Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution

RTEL1 helicase is a component of DNA repair and telomere maintenance machineries. While RTEL1's role in DNA replication is emerging, how RTEL1 preserves genomic stability during replication remains elusive. Here we used a range of proteomic, biochemical, cell, and molecular biology and gene edi...

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Autores principales: Björkman, Andrea, Johansen, Søren L., Lin, Lin, Schertzer, Mike, Kanellis, Dimitris C., Katsori, Anna-Maria, Christensen, Søren T., Luo, Yonglun, Andersen, Jens S., Elsässer, Simon J., Londono-Vallejo, Arturo, Bartek, Jiri, Schou, Kenneth B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2020
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7397856/
https://www.ncbi.nlm.nih.gov/pubmed/32561545
http://dx.doi.org/10.1101/gad.330050.119
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author Björkman, Andrea
Johansen, Søren L.
Lin, Lin
Schertzer, Mike
Kanellis, Dimitris C.
Katsori, Anna-Maria
Christensen, Søren T.
Luo, Yonglun
Andersen, Jens S.
Elsässer, Simon J.
Londono-Vallejo, Arturo
Bartek, Jiri
Schou, Kenneth B.
author_facet Björkman, Andrea
Johansen, Søren L.
Lin, Lin
Schertzer, Mike
Kanellis, Dimitris C.
Katsori, Anna-Maria
Christensen, Søren T.
Luo, Yonglun
Andersen, Jens S.
Elsässer, Simon J.
Londono-Vallejo, Arturo
Bartek, Jiri
Schou, Kenneth B.
author_sort Björkman, Andrea
collection PubMed
description RTEL1 helicase is a component of DNA repair and telomere maintenance machineries. While RTEL1's role in DNA replication is emerging, how RTEL1 preserves genomic stability during replication remains elusive. Here we used a range of proteomic, biochemical, cell, and molecular biology and gene editing approaches to provide further insights into potential role(s) of RTEL1 in DNA replication and genome integrity maintenance. Our results from complementary human cell culture models established that RTEL1 and the Polδ subunit Poldip3 form a complex and are/function mutually dependent in chromatin binding after replication stress. Loss of RTEL1 and Poldip3 leads to marked R-loop accumulation that is confined to sites of active replication, enhances endogenous replication stress, and fuels ensuing genomic instability. The impact of depleting RTEL1 and Poldip3 is epistatic, consistent with our proposed concept of these two proteins operating in a shared pathway involved in DNA replication control under stress conditions. Overall, our data highlight a previously unsuspected role of RTEL1 and Poldip3 in R-loop suppression at genomic regions where transcription and replication intersect, with implications for human diseases including cancer.
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spelling pubmed-73978562020-08-13 Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution Björkman, Andrea Johansen, Søren L. Lin, Lin Schertzer, Mike Kanellis, Dimitris C. Katsori, Anna-Maria Christensen, Søren T. Luo, Yonglun Andersen, Jens S. Elsässer, Simon J. Londono-Vallejo, Arturo Bartek, Jiri Schou, Kenneth B. Genes Dev Research Paper RTEL1 helicase is a component of DNA repair and telomere maintenance machineries. While RTEL1's role in DNA replication is emerging, how RTEL1 preserves genomic stability during replication remains elusive. Here we used a range of proteomic, biochemical, cell, and molecular biology and gene editing approaches to provide further insights into potential role(s) of RTEL1 in DNA replication and genome integrity maintenance. Our results from complementary human cell culture models established that RTEL1 and the Polδ subunit Poldip3 form a complex and are/function mutually dependent in chromatin binding after replication stress. Loss of RTEL1 and Poldip3 leads to marked R-loop accumulation that is confined to sites of active replication, enhances endogenous replication stress, and fuels ensuing genomic instability. The impact of depleting RTEL1 and Poldip3 is epistatic, consistent with our proposed concept of these two proteins operating in a shared pathway involved in DNA replication control under stress conditions. Overall, our data highlight a previously unsuspected role of RTEL1 and Poldip3 in R-loop suppression at genomic regions where transcription and replication intersect, with implications for human diseases including cancer. Cold Spring Harbor Laboratory Press 2020-08-01 /pmc/articles/PMC7397856/ /pubmed/32561545 http://dx.doi.org/10.1101/gad.330050.119 Text en © 2020 Björkman et al.; Published by Cold Spring Harbor Laboratory Press http://creativecommons.org/licenses/by/4.0/ This article, published in Genes & Development, is available under a Creative Commons License (Attribution 4.0 International), as described at http://creativecommons.org/licenses/by/4.0/.
spellingShingle Research Paper
Björkman, Andrea
Johansen, Søren L.
Lin, Lin
Schertzer, Mike
Kanellis, Dimitris C.
Katsori, Anna-Maria
Christensen, Søren T.
Luo, Yonglun
Andersen, Jens S.
Elsässer, Simon J.
Londono-Vallejo, Arturo
Bartek, Jiri
Schou, Kenneth B.
Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution
title Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution
title_full Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution
title_fullStr Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution
title_full_unstemmed Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution
title_short Human RTEL1 associates with Poldip3 to facilitate responses to replication stress and R-loop resolution
title_sort human rtel1 associates with poldip3 to facilitate responses to replication stress and r-loop resolution
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7397856/
https://www.ncbi.nlm.nih.gov/pubmed/32561545
http://dx.doi.org/10.1101/gad.330050.119
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