The p53-Induced Oncogenic Phosphatase PPM1D Interacts with Uracil DNA Glycosylase and Suppresses Base Excision Repair

Lu, Xiongbin; Bocangel, Dora; Nannenga, Bonnie; Yamaguchi, Hiroshi; Appella, Ettore; Donehower, Lawrence A.

doi:10.1016/j.molcel.2004.08.007

Cited by 109 publications

(140 citation statements)

References 44 publications

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“…26 More recently, it has been shown that Wip1 associates with the nuclear isoform of uracil DNA glycosylase, UNG2, and that Wip1 suppresses DNA damage-induced base excision repair (BER) activity by dephosphorylating and inactivating UNG2. 30 In this study, we show that Wip1 interacts with Chk2 both physically and functionally in the nuclei. Wip1 dephosphorylates Thr68 in activated Chk2 both in vitro and in vitro, and inactivates Chk2 kinase activity toward Cdc25C.…”

Section: Introductionmentioning

confidence: 53%

“…Interestingly, it has been recently reported that Wip1 dephosphorylates the nuclear form of uracil DNA glycosylase (UNG2) and Chk1, thereby suppressing BER and intra-S and G2/M checkpoint regulation, respectively. 30,40 In the case of UNG2 and p38, phosphorylation sites on these molecules, which can be targets for Wip1-mediated dephosphorylation, reveal consensus sequences 'phospho-T-X-phospho-Tyr (Y) (or phospho-T-X-Y, X: optional a.a.)'. 41 In this respect, it is important to note that our in vitro evidence as well as previous report 40 indicate the presence of additional target sequences for Wip1, which are 'phospho-S-Q' or 'phospho-T-Q', well-known fingerprints of ATM kinase (see Table 1).…”

Section: Antagonistic Effect Of Wip1 On Chk2-dependent Apoptosismentioning

confidence: 99%

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Regulation of the antioncogenic Chk2 kinase by the oncogenic Wip1 phosphatase

et al. 2005

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The antioncogenic Chk2 kinase plays a crucial role in DNA damage-induced cell-cycle checkpoint regulation. Here we show that Chk2 associates with the oncogenic protein Wip1 (wild-type p53-inducible phosphatase 1) (PPM1D), a p53-inducible protein phosphatase. Phosphorylation of Chk2 at threonine68 (Thr68), a critical event for Chk2 activation, which is normally induced by DNA damage or overexpression of Chk2, is inhibited by expression of wild-type (WT), but not a phosphatase-deficient mutant (D314A) of Wip1 in cultured cells. Furthermore, an in vitro phosphatase assay revealed that Wip1 (WT), but not Wip1 (D314A), dephosphorylates Thr68 on phosphorylated Chk2 in vitro, resulting in the inhibition of Chk2 kinase activity toward glutathione S-transferase-Cdc25C. Moreover, inhibition of Wip1 expression by RNA interference results in abnormally sustained Thr68 phosphorylation of Chk2 and increased susceptibility of cells in response to DNA damage, indicating that Wip1 acts as a negative regulator of Chk2 in response to DNA damage.

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Section: Introductionmentioning

confidence: 53%

Section: Antagonistic Effect Of Wip1 On Chk2-dependent Apoptosismentioning

confidence: 99%

Regulation of the antioncogenic Chk2 kinase by the oncogenic Wip1 phosphatase

et al. 2005

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“…In each case, this modification has been observed to increase catalytic activity and hence may regulate BER initiation [97,98]. On the other hand, TDG, MPG and NEIL2 are modified and regulated by acetylation (Table III).…”

Section: Modification Of Proteins That Initiate Ber Via Lesion Recognmentioning

confidence: 97%

A unified view of base excision repair: Lesion-dependent protein complexes regulated by post-translational modification

Almeida¹,

Sobol²

2007

DNA Repair

379

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Base excision repair (BER) proteins act upon a significantly broad spectrum of DNA lesions that result from endogenous and exogenous sources. Multiple sub-pathways of BER (short-path or longpatch) and newly designated DNA repair pathways (e.g., SSBR and NIR) that utilize BER proteins complicate any comprehensive understanding of BER and its role in genome maintenance, chemotherapeutic response, neurodegeneration, cancer or aging. Herein, we propose a unified model of BER, comprised of three functional processes: Lesion Recognition/Strand Scission, Gap Tailoring and DNA Synthesis/Ligation, each represented by one or more multiprotein complexes and coordinated via the XRCC1/DNA Ligase III and PARP1 scaffold proteins. BER therefore may be represented by a series of repair complexes that assemble at the site of the DNA lesion and mediates repair in a coordinated fashion involving protein-protein interactions that dictate subsequent steps or sub-pathway choice. Complex formation is influenced by post-translational protein modifications that arise from the cellular state or the DNA damage response, providing an increase in specificity and efficiency to the BER pathway. In this review, we have summarized the reported BER proteinprotein interactions and protein post-translational modifications and discuss the impact on DNA repair capacity and complex formation.

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“…Wip1 also dephosphorylates p38 and UNG2 at pT180GY and pT6LY sites, respectively (Takekawa et al, 2000;Lu et al, 2004). In the case of the p38 MAP kinase, the TGY motif is part of the activation loop of the kinase and is diphosphorylated on Thr and Tyr residues when p38 is activated.…”

Section: Wip1 Phosphatase Antagonizes Chk2 Activation M Oliva-trastoymentioning

confidence: 99%

“…Third, Wip1 directly inhibits Chk1 by dephosphorylating the ATR-targeted phosphoSer345 (Lu et al, 2005). In addition, Wip1 directly dephosphorylates and inhibits a uracil N-glycosylase (Ung2) implicated in the base excision repair of DNA (Lu et al, 2004). The overexpression of Wip1 is likely to be oncogenic given its antagonism of key proteins involved in maintaining genomic stability.…”

Section: Introductionmentioning

confidence: 99%

The Wip1 phosphatase (PPM1D) antagonizes activation of the Chk2 tumour suppressor kinase

et al. 2006

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We previously demonstrated that type 2C protein phosphatases (PP2C) Ptc2 and Ptc3 are required for DNA checkpoint inactivation after DNA double-strand break repair or adaptation in Saccharomyces cerevisiae. Here, we show the conservation of this pathway in mammalian cells. In response to DNA damage, ataxia telangiectasia mutated (ATM) phosphorylates the Chk2 tumour suppressor kinase at threonine 68 (Thr68), allowing Chk2 kinase dimerization and activation by autophosphorylations in the T-loop. The oncogenic protein Wip1, a PP2C phosphatase, binds Chk2 and dephosphorylates phosphoThr68. Consequently, Wip1 opposes Chk2 activation by ATM after ionizing irradiation of cells. In HCT15 colorectal cancer cells corrected for functional Chk2 activity, Wip1 overexpression suppressed the contribution of Chk2 to the G2/M DNA damage checkpoint. These results indicate that Wip1 is one of the phosphatases regulating the activity of Chk2 in response to DNA damage.

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The p53-Induced Oncogenic Phosphatase PPM1D Interacts with Uracil DNA Glycosylase and Suppresses Base Excision Repair

Cited by 109 publications

References 44 publications

Regulation of the antioncogenic Chk2 kinase by the oncogenic Wip1 phosphatase

Regulation of the antioncogenic Chk2 kinase by the oncogenic Wip1 phosphatase

A unified view of base excision repair: Lesion-dependent protein complexes regulated by post-translational modification

The Wip1 phosphatase (PPM1D) antagonizes activation of the Chk2 tumour suppressor kinase

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