Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase

Histone H3.3 is an H3 variant which differs from the canonical H3.1/2 at four residues, including a serine residue at position 31 which is evolutionarily conserved. The H3.3 S31 residue is phosphorylated (H3.3 S31Ph) at heterochromatin regions including telomeres and pericentric repeats. However, th...

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Autores principales: Udugama, Maheshi, Vinod, Benjamin, Chan, F Lyn, Hii, Linda, Garvie, Andrew, Collas, Philippe, Kalitsis, Paul, Steer, David, Das, Partha P, Tripathi, Pratibha, Mann, Jeffrey R, Voon, Hsiao P J, Wong, Lee H
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2022
Materias:
Gene regulation, Chromatin and Epigenetics
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071403/
https://www.ncbi.nlm.nih.gov/pubmed/35451487
http://dx.doi.org/10.1093/nar/gkac259
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author Udugama, Maheshi
Vinod, Benjamin
Chan, F Lyn
Hii, Linda
Garvie, Andrew
Collas, Philippe
Kalitsis, Paul
Steer, David
Das, Partha P
Tripathi, Pratibha
Mann, Jeffrey R
Voon, Hsiao P J
Wong, Lee H
author_facet Udugama, Maheshi
Vinod, Benjamin
Chan, F Lyn
Hii, Linda
Garvie, Andrew
Collas, Philippe
Kalitsis, Paul
Steer, David
Das, Partha P
Tripathi, Pratibha
Mann, Jeffrey R
Voon, Hsiao P J
Wong, Lee H
author_sort Udugama, Maheshi
collection PubMed
description Histone H3.3 is an H3 variant which differs from the canonical H3.1/2 at four residues, including a serine residue at position 31 which is evolutionarily conserved. The H3.3 S31 residue is phosphorylated (H3.3 S31Ph) at heterochromatin regions including telomeres and pericentric repeats. However, the role of H3.3 S31Ph in these regions remains unknown. In this study, we find that H3.3 S31Ph regulates heterochromatin accessibility at telomeres during replication through regulation of H3K9/K36 histone demethylase KDM4B. In mouse embryonic stem (ES) cells, substitution of S31 with an alanine residue (H3.3 A31 –phosphorylation null mutant) results in increased KDM4B activity that removes H3K9me3 from telomeres. In contrast, substitution with a glutamic acid (H3.3 E31, mimics S31 phosphorylation) inhibits KDM4B, leading to increased H3K9me3 and DNA damage at telomeres. H3.3 E31 expression also increases damage at other heterochromatin regions including the pericentric heterochromatin and Y chromosome-specific satellite DNA repeats. We propose that H3.3 S31Ph regulation of KDM4B is required to control heterochromatin accessibility of repetitive DNA and preserve chromatin integrity.
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spelling pubmed-90714032022-05-06 Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase Udugama, Maheshi Vinod, Benjamin Chan, F Lyn Hii, Linda Garvie, Andrew Collas, Philippe Kalitsis, Paul Steer, David Das, Partha P Tripathi, Pratibha Mann, Jeffrey R Voon, Hsiao P J Wong, Lee H Nucleic Acids Res Gene regulation, Chromatin and Epigenetics Histone H3.3 is an H3 variant which differs from the canonical H3.1/2 at four residues, including a serine residue at position 31 which is evolutionarily conserved. The H3.3 S31 residue is phosphorylated (H3.3 S31Ph) at heterochromatin regions including telomeres and pericentric repeats. However, the role of H3.3 S31Ph in these regions remains unknown. In this study, we find that H3.3 S31Ph regulates heterochromatin accessibility at telomeres during replication through regulation of H3K9/K36 histone demethylase KDM4B. In mouse embryonic stem (ES) cells, substitution of S31 with an alanine residue (H3.3 A31 –phosphorylation null mutant) results in increased KDM4B activity that removes H3K9me3 from telomeres. In contrast, substitution with a glutamic acid (H3.3 E31, mimics S31 phosphorylation) inhibits KDM4B, leading to increased H3K9me3 and DNA damage at telomeres. H3.3 E31 expression also increases damage at other heterochromatin regions including the pericentric heterochromatin and Y chromosome-specific satellite DNA repeats. We propose that H3.3 S31Ph regulation of KDM4B is required to control heterochromatin accessibility of repetitive DNA and preserve chromatin integrity. Oxford University Press 2022-04-22 /pmc/articles/PMC9071403/ /pubmed/35451487 http://dx.doi.org/10.1093/nar/gkac259 Text en © The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research. https://creativecommons.org/licenses/by-nc/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (https://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 Gene regulation, Chromatin and Epigenetics
Udugama, Maheshi
Vinod, Benjamin
Chan, F Lyn
Hii, Linda
Garvie, Andrew
Collas, Philippe
Kalitsis, Paul
Steer, David
Das, Partha P
Tripathi, Pratibha
Mann, Jeffrey R
Voon, Hsiao P J
Wong, Lee H
Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase
title Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase
title_full Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase
title_fullStr Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase
title_full_unstemmed Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase
title_short Histone H3.3 phosphorylation promotes heterochromatin formation by inhibiting H3K9/K36 histone demethylase
title_sort histone h3.3 phosphorylation promotes heterochromatin formation by inhibiting h3k9/k36 histone demethylase
topic Gene regulation, Chromatin and Epigenetics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9071403/
https://www.ncbi.nlm.nih.gov/pubmed/35451487
http://dx.doi.org/10.1093/nar/gkac259
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