Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants

Point mutations within the histone H3.3 are frequent in aggressive childhood brain tumors known as pediatric high-grade gliomas (pHGGs). Intriguingly, distinct mutations arise in discrete anatomical regions: H3.3-G34R within the forebrain and H3.3-K27M preferentially within the hindbrain. The reason...

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Autores principales: Bressan, Raul Bardini, Southgate, Benjamin, Ferguson, Kirsty M., Blin, Carla, Grant, Vivien, Alfazema, Neza, Wills, Jimi C., Marques-Torrejon, Maria Angeles, Morrison, Gillian M., Ashmore, James, Robertson, Faye, Williams, Charles A.C., Bradley, Leanne, von Kriegsheim, Alex, Anderson, Richard A., Tomlinson, Simon R., Pollard, Steven M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8110245/
https://www.ncbi.nlm.nih.gov/pubmed/33631116
http://dx.doi.org/10.1016/j.stem.2021.01.016
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author Bressan, Raul Bardini
Southgate, Benjamin
Ferguson, Kirsty M.
Blin, Carla
Grant, Vivien
Alfazema, Neza
Wills, Jimi C.
Marques-Torrejon, Maria Angeles
Morrison, Gillian M.
Ashmore, James
Robertson, Faye
Williams, Charles A.C.
Bradley, Leanne
von Kriegsheim, Alex
Anderson, Richard A.
Tomlinson, Simon R.
Pollard, Steven M.
author_facet Bressan, Raul Bardini
Southgate, Benjamin
Ferguson, Kirsty M.
Blin, Carla
Grant, Vivien
Alfazema, Neza
Wills, Jimi C.
Marques-Torrejon, Maria Angeles
Morrison, Gillian M.
Ashmore, James
Robertson, Faye
Williams, Charles A.C.
Bradley, Leanne
von Kriegsheim, Alex
Anderson, Richard A.
Tomlinson, Simon R.
Pollard, Steven M.
author_sort Bressan, Raul Bardini
collection PubMed
description Point mutations within the histone H3.3 are frequent in aggressive childhood brain tumors known as pediatric high-grade gliomas (pHGGs). Intriguingly, distinct mutations arise in discrete anatomical regions: H3.3-G34R within the forebrain and H3.3-K27M preferentially within the hindbrain. The reasons for this contrasting etiology are unknown. By engineering human fetal neural stem cell cultures from distinct brain regions, we demonstrate here that cell-intrinsic regional identity provides differential responsiveness to each mutant that mirrors the origins of pHGGs. Focusing on H3.3-G34R, we find that the oncohistone supports proliferation of forebrain cells while inducing a cytostatic response in the hindbrain. Mechanistically, H3.3-G34R does not impose widespread transcriptional or epigenetic changes but instead impairs recruitment of ZMYND11, a transcriptional repressor of highly expressed genes. We therefore propose that H3.3-G34R promotes tumorigenesis by focally stabilizing the expression of key progenitor genes, thereby locking initiating forebrain cells into their pre-existing immature state.
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spelling pubmed-81102452021-05-14 Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants Bressan, Raul Bardini Southgate, Benjamin Ferguson, Kirsty M. Blin, Carla Grant, Vivien Alfazema, Neza Wills, Jimi C. Marques-Torrejon, Maria Angeles Morrison, Gillian M. Ashmore, James Robertson, Faye Williams, Charles A.C. Bradley, Leanne von Kriegsheim, Alex Anderson, Richard A. Tomlinson, Simon R. Pollard, Steven M. Cell Stem Cell Article Point mutations within the histone H3.3 are frequent in aggressive childhood brain tumors known as pediatric high-grade gliomas (pHGGs). Intriguingly, distinct mutations arise in discrete anatomical regions: H3.3-G34R within the forebrain and H3.3-K27M preferentially within the hindbrain. The reasons for this contrasting etiology are unknown. By engineering human fetal neural stem cell cultures from distinct brain regions, we demonstrate here that cell-intrinsic regional identity provides differential responsiveness to each mutant that mirrors the origins of pHGGs. Focusing on H3.3-G34R, we find that the oncohistone supports proliferation of forebrain cells while inducing a cytostatic response in the hindbrain. Mechanistically, H3.3-G34R does not impose widespread transcriptional or epigenetic changes but instead impairs recruitment of ZMYND11, a transcriptional repressor of highly expressed genes. We therefore propose that H3.3-G34R promotes tumorigenesis by focally stabilizing the expression of key progenitor genes, thereby locking initiating forebrain cells into their pre-existing immature state. Cell Press 2021-05-06 /pmc/articles/PMC8110245/ /pubmed/33631116 http://dx.doi.org/10.1016/j.stem.2021.01.016 Text en © 2021 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Bressan, Raul Bardini
Southgate, Benjamin
Ferguson, Kirsty M.
Blin, Carla
Grant, Vivien
Alfazema, Neza
Wills, Jimi C.
Marques-Torrejon, Maria Angeles
Morrison, Gillian M.
Ashmore, James
Robertson, Faye
Williams, Charles A.C.
Bradley, Leanne
von Kriegsheim, Alex
Anderson, Richard A.
Tomlinson, Simon R.
Pollard, Steven M.
Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants
title Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants
title_full Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants
title_fullStr Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants
title_full_unstemmed Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants
title_short Regional identity of human neural stem cells determines oncogenic responses to histone H3.3 mutants
title_sort regional identity of human neural stem cells determines oncogenic responses to histone h3.3 mutants
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8110245/
https://www.ncbi.nlm.nih.gov/pubmed/33631116
http://dx.doi.org/10.1016/j.stem.2021.01.016
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