FACT is a sensor of DNA torsional stress in eukaryotic cells

Transitions of B-DNA to alternative DNA structures (ADS) can be triggered by negative torsional strain, which occurs during replication and transcription, and may lead to genomic instability. However, how ADS are recognized in cells is unclear. We found that the binding of candidate anticancer drug,...

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Autores principales: Safina, Alfiya, Cheney, Peter, Pal, Mahadeb, Brodsky, Leonid, Ivanov, Alexander, Kirsanov, Kirill, Lesovaya, Ekaterina, Naberezhnov, Denis, Nesher, Elimelech, Koman, Igor, Wang, Dan, Wang, Jianming, Yakubovskaya, Marianna, Winkler, Duane, Gurova, Katerina
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2017
Materias:
Molecular Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5389579/
https://www.ncbi.nlm.nih.gov/pubmed/28082391
http://dx.doi.org/10.1093/nar/gkw1366
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author Safina, Alfiya
Cheney, Peter
Pal, Mahadeb
Brodsky, Leonid
Ivanov, Alexander
Kirsanov, Kirill
Lesovaya, Ekaterina
Naberezhnov, Denis
Nesher, Elimelech
Koman, Igor
Wang, Dan
Wang, Jianming
Yakubovskaya, Marianna
Winkler, Duane
Gurova, Katerina
author_facet Safina, Alfiya
Cheney, Peter
Pal, Mahadeb
Brodsky, Leonid
Ivanov, Alexander
Kirsanov, Kirill
Lesovaya, Ekaterina
Naberezhnov, Denis
Nesher, Elimelech
Koman, Igor
Wang, Dan
Wang, Jianming
Yakubovskaya, Marianna
Winkler, Duane
Gurova, Katerina
author_sort Safina, Alfiya
collection PubMed
description Transitions of B-DNA to alternative DNA structures (ADS) can be triggered by negative torsional strain, which occurs during replication and transcription, and may lead to genomic instability. However, how ADS are recognized in cells is unclear. We found that the binding of candidate anticancer drug, curaxin, to cellular DNA results in uncoiling of nucleosomal DNA, accumulation of negative supercoiling and conversion of multiple regions of genomic DNA into left-handed Z-form. Histone chaperone FACT binds rapidly to the same regions via the SSRP1 subunit in curaxin-treated cells. In vitro binding of purified SSRP1 or its isolated CID domain to a methylated DNA fragment containing alternating purine/pyrimidines, which is prone to Z-DNA transition, is much stronger than to other types of DNA. We propose that FACT can recognize and bind Z-DNA or DNA in transition from a B to Z form. Binding of FACT to these genomic regions triggers a p53 response. Furthermore, FACT has been shown to bind to other types of ADS through a different structural domain, which also leads to p53 activation. Thus, we propose that FACT acts as a sensor of ADS formation in cells. Recognition of ADS by FACT followed by a p53 response may explain the role of FACT in DNA damage prevention.
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spelling pubmed-53895792017-04-24 FACT is a sensor of DNA torsional stress in eukaryotic cells Safina, Alfiya Cheney, Peter Pal, Mahadeb Brodsky, Leonid Ivanov, Alexander Kirsanov, Kirill Lesovaya, Ekaterina Naberezhnov, Denis Nesher, Elimelech Koman, Igor Wang, Dan Wang, Jianming Yakubovskaya, Marianna Winkler, Duane Gurova, Katerina Nucleic Acids Res Molecular Biology Transitions of B-DNA to alternative DNA structures (ADS) can be triggered by negative torsional strain, which occurs during replication and transcription, and may lead to genomic instability. However, how ADS are recognized in cells is unclear. We found that the binding of candidate anticancer drug, curaxin, to cellular DNA results in uncoiling of nucleosomal DNA, accumulation of negative supercoiling and conversion of multiple regions of genomic DNA into left-handed Z-form. Histone chaperone FACT binds rapidly to the same regions via the SSRP1 subunit in curaxin-treated cells. In vitro binding of purified SSRP1 or its isolated CID domain to a methylated DNA fragment containing alternating purine/pyrimidines, which is prone to Z-DNA transition, is much stronger than to other types of DNA. We propose that FACT can recognize and bind Z-DNA or DNA in transition from a B to Z form. Binding of FACT to these genomic regions triggers a p53 response. Furthermore, FACT has been shown to bind to other types of ADS through a different structural domain, which also leads to p53 activation. Thus, we propose that FACT acts as a sensor of ADS formation in cells. Recognition of ADS by FACT followed by a p53 response may explain the role of FACT in DNA damage prevention. Oxford University Press 2017-02-28 2017-01-13 /pmc/articles/PMC5389579/ /pubmed/28082391 http://dx.doi.org/10.1093/nar/gkw1366 Text en © The Author(s) 2017. Published by Oxford University Press on behalf of Nucleic Acids Research. http://creativecommons.org/licenses/by-nc/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Molecular Biology
Safina, Alfiya
Cheney, Peter
Pal, Mahadeb
Brodsky, Leonid
Ivanov, Alexander
Kirsanov, Kirill
Lesovaya, Ekaterina
Naberezhnov, Denis
Nesher, Elimelech
Koman, Igor
Wang, Dan
Wang, Jianming
Yakubovskaya, Marianna
Winkler, Duane
Gurova, Katerina
FACT is a sensor of DNA torsional stress in eukaryotic cells
title FACT is a sensor of DNA torsional stress in eukaryotic cells
title_full FACT is a sensor of DNA torsional stress in eukaryotic cells
title_fullStr FACT is a sensor of DNA torsional stress in eukaryotic cells
title_full_unstemmed FACT is a sensor of DNA torsional stress in eukaryotic cells
title_short FACT is a sensor of DNA torsional stress in eukaryotic cells
title_sort fact is a sensor of dna torsional stress in eukaryotic cells
topic Molecular Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5389579/
https://www.ncbi.nlm.nih.gov/pubmed/28082391
http://dx.doi.org/10.1093/nar/gkw1366
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