Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription

Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription

Abstract Macrodomains are conserved protein folds associated with ADP-ribose binding and turnover. ADP-ribosylation is a posttranslational modification catalyzed primarily by ARTD (aka PARP) enzymes in cells. ARTDs transfer either single or multiple ADP-ribose units to substrates, resulting in mono-...

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Main Authors: Mareike Bütepage, Christian Preisinger, Alexander von Kriegsheim, Anja Scheufen, Eva Lausberg, Jinyu Li, Ferdinand Kappes, Regina Feederle, Sabrina Ernst, Laura Eckei, Sarah Krieg, Gerhard Müller-Newen, Giulia Rossetti, Karla L. H. Feijs, Patricia Verheugd, Bernhard Lüscher
Format: Article
Language:English
Published: Nature Publishing Group 2018-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-018-25137-w
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spelling doaj-827b3706279b44c7a5d83f1b4485f73c2020-12-08T05:04:32ZengNature Publishing GroupScientific Reports2045-23222018-04-018111710.1038/s41598-018-25137-wNucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcriptionMareike Bütepage0Christian Preisinger1Alexander von Kriegsheim2Anja Scheufen3Eva Lausberg4Jinyu Li5Ferdinand Kappes6Regina Feederle7Sabrina Ernst8Laura Eckei9Sarah Krieg10Gerhard Müller-Newen11Giulia Rossetti12Karla L. H. Feijs13Patricia Verheugd14Bernhard Lüscher15Institute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityProteomics Facility, Interdisciplinary Centre for Clinical Research (IZKF), Medical School, RWTH Aachen UniversitySystems Biology Ireland, Conway Institute, University College DublinInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute for Diabetes and Obesity, Monoclonal Antibody Core Facility, Helmholtz Center Munich, German Research Center for Environmental HealthInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityComputational Biomedicine, Institute for Advanced Simulation IAS-5 and Institute of Neuroscience and Medicine INM-9, Forschungszentrum JülichInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityInstitute of Biochemistry and Molecular Biology, Medical School, RWTH Aachen UniversityAbstract Macrodomains are conserved protein folds associated with ADP-ribose binding and turnover. ADP-ribosylation is a posttranslational modification catalyzed primarily by ARTD (aka PARP) enzymes in cells. ARTDs transfer either single or multiple ADP-ribose units to substrates, resulting in mono- or poly-ADP-ribosylation. TARG1/C6orf130 is a macrodomain protein that hydrolyzes mono-ADP-ribosylation and interacts with poly-ADP-ribose chains. Interactome analyses revealed that TARG1 binds strongly to ribosomes and proteins associated with rRNA processing and ribosomal assembly factors. TARG1 localized to transcriptionally active nucleoli, which occurred independently of ADP-ribose binding. TARG1 shuttled continuously between nucleoli and nucleoplasm. In response to DNA damage, which activates ARTD1/2 (PARP1/2) and promotes synthesis of poly-ADP-ribose chains, TARG1 re-localized to the nucleoplasm. This was dependent on the ability of TARG1 to bind to poly-ADP-ribose. These findings are consistent with the observed ability of TARG1 to competitively interact with RNA and PAR chains. We propose a nucleolar role of TARG1 in ribosome assembly or quality control that is stalled when TARG1 is re-located to sites of DNA damage.https://doi.org/10.1038/s41598-018-25137-w
collection DOAJ
language English
format Article
sources DOAJ
author Mareike Bütepage
Christian Preisinger
Alexander von Kriegsheim
Anja Scheufen
Eva Lausberg
Jinyu Li
Ferdinand Kappes
Regina Feederle
Sabrina Ernst
Laura Eckei
Sarah Krieg
Gerhard Müller-Newen
Giulia Rossetti
Karla L. H. Feijs
Patricia Verheugd
Bernhard Lüscher
spellingShingle Mareike Bütepage
Christian Preisinger
Alexander von Kriegsheim
Anja Scheufen
Eva Lausberg
Jinyu Li
Ferdinand Kappes
Regina Feederle
Sabrina Ernst
Laura Eckei
Sarah Krieg
Gerhard Müller-Newen
Giulia Rossetti
Karla L. H. Feijs
Patricia Verheugd
Bernhard Lüscher
Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription
Scientific Reports
author_facet Mareike Bütepage
Christian Preisinger
Alexander von Kriegsheim
Anja Scheufen
Eva Lausberg
Jinyu Li
Ferdinand Kappes
Regina Feederle
Sabrina Ernst
Laura Eckei
Sarah Krieg
Gerhard Müller-Newen
Giulia Rossetti
Karla L. H. Feijs
Patricia Verheugd
Bernhard Lüscher
author_sort Mareike Bütepage
title Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription
title_short Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription
title_full Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription
title_fullStr Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription
title_full_unstemmed Nucleolar-nucleoplasmic shuttling of TARG1 and its control by DNA damage-induced poly-ADP-ribosylation and by nucleolar transcription
title_sort nucleolar-nucleoplasmic shuttling of targ1 and its control by dna damage-induced poly-adp-ribosylation and by nucleolar transcription
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-04-01
description Abstract Macrodomains are conserved protein folds associated with ADP-ribose binding and turnover. ADP-ribosylation is a posttranslational modification catalyzed primarily by ARTD (aka PARP) enzymes in cells. ARTDs transfer either single or multiple ADP-ribose units to substrates, resulting in mono- or poly-ADP-ribosylation. TARG1/C6orf130 is a macrodomain protein that hydrolyzes mono-ADP-ribosylation and interacts with poly-ADP-ribose chains. Interactome analyses revealed that TARG1 binds strongly to ribosomes and proteins associated with rRNA processing and ribosomal assembly factors. TARG1 localized to transcriptionally active nucleoli, which occurred independently of ADP-ribose binding. TARG1 shuttled continuously between nucleoli and nucleoplasm. In response to DNA damage, which activates ARTD1/2 (PARP1/2) and promotes synthesis of poly-ADP-ribose chains, TARG1 re-localized to the nucleoplasm. This was dependent on the ability of TARG1 to bind to poly-ADP-ribose. These findings are consistent with the observed ability of TARG1 to competitively interact with RNA and PAR chains. We propose a nucleolar role of TARG1 in ribosome assembly or quality control that is stalled when TARG1 is re-located to sites of DNA damage.
url https://doi.org/10.1038/s41598-018-25137-w
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