The Chromatin Scaffold Protein SAFB1 Renders Chromatin Permissive for DNA Damage Signaling

Matthias Altmeyer; Luis Ignacio Toledo Lazaro; Thorkell Gudjonsson; Merete Grøfte; Maj-Britt Rask; Claudia Lukas; Vyacheslav Akimov; Blagoy Blagoev; Jiri Bartek; Jiri Lukas

doi:10.1016/j.molcel.2013.08.025

The Chromatin Scaffold Protein SAFB1 Renders Chromatin Permissive for DNA Damage Signaling

Matthias Altmeyer, Luis Ignacio Toledo Lazaro, Thorkell Gudjonsson, Merete Grøfte, Maj-Britt Rask, Claudia Lukas, Vyacheslav Akimov, Blagoy Blagoev, Jiri Bartek, Jiri Lukas

Novo Nordisk Foundation Center for Protein Research

46 Citations (Scopus)

Abstract

Although the general relevance of chromatin modifications for genotoxic stress signaling, cell-cycle checkpoint activation, and DNA repair is well established, how these modifications reach initial thresholds in order to trigger robust responses remains largely unexplored. Here, we identify the chromatin-associated scaffold attachment factor SAFB1 as a component of the DNA damage response and show that SAFB1 cooperates with histone acetylation to allow for efficient γH2AX spreading and genotoxic stress signaling. SAFB1 undergoes a highly dynamic exchange at damaged chromatin in a poly(ADP-ribose)-polymerase 1- and poly(ADP-ribose)-dependent manner and is required for unperturbed cell-cycle checkpoint activation and guarding cells against replicative stress. Altogether, our data reveal that transient recruitment of an architectural chromatin component is required in order to overcome physiological barriers by making chromatin permissive for DNA damage signaling, whereas the ensuing exclusion of SAFB1 may help prevent excessive signaling.

Original language	English
Journal	Molecular Cell
Volume	52
Issue number	2
Pages (from-to)	206-220
ISSN	1097-2765
DOIs	https://doi.org/10.1016/j.molcel.2013.08.025
Publication status	Published - 24 Oct 2013

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title = "The Chromatin Scaffold Protein SAFB1 Renders Chromatin Permissive for DNA Damage Signaling",

abstract = "Although the general relevance of chromatin modifications for genotoxic stress signaling, cell-cycle checkpoint activation, and DNA repair is well established, how these modifications reach initial thresholds in order to trigger robust responses remains largely unexplored. Here, we identify the chromatin-associated scaffold attachment factor SAFB1 as a component of the DNA damage response and show that SAFB1 cooperates with histone acetylation to allow for efficient γH2AX spreading and genotoxic stress signaling. SAFB1 undergoes a highly dynamic exchange at damaged chromatin in a poly(ADP-ribose)-polymerase 1- and poly(ADP-ribose)-dependent manner and is required for unperturbed cell-cycle checkpoint activation and guarding cells against replicative stress. Altogether, our data reveal that transient recruitment of an architectural chromatin component is required in order to overcome physiological barriers by making chromatin permissive for DNA damage signaling, whereas the ensuing exclusion of SAFB1 may help prevent excessive signaling.",

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T1 - The Chromatin Scaffold Protein SAFB1 Renders Chromatin Permissive for DNA Damage Signaling

AU - Altmeyer, Matthias

AU - Toledo Lazaro, Luis Ignacio

AU - Gudjonsson, Thorkell

AU - Grøfte, Merete

AU - Rask, Maj-Britt

AU - Lukas, Claudia

AU - Akimov, Vyacheslav

AU - Blagoev, Blagoy

AU - Bartek, Jiri

AU - Lukas, Jiri

PY - 2013/10/24

Y1 - 2013/10/24

N2 - Although the general relevance of chromatin modifications for genotoxic stress signaling, cell-cycle checkpoint activation, and DNA repair is well established, how these modifications reach initial thresholds in order to trigger robust responses remains largely unexplored. Here, we identify the chromatin-associated scaffold attachment factor SAFB1 as a component of the DNA damage response and show that SAFB1 cooperates with histone acetylation to allow for efficient γH2AX spreading and genotoxic stress signaling. SAFB1 undergoes a highly dynamic exchange at damaged chromatin in a poly(ADP-ribose)-polymerase 1- and poly(ADP-ribose)-dependent manner and is required for unperturbed cell-cycle checkpoint activation and guarding cells against replicative stress. Altogether, our data reveal that transient recruitment of an architectural chromatin component is required in order to overcome physiological barriers by making chromatin permissive for DNA damage signaling, whereas the ensuing exclusion of SAFB1 may help prevent excessive signaling.

AB - Although the general relevance of chromatin modifications for genotoxic stress signaling, cell-cycle checkpoint activation, and DNA repair is well established, how these modifications reach initial thresholds in order to trigger robust responses remains largely unexplored. Here, we identify the chromatin-associated scaffold attachment factor SAFB1 as a component of the DNA damage response and show that SAFB1 cooperates with histone acetylation to allow for efficient γH2AX spreading and genotoxic stress signaling. SAFB1 undergoes a highly dynamic exchange at damaged chromatin in a poly(ADP-ribose)-polymerase 1- and poly(ADP-ribose)-dependent manner and is required for unperturbed cell-cycle checkpoint activation and guarding cells against replicative stress. Altogether, our data reveal that transient recruitment of an architectural chromatin component is required in order to overcome physiological barriers by making chromatin permissive for DNA damage signaling, whereas the ensuing exclusion of SAFB1 may help prevent excessive signaling.

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EP - 220

JO - Molecular Cell

JF - Molecular Cell

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The Chromatin Scaffold Protein SAFB1 Renders Chromatin Permissive for DNA Damage Signaling

Abstract

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