The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.

The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.

The HMGA1 architectural transcription factor is an oncogene overexpressed in the vast majority of human cancers. HMGA1 is a highly connected node in the nuclear molecular network and the key aspect of HMGA1 involvement in cancer development is that HMGA1 simultaneously confers cells multiple oncogen...

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Main Authors: Ilenia Pellarin, Laura Arnoldo, Silvia Costantini, Silvia Pegoraro, Gloria Ros, Carlotta Penzo, Gianluca Triolo, Francesca Demarchi, Riccardo Sgarra, Alessandro Vindigni, Guidalberto Manfioletti
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5056749?pdf=render
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spelling doaj-98cf51b3a6874e88a45dea82f8a0574e2020-11-25T01:45:18ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-011110e016425810.1371/journal.pone.0164258The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.Ilenia PellarinLaura ArnoldoSilvia CostantiniSilvia PegoraroGloria RosCarlotta PenzoGianluca TrioloFrancesca DemarchiRiccardo SgarraAlessandro VindigniGuidalberto ManfiolettiThe HMGA1 architectural transcription factor is an oncogene overexpressed in the vast majority of human cancers. HMGA1 is a highly connected node in the nuclear molecular network and the key aspect of HMGA1 involvement in cancer development is that HMGA1 simultaneously confers cells multiple oncogenic hits, ranging from global chromatin structural and gene expression modifications up to the direct functional alterations of key cellular proteins. Interestingly, HMGA1 also modulates DNA damage repair pathways. In this work, we provide evidences linking HMGA1 with Non-Homologous End Joining DNA repair. We show that HMGA1 is in complex with and is a substrate for DNA-PK. HMGA1 enhances Ligase IV activity and it counteracts the repressive histone H1 activity towards DNA ends ligation. Moreover, breast cancer cells overexpressing HMGA1 show a faster recovery upon induction of DNA double-strand breaks, which is associated with a higher survival. These data suggest that resistance to DNA-damaging agents in cancer cells could be partially attributed to HMGA1 overexpression thus highlighting the relevance of considering HMGA1 expression levels in the selection of valuable and effective pharmacological regimens.http://europepmc.org/articles/PMC5056749?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Ilenia Pellarin
Laura Arnoldo
Silvia Costantini
Silvia Pegoraro
Gloria Ros
Carlotta Penzo
Gianluca Triolo
Francesca Demarchi
Riccardo Sgarra
Alessandro Vindigni
Guidalberto Manfioletti
spellingShingle Ilenia Pellarin
Laura Arnoldo
Silvia Costantini
Silvia Pegoraro
Gloria Ros
Carlotta Penzo
Gianluca Triolo
Francesca Demarchi
Riccardo Sgarra
Alessandro Vindigni
Guidalberto Manfioletti
The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.
PLoS ONE
author_facet Ilenia Pellarin
Laura Arnoldo
Silvia Costantini
Silvia Pegoraro
Gloria Ros
Carlotta Penzo
Gianluca Triolo
Francesca Demarchi
Riccardo Sgarra
Alessandro Vindigni
Guidalberto Manfioletti
author_sort Ilenia Pellarin
title The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.
title_short The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.
title_full The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.
title_fullStr The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.
title_full_unstemmed The Architectural Chromatin Factor High Mobility Group A1 Enhances DNA Ligase IV Activity Influencing DNA Repair.
title_sort architectural chromatin factor high mobility group a1 enhances dna ligase iv activity influencing dna repair.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description The HMGA1 architectural transcription factor is an oncogene overexpressed in the vast majority of human cancers. HMGA1 is a highly connected node in the nuclear molecular network and the key aspect of HMGA1 involvement in cancer development is that HMGA1 simultaneously confers cells multiple oncogenic hits, ranging from global chromatin structural and gene expression modifications up to the direct functional alterations of key cellular proteins. Interestingly, HMGA1 also modulates DNA damage repair pathways. In this work, we provide evidences linking HMGA1 with Non-Homologous End Joining DNA repair. We show that HMGA1 is in complex with and is a substrate for DNA-PK. HMGA1 enhances Ligase IV activity and it counteracts the repressive histone H1 activity towards DNA ends ligation. Moreover, breast cancer cells overexpressing HMGA1 show a faster recovery upon induction of DNA double-strand breaks, which is associated with a higher survival. These data suggest that resistance to DNA-damaging agents in cancer cells could be partially attributed to HMGA1 overexpression thus highlighting the relevance of considering HMGA1 expression levels in the selection of valuable and effective pharmacological regimens.
url http://europepmc.org/articles/PMC5056749?pdf=render
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