RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth

In B cells infected by the cancer-associated Epstein-Barr virus (EBV), RUNX3 and RUNX1 transcription is manipulated to control cell growth. The EBV-encoded EBNA2 transcription factor (TF) activates RUNX3 transcription leading to RUNX3-mediated repression of the RUNX1 promoter and the relief of RUNX1...

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Autores principales: Gunnell, Andrea, Webb, Helen M., Wood, C. David, McClellan, Michael J., Wichaidit, Billy, Kempkes, Bettina, Jenner, Richard G., Osborne, Cameron, Farrell, Paul J., West, Michelle J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2016
Materias:
Gene regulation, Chromatin and Epigenetics
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4889917/
https://www.ncbi.nlm.nih.gov/pubmed/26883634
http://dx.doi.org/10.1093/nar/gkw085
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author Gunnell, Andrea
Webb, Helen M.
Wood, C. David
McClellan, Michael J.
Wichaidit, Billy
Kempkes, Bettina
Jenner, Richard G.
Osborne, Cameron
Farrell, Paul J.
West, Michelle J.
author_facet Gunnell, Andrea
Webb, Helen M.
Wood, C. David
McClellan, Michael J.
Wichaidit, Billy
Kempkes, Bettina
Jenner, Richard G.
Osborne, Cameron
Farrell, Paul J.
West, Michelle J.
author_sort Gunnell, Andrea
collection PubMed
description In B cells infected by the cancer-associated Epstein-Barr virus (EBV), RUNX3 and RUNX1 transcription is manipulated to control cell growth. The EBV-encoded EBNA2 transcription factor (TF) activates RUNX3 transcription leading to RUNX3-mediated repression of the RUNX1 promoter and the relief of RUNX1-directed growth repression. We show that EBNA2 activates RUNX3 through a specific element within a −97 kb super-enhancer in a manner dependent on the expression of the Notch DNA-binding partner RBP-J. We also reveal that the EBV TFs EBNA3B and EBNA3C contribute to RUNX3 activation in EBV-infected cells by targeting the same element. Uncovering a counter-regulatory feed-forward step, we demonstrate EBNA2 activation of a RUNX1 super-enhancer (−139 to −250 kb) that results in low-level RUNX1 expression in cells refractory to RUNX1-mediated growth inhibition. EBNA2 activation of the RUNX1 super-enhancer is also dependent on RBP-J. Consistent with the context-dependent roles of EBNA3B and EBNA3C as activators or repressors, we find that these proteins negatively regulate the RUNX1 super-enhancer, curbing EBNA2 activation. Taken together our results reveal cell-type-specific exploitation of RUNX gene super-enhancers by multiple EBV TFs via the Notch pathway to fine tune RUNX3 and RUNX1 expression and manipulate B-cell growth.
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spelling pubmed-48899172016-06-06 RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth Gunnell, Andrea Webb, Helen M. Wood, C. David McClellan, Michael J. Wichaidit, Billy Kempkes, Bettina Jenner, Richard G. Osborne, Cameron Farrell, Paul J. West, Michelle J. Nucleic Acids Res Gene regulation, Chromatin and Epigenetics In B cells infected by the cancer-associated Epstein-Barr virus (EBV), RUNX3 and RUNX1 transcription is manipulated to control cell growth. The EBV-encoded EBNA2 transcription factor (TF) activates RUNX3 transcription leading to RUNX3-mediated repression of the RUNX1 promoter and the relief of RUNX1-directed growth repression. We show that EBNA2 activates RUNX3 through a specific element within a −97 kb super-enhancer in a manner dependent on the expression of the Notch DNA-binding partner RBP-J. We also reveal that the EBV TFs EBNA3B and EBNA3C contribute to RUNX3 activation in EBV-infected cells by targeting the same element. Uncovering a counter-regulatory feed-forward step, we demonstrate EBNA2 activation of a RUNX1 super-enhancer (−139 to −250 kb) that results in low-level RUNX1 expression in cells refractory to RUNX1-mediated growth inhibition. EBNA2 activation of the RUNX1 super-enhancer is also dependent on RBP-J. Consistent with the context-dependent roles of EBNA3B and EBNA3C as activators or repressors, we find that these proteins negatively regulate the RUNX1 super-enhancer, curbing EBNA2 activation. Taken together our results reveal cell-type-specific exploitation of RUNX gene super-enhancers by multiple EBV TFs via the Notch pathway to fine tune RUNX3 and RUNX1 expression and manipulate B-cell growth. Oxford University Press 2016-06-02 2016-02-15 /pmc/articles/PMC4889917/ /pubmed/26883634 http://dx.doi.org/10.1093/nar/gkw085 Text en © The Author(s) 2016. Published by Oxford University Press on behalf of Nucleic Acids Research. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Gene regulation, Chromatin and Epigenetics
Gunnell, Andrea
Webb, Helen M.
Wood, C. David
McClellan, Michael J.
Wichaidit, Billy
Kempkes, Bettina
Jenner, Richard G.
Osborne, Cameron
Farrell, Paul J.
West, Michelle J.
RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth
title RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth
title_full RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth
title_fullStr RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth
title_full_unstemmed RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth
title_short RUNX super-enhancer control through the Notch pathway by Epstein-Barr virus transcription factors regulates B cell growth
title_sort runx super-enhancer control through the notch pathway by epstein-barr virus transcription factors regulates b cell growth
topic Gene regulation, Chromatin and Epigenetics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4889917/
https://www.ncbi.nlm.nih.gov/pubmed/26883634
http://dx.doi.org/10.1093/nar/gkw085
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