Literature DB >> 31302005

PARP-1 and its associated nucleases in DNA damage response.

Yijie Wang1, Weibo Luo2, Yingfei Wang3.   

Abstract

Poly(ADP-ribose) (PAR) polymerase-1 (PARP-1) acts as a DNA damage sensor. It recognizes DNA damage and facilitates DNA repair by recruiting DNA repair machinery to damage sites. Recent studies reported that PARP-1 also plays an important role in DNA replication by recognizing the unligated Okazaki fragments and controlling the speed of fork elongation. On the other hand, emerging evidence reveals that excessive activation of PARP-1 causes chromatin DNA fragmentation and triggers an intrinsic PARP-1-dependent cell death program designated parthanatos, which can be blocked by genetic deletion or pharmacological inhibition of PARP-1. Therefore, PARP-1 plays an essential role in maintaining genomic stability by either facilitating DNA repair/replication or triggering DNA fragmentation to kill cells. A group of structure-specific nucleases is crucial for executing DNA incision and fragmentation following PARP-1 activation. In this review, we will discuss how PARP-1 coordinates with its associated nucleases to maintain genomic integrity and control the decision of cell life and death.
Copyright © 2019 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Cell death; DNA damage; DNA replication/repair; Nuclease; PARP-1

Year:  2019        PMID: 31302005      PMCID: PMC6764844          DOI: 10.1016/j.dnarep.2019.102651

Source DB:  PubMed          Journal:  DNA Repair (Amst)        ISSN: 1568-7856


  80 in total

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2.  High speed of fork progression induces DNA replication stress and genomic instability.

Authors:  Apolinar Maya-Mendoza; Pavel Moudry; Joanna Maria Merchut-Maya; MyungHee Lee; Robert Strauss; Jiri Bartek
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3.  Mre11-dependent degradation of stalled DNA replication forks is prevented by BRCA2 and PARP1.

Authors:  Songmin Ying; Freddie C Hamdy; Thomas Helleday
Journal:  Cancer Res       Date:  2012-03-23       Impact factor: 12.701

4.  PARP1-driven poly-ADP-ribosylation regulates BRCA1 function in homologous recombination-mediated DNA repair.

Authors:  Yiduo Hu; Sarah A Petit; Scott B Ficarro; Kimberly J Toomire; Anyong Xie; Elgene Lim; Shiliang A Cao; Eunyoung Park; Michael J Eck; Ralph Scully; Myles Brown; Jarrod A Marto; David M Livingston
Journal:  Cancer Discov       Date:  2014-09-24       Impact factor: 39.397

Review 5.  Poly(ADP-ribose) signaling in cell death.

Authors:  László Virág; Agnieszka Robaszkiewicz; Jose Manuel Rodriguez-Vargas; Francisco Javier Oliver
Journal:  Mol Aspects Med       Date:  2013-02-15

6.  Three prime exonuclease I (TREX1) is Fos/AP-1 regulated by genotoxic stress and protects against ultraviolet light and benzo(a)pyrene-induced DNA damage.

Authors:  Markus Christmann; Maja T Tomicic; Dorthe Aasland; Nicole Berdelle; Bernd Kaina
Journal:  Nucleic Acids Res       Date:  2010-05-28       Impact factor: 16.971

7.  Ataxia telangiectasia mutated (ATM) signaling network is modulated by a novel poly(ADP-ribose)-dependent pathway in the early response to DNA-damaging agents.

Authors:  Jean-François Haince; Sergei Kozlov; Valina L Dawson; Ted M Dawson; Michael J Hendzel; Martin F Lavin; Guy G Poirier
Journal:  J Biol Chem       Date:  2007-04-11       Impact factor: 5.157

8.  Visualization of a DNA-PK/PARP1 complex.

Authors:  Laura Spagnolo; Jody Barbeau; Nicola J Curtin; Edward P Morris; Laurence H Pearl
Journal:  Nucleic Acids Res       Date:  2012-01-05       Impact factor: 16.971

Review 9.  PARP inhibitors: its role in treatment of cancer.

Authors:  Alice Chen
Journal:  Chin J Cancer       Date:  2011-07

10.  Macrophage migration inhibitory factor activates hypoxia-inducible factor in a p53-dependent manner.

Authors:  Seiko Oda; Tomoyuki Oda; Kenichiro Nishi; Satoshi Takabuchi; Takuhiko Wakamatsu; Tomoharu Tanaka; Takehiko Adachi; Kazuhiko Fukuda; Gregg L Semenza; Kiichi Hirota
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Journal:  Elife       Date:  2021-11-11       Impact factor: 8.140

Review 2.  Targeting telomeres: advances in telomere maintenance mechanism-specific cancer therapies.

Authors:  Jixuan Gao; Hilda A Pickett
Journal:  Nat Rev Cancer       Date:  2022-07-05       Impact factor: 69.800

Review 3.  Regulated cell death (RCD) in cancer: key pathways and targeted therapies.

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4.  Nuclear translocation of Gasdermin D sensitizes colorectal cancer to chemotherapy in a pyroptosis-independent manner.

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5.  KDM6B promotes PARthanatos via suppression of O6-methylguanine DNA methyltransferase repair and sustained checkpoint response.

Authors:  Mingming Yang; Chenliang Wang; Mi Zhou; Lei Bao; Yanan Wang; Ashwani Kumar; Chao Xing; Weibo Luo; Yingfei Wang
Journal:  Nucleic Acids Res       Date:  2022-06-24       Impact factor: 19.160

Review 6.  Molecular Mechanisms of Parthanatos and Its Role in Diverse Diseases.

Authors:  Ping Huang; Guangwei Chen; Weifeng Jin; Kunjun Mao; Haitong Wan; Yu He
Journal:  Int J Mol Sci       Date:  2022-06-30       Impact factor: 6.208

7.  Small-interfering RNA for c-Jun attenuates cell death by preventing JNK-dependent PARP1 cleavage and DNA fragmentation in nitrogen mustard-injured immortalized human bronchial epithelial cells.

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8.  MIF is a 3' flap nuclease that facilitates DNA replication and promotes tumor growth.

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Journal:  Nat Commun       Date:  2021-05-19       Impact factor: 14.919

Review 9.  PARP Power: A Structural Perspective on PARP1, PARP2, and PARP3 in DNA Damage Repair and Nucleosome Remodelling.

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Review 10.  Emerging role of PARP-1 and PARthanatos in ischemic stroke.

Authors:  Shuiqiao Liu; Weibo Luo; Yingfei Wang
Journal:  J Neurochem       Date:  2021-07-28       Impact factor: 5.546
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