; Danalea Skarra; Richard E Honkanen
Journal:  Biochim Biophys Acta       Date:  2008-01-26
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