Matous Palek scite author profile

Genotoxic stress triggers a combined action of DNA repair and cell cycle checkpoint pathways. Protein phosphatase 2C delta (referred to as WIP1) is involved in timely inactivation of DNA damage response by suppressing function of p53 and other targets at chromatin. Here we show that WIP1 promotes DNA repair through homologous recombination. Loss or inhibition of WIP1 delayed disappearance of the ionizing radiation-induced 53BP1 foci in S/G2 cells and promoted cell death. We identify breast cancer associated protein 1 (BRCA1) as interactor and substrate of WIP1 and demonstrate that WIP1 activity is needed for correct dynamics of BRCA1 recruitment to chromatin flanking the DNA lesion. In addition, WIP1 dephosphorylates 53BP1 at Threonine 543 that was previously implicated in mediating interaction with RIF1. Finally, we report that inhibition of WIP1 allowed accumulation of DNA damage in S/G2 cells and increased sensitivity of cancer cells to a poly-(ADP-ribose) polymerase inhibitor olaparib. We propose that inhibition of WIP1 may increase sensitivity of BRCA1-proficient cancer cells to olaparib.

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Phosphorylation of PLK3 Is Controlled by Protein Phosphatase 6

Perez

Palek

Morgen

et al. 2020

Cells

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Polo-like kinases play essential roles in cell cycle control and mitosis. In contrast to other members of this kinase family, PLK3 has been reported to be activated upon cellular stress including DNA damage, hypoxia and osmotic stress. Here we knocked out PLK3 in human non-transformed RPE cells using CRISPR/Cas9-mediated gene editing. Surprisingly, we find that loss of PLK3 does not impair stabilization of HIF1α after hypoxia, phosphorylation of the c-Jun after osmotic stress and dynamics of DNA damage response after exposure to ionizing radiation. Similarly, RNAi-mediated depletion of PLK3 did not impair stress response in human transformed cell lines. Exposure of cells to various forms of stress also did not affect kinase activity of purified EGFP-PLK3. We conclude that PLK3 is largely dispensable for stress response in human cells. Using mass spectrometry, we identify protein phosphatase 6 as a new interacting partner of PLK3. Polo box domain of PLK3 mediates the interaction with the PP6 complex. Finally, we find that PLK3 is phosphorylated at Thr219 in the T-loop and that PP6 constantly dephosphorylates this residue. However, in contrast to PLK1, phosphorylation of Thr219 does not upregulate enzymatic activity of PLK3, suggesting that activation of both kinases is regulated by distinct mechanisms.

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A novel assay for screening WIP1 phosphatase substrates in nuclear extracts

et al. 2021

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Upon exposure to genotoxic stress, cells activate DNA damage response (DDR) that coordinates DNA repair with a temporal arrest in the cell cycle progression. DDR is triggered by activation of ataxia telangiectasia mutated/ataxia telangiectasia and Rad3‐related protein kinases that phosphorylate multiple targets including tumor suppressor protein tumor suppressor p53 (p53). In addition, DNA damage can activate parallel stress response pathways [such as mitogen‐activated protein kinase p38 alpha (p38)/MAPK‐activated protein kinase 2 (MK2) kinases] contributing to establishing the cell cycle arrest. Wild‐type p53‐induced phosphatase 1 (WIP1) controls timely inactivation of DDR and is needed for recovery from the G2 checkpoint by counteracting the function of p53. Here, we developed a simple in vitro assay for testing WIP1 substrates in nuclear extracts. Whereas we did not detect any activity of WIP1 toward p38/MK2, we confirmed p53 as a substrate of WIP1. Inhibition or inactivation of WIP1 in U2OS cells increased phosphorylation of p53 at S15 and potentiated its acetylation at K382. Further, we identified Deleted in breast cancer gene 1 (DBC1) as a new substrate of WIP1 but surprisingly, depletion of DBC1 did not interfere with the ability of WIP1 to regulate p53 acetylation. Instead, we have found that WIP1 activity suppresses p53‐K382 acetylation by inhibiting the interaction between p53 and the acetyltransferase p300. Newly established phosphatase assay allows an easy comparison of WIP1 ability to dephosphorylate various proteins and thus contributes to identification of its physiological substrates.

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Phosphorylation of TRF2 promotes its interaction with TIN2 and regulates DNA damage response at telomeres

Storchová

Palek

Palkova

et al. 2023

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Protein phosphatase magnesium-dependent 1 delta (PPM1D) terminates the cell cycle checkpoint by dephosphorylating the tumour suppressor protein p53. By targeting additional substrates at chromatin, PPM1D contributes to the control of DNA damage response and DNA repair. Using proximity biotinylation followed by proteomic analysis, we identified a novel interaction between PPM1D and the shelterin complex that protects telomeric DNA. In addition, confocal microscopy revealed that endogenous PPM1D localises at telomeres. Further, we found that ATR phosphorylated TRF2 at S410 after induction of DNA double strand breaks at telomeres and this modification increased after inhibition or loss of PPM1D. TRF2 phosphorylation stimulated its interaction with TIN2 both in vitro and at telomeres. Conversely, induced expression of PPM1D impaired localisation of TIN2 and TPP1 at telomeres. Finally, recruitment of the DNA repair factor 53BP1 to the telomeric breaks was strongly reduced after inhibition of PPM1D and was rescued by the expression of TRF2-S410A mutant. Our results suggest that TRF2 phosphorylation promotes the association of TIN2 within the shelterin complex and regulates DNA repair at telomeres.

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Author response for "A novel assay for screening WIP1 phosphatase substrates in nuclear extracts"

Storchová¹,

Burdová²,

Palek³

et al. 2021

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Matous Palek

WIP1 Promotes Homologous Recombination and Modulates Sensitivity to PARP Inhibitors

Phosphorylation of PLK3 Is Controlled by Protein Phosphatase 6

A novel assay for screening WIP1 phosphatase substrates in nuclear extracts

Phosphorylation of TRF2 promotes its interaction with TIN2 and regulates DNA damage response at telomeres

Author response for "A novel assay for screening WIP1 phosphatase substrates in nuclear extracts"

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