Literature DB >> 25202122

USP17- and SCFβTrCP--regulated degradation of DEC1 controls the DNA damage response.

Jihoon Kim1, Sara D'Annibale1, Roberto Magliozzi1, Teck Yew Low2, Petra Jansen1, Indra A Shaltiel3, Shabaz Mohammed2, Albert J R Heck2, Rene H Medema3, Daniele Guardavaccaro4.   

Abstract

In response to genotoxic stress, DNA damage checkpoints maintain the integrity of the genome by delaying cell cycle progression to allow for DNA repair. Here we show that the degradation of the basic helix-loop-helix (bHLH) transcription factor DEC1, a critical regulator of cell fate and circadian rhythms, controls the DNA damage response. During unperturbed cell cycles, DEC1 is a highly unstable protein that is targeted for proteasome-dependent degradation by the SCF(βTrCP) ubiquitin ligase in cooperation with CK1. Upon DNA damage, DEC1 is rapidly induced in an ATM/ATR-dependent manner. DEC1 induction results from protein stabilization via a mechanism that requires the USP17 ubiquitin protease. USP17 binds and deubiquitylates DEC1, markedly extending its half-life. Subsequently, during checkpoint recovery, DEC1 proteolysis is reestablished through βTrCP-dependent ubiquitylation. Expression of a degradation-resistant DEC1 mutant prevents checkpoint recovery by inhibiting the downregulation of p53. These results indicate that the regulated degradation of DEC1 is a key factor controlling the DNA damage response.
Copyright © 2014, American Society for Microbiology. All Rights Reserved.

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Year:  2014        PMID: 25202122      PMCID: PMC4248718          DOI: 10.1128/MCB.00530-14

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  33 in total

1.  Dec1 and Dec2 are regulators of the mammalian molecular clock.

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Journal:  Nature       Date:  2002-10-24       Impact factor: 49.962

2.  Mass spectrometric sequencing of proteins silver-stained polyacrylamide gels.

Authors:  A Shevchenko; M Wilm; O Vorm; M Mann
Journal:  Anal Chem       Date:  1996-03-01       Impact factor: 6.986

3.  A natural classification of the basic helix-loop-helix class of transcription factors.

Authors:  W R Atchley; W M Fitch
Journal:  Proc Natl Acad Sci U S A       Date:  1997-05-13       Impact factor: 11.205

4.  Proteasome-dependent degradation of transcription factor activating enhancer-binding protein 4 (TFAP4) controls mitotic division.

Authors:  Sara D'Annibale; Jihoon Kim; Roberto Magliozzi; Teck Yew Low; Shabaz Mohammed; Albert J R Heck; Daniele Guardavaccaro
Journal:  J Biol Chem       Date:  2014-02-05       Impact factor: 5.157

5.  Interactions between heterologous helix-loop-helix proteins generate complexes that bind specifically to a common DNA sequence.

Authors:  C Murre; P S McCaw; H Vaessin; M Caudy; L Y Jan; Y N Jan; C V Cabrera; J N Buskin; S D Hauschka; A B Lassar
Journal:  Cell       Date:  1989-08-11       Impact factor: 41.582

6.  Stra13 expression is associated with growth arrest and represses transcription through histone deacetylase (HDAC)-dependent and HDAC-independent mechanisms.

Authors:  H Sun; R Taneja
Journal:  Proc Natl Acad Sci U S A       Date:  2000-04-11       Impact factor: 11.205

7.  Stra13 homodimers repress transcription through class B E-box elements.

Authors:  Benoit St-Pierre; Grace Flock; Eldad Zacksenhaus; Sean E Egan
Journal:  J Biol Chem       Date:  2002-09-23       Impact factor: 5.157

8.  Overexpression of Stra13, a novel retinoic acid-inducible gene of the basic helix-loop-helix family, inhibits mesodermal and promotes neuronal differentiation of P19 cells.

Authors:  M Boudjelal; R Taneja; S Matsubara; P Bouillet; P Dolle; P Chambon
Journal:  Genes Dev       Date:  1997-08-15       Impact factor: 11.361

9.  M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP.

Authors:  Nobumoto Watanabe; Harumi Arai; Yoshifumi Nishihara; Makoto Taniguchi; Naoko Watanabe; Tony Hunter; Hiroyuki Osada
Journal:  Proc Natl Acad Sci U S A       Date:  2004-03-22       Impact factor: 11.205

10.  Phylogenetic analysis of the human basic helix-loop-helix proteins.

Authors:  Valérie Ledent; Odier Paquet; Michel Vervoort
Journal:  Genome Biol       Date:  2002-05-30       Impact factor: 13.583
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  11 in total

1.  The ubiquitin-specific protease USP17 prevents cellular senescence by stabilizing the methyltransferase SET8 and transcriptionally repressing p21.

Authors:  Keishi Fukuura; Yasumichi Inoue; Chiharu Miyajima; Shin Watanabe; Muneshige Tokugawa; Daisuke Morishita; Nobumichi Ohoka; Masayuki Komada; Hidetoshi Hayashi
Journal:  J Biol Chem       Date:  2019-09-18       Impact factor: 5.157

2.  DUB3 deubiquitinates and stabilizes NRF2 in chemotherapy resistance of colorectal cancer.

Authors:  Qi Zhang; Ze-Yan Zhang; Huan Du; Shang-Ze Li; Rongfu Tu; Yi-Fan Jia; Zhe Zheng; Xue-Min Song; Run-Lei Du; Xiao-Dong Zhang
Journal:  Cell Death Differ       Date:  2019-02-18       Impact factor: 15.828

Review 3.  Understanding the significance of biological clock and its impact on cancer incidence.

Authors:  Shalie Malik; James Stokes Iii; Upender Manne; Rajesh Singh; Manoj K Mishra
Journal:  Cancer Lett       Date:  2021-12-11       Impact factor: 8.679

4.  Experimental glioma with high bHLH expression harbor increased replicative stress and are sensitive toward ATR inhibition.

Authors:  Marilin Sophia Koch; Stefan Czemmel; Felix Lennartz; Sarah Beyeler; Srinath Rajaraman; Justyna Magdalena Przystal; Parameswari Govindarajan; Denis Canjuga; Manfred Neumann; Patrizia Rizzu; Stefan Zwirner; Michael Stefan Hoetker; Lars Zender; Bianca Walter; Marcos Tatagiba; Olivier Raineteau; Peter Heutink; Sven Nahnsen; Ghazaleh Tabatabai
Journal:  Neurooncol Adv       Date:  2020-09-10

5.  DNA Damage Regulates Translation through β-TRCP Targeting of CReP.

Authors:  Theresa B Loveless; Benjamin R Topacio; Ajay A Vashisht; Shastyn Galaang; Katie M Ulrich; Brian D Young; James A Wohlschlegel; David P Toczyski
Journal:  PLoS Genet       Date:  2015-06-19       Impact factor: 5.917

6.  De-ubiquitination of ELK-1 by USP17 potentiates mitogenic gene expression and cell proliferation.

Authors:  Charles Ducker; Leo Kam Yuen Chow; Janice Saxton; Jürgen Handwerger; Alexander McGregor; Thomas Strahl; Robert Layfield; Peter E Shaw
Journal:  Nucleic Acids Res       Date:  2019-05-21       Impact factor: 16.971

Review 7.  The role of circadian clock genes in tumors.

Authors:  Han-Xue Li
Journal:  Onco Targets Ther       Date:  2019-05-13       Impact factor: 4.147

8.  Non-circadian aspects of BHLHE40 cellular function in cancer.

Authors:  Zsofia Kiss; Maria Mudryj; Paramita M Ghosh
Journal:  Genes Cancer       Date:  2020

9.  USP7 and TDP-43: Pleiotropic Regulation of Cryptochrome Protein Stability Paces the Oscillation of the Mammalian Circadian Clock.

Authors:  Arisa Hirano; Tomoki Nakagawa; Hikari Yoshitane; Masaaki Oyama; Hiroko Kozuka-Hata; Darin Lanjakornsiripan; Yoshitaka Fukada
Journal:  PLoS One       Date:  2016-04-28       Impact factor: 3.240

10.  β-TrCP- and Casein Kinase II-Mediated Degradation of Cyclin F Controls Timely Mitotic Progression.

Authors:  Ioanna Mavrommati; Roberta Faedda; Giovanni Galasso; Jie Li; Kamila Burdova; Roman Fischer; Benedikt M Kessler; Zunamys I Carrero; Daniele Guardavaccaro; Michele Pagano; Vincenzo D'Angiolella
Journal:  Cell Rep       Date:  2018-09-25       Impact factor: 9.423
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