Literature DB >> 32785991

Non-canonical ATM/MRN activities temporally define the senescence secretory program.

Nicolas Malaquin1, Marc-Alexandre Olivier1, Aurélie Martinez1, Stéphanie Nadeau1, Christina Sawchyn2, Jean-Philippe Coppé3, Guillaume Cardin1, Frédérick A Mallette2,4, Judith Campisi5,6, Francis Rodier1,7.   

Abstract

Senescent cells display senescence-associated (SA) phenotypic programs such as stable proliferation arrest (SAPA) and a secretory phenotype (SASP). Senescence-inducing persistent DNA double-strand breaks (pDSBs) cause an immediate DNA damage response (DDR) and SAPA, but the SASP requires days to develop. Here, we show that following the immediate canonical DDR, a delayed chromatin accumulation of the ATM and MRN complexes coincides with the expression of SASP factors. Importantly, histone deacetylase inhibitors (HDACi) trigger SAPA and SASP in the absence of DNA damage. However, HDACi-induced SASP also requires ATM/MRN activities and causes their accumulation on chromatin, revealing a DNA damage-independent, non-canonical DDR activity that underlies SASP maturation. This non-canonical DDR is required for the recruitment of the transcription factor NF-κB on chromatin but not for its nuclear translocation. Non-canonical DDR further does not require ATM kinase activity, suggesting structural ATM functions. We propose that delayed chromatin recruitment of SASP modulators is the result of non-canonical DDR signaling that ensures SASP activation only in the context of senescence and not in response to transient DNA damage-induced proliferation arrest.
© 2020 The Authors.

Entities:  

Keywords:  DNA damage response; MRN complex; NF-κB; chromatin; senescence secretome

Mesh:

Substances:

Year:  2020        PMID: 32785991      PMCID: PMC7534619          DOI: 10.15252/embr.202050718

Source DB:  PubMed          Journal:  EMBO Rep        ISSN: 1469-221X            Impact factor:   8.807


  86 in total

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Journal:  Science       Date:  2006-02-24       Impact factor: 47.728

3.  Human fibroblast commitment to a senescence-like state in response to histone deacetylase inhibitors is cell cycle dependent.

Authors:  V V Ogryzko; T H Hirai; V R Russanova; D A Barbie; B H Howard
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4.  Stromal-epithelial interactions in aging and cancer: senescent fibroblasts alter epithelial cell differentiation.

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5.  Senescence-associated reprogramming promotes cancer stemness.

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Journal:  Nature       Date:  2017-12-20       Impact factor: 49.962

6.  A cytoplasmic ATM-TRAF6-cIAP1 module links nuclear DNA damage signaling to ubiquitin-mediated NF-κB activation.

Authors:  Michael Hinz; Michael Stilmann; Seda Çöl Arslan; Kum Kum Khanna; Gunnar Dittmar; Claus Scheidereit
Journal:  Mol Cell       Date:  2010-10-08       Impact factor: 17.970

7.  Telomere shortening triggers senescence of human cells through a pathway involving ATM, p53, and p21(CIP1), but not p16(INK4a).

Authors:  Utz Herbig; Wendy A Jobling; Benjamin P C Chen; David J Chen; John M Sedivy
Journal:  Mol Cell       Date:  2004-05-21       Impact factor: 17.970

8.  Chemokine signaling via the CXCR2 receptor reinforces senescence.

Authors:  Juan C Acosta; Ana O'Loghlen; Ana Banito; Maria V Guijarro; Arnaud Augert; Selina Raguz; Marzia Fumagalli; Marco Da Costa; Celia Brown; Nikolay Popov; Yoshihiro Takatsu; Jonathan Melamed; Fabrizio d'Adda di Fagagna; David Bernard; Eva Hernando; Jesús Gil
Journal:  Cell       Date:  2008-06-13       Impact factor: 41.582

9.  Non-canonical ATM/MRN activities temporally define the senescence secretory program.

Authors:  Nicolas Malaquin; Marc-Alexandre Olivier; Aurélie Martinez; Stéphanie Nadeau; Christina Sawchyn; Jean-Philippe Coppé; Guillaume Cardin; Frédérick A Mallette; Judith Campisi; Francis Rodier
Journal:  EMBO Rep       Date:  2020-08-12       Impact factor: 8.807

10.  Identification of HSP90 inhibitors as a novel class of senolytics.

Authors:  Heike Fuhrmann-Stroissnigg; Yuan Yuan Ling; Jing Zhao; Sara J McGowan; Yi Zhu; Robert W Brooks; Diego Grassi; Siobhan Q Gregg; Jennifer L Stripay; Akaitz Dorronsoro; Lana Corbo; Priscilla Tang; Christina Bukata; Nadja Ring; Mauro Giacca; Xuesen Li; Tamara Tchkonia; James L Kirkland; Laura J Niedernhofer; Paul D Robbins
Journal:  Nat Commun       Date:  2017-09-04       Impact factor: 14.919
View more
  6 in total

1.  Non-canonical ATM/MRN activities temporally define the senescence secretory program.

Authors:  Nicolas Malaquin; Marc-Alexandre Olivier; Aurélie Martinez; Stéphanie Nadeau; Christina Sawchyn; Jean-Philippe Coppé; Guillaume Cardin; Frédérick A Mallette; Judith Campisi; Francis Rodier
Journal:  EMBO Rep       Date:  2020-08-12       Impact factor: 8.807

2.  Suppression of p16 alleviates the senescence-associated secretory phenotype.

Authors:  Raquel Buj; Kelly E Leon; Marlyn A Anguelov; Katherine M Aird
Journal:  Aging (Albany NY)       Date:  2021-02-06       Impact factor: 5.682

Review 3.  Loss of p16: A Bouncer of the Immunological Surveillance?

Authors:  Kelly E Leon; Naveen Kumar Tangudu; Katherine M Aird; Raquel Buj
Journal:  Life (Basel)       Date:  2021-04-02

Review 4.  Senescent Cells in Cancer: Wanted or Unwanted Citizens.

Authors:  Sven E Niklander; Daniel W Lambert; Keith D Hunter
Journal:  Cells       Date:  2021-11-26       Impact factor: 6.600

Review 5.  Roles of extracellular vesicles in the aging microenvironment and age-related diseases.

Authors:  Yujia Yin; Huihui Chen; Yizhi Wang; Ludi Zhang; Xipeng Wang
Journal:  J Extracell Vesicles       Date:  2021-10

6.  HDAC2 and 7 down-regulation induces senescence in dermal fibroblasts.

Authors:  Céline Warnon; Karim Bouhjar; Noëlle Ninane; Mathilde Verhoyen; Antoine Fattaccioli; Maude Fransolet; Catherine Lambert de Rouvroit; Yves Poumay; Géraldine Piel; Denis Mottet; Florence Debacq-Chainiaux
Journal:  Aging (Albany NY)       Date:  2021-07-12       Impact factor: 5.682
  6 in total

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