A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2

Histone methylation is essential for gene expression control. Trimethylated lysine 27 of histone 3 (H3K27me3) is controlled by the balance between the activities of JMJD3 demethylase and EZH2 methyltransferase. This epigenetic mark has been shown to be deregulated in prostate cancer, and evidence sh...

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Autores principales: Daures, Marine, Idrissou, Mouhamed, Judes, Gaëlle, Rifaï, Khaldoun, Penault-Llorca, Frédérique, Bignon, Yves-Jean, Guy, Laurent, Bernard-Gallon, Dominique
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Impact Journals LLC 2018
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5955128/
https://www.ncbi.nlm.nih.gov/pubmed/29805743
http://dx.doi.org/10.18632/oncotarget.25182
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author Daures, Marine
Idrissou, Mouhamed
Judes, Gaëlle
Rifaï, Khaldoun
Penault-Llorca, Frédérique
Bignon, Yves-Jean
Guy, Laurent
Bernard-Gallon, Dominique
author_facet Daures, Marine
Idrissou, Mouhamed
Judes, Gaëlle
Rifaï, Khaldoun
Penault-Llorca, Frédérique
Bignon, Yves-Jean
Guy, Laurent
Bernard-Gallon, Dominique
author_sort Daures, Marine
collection PubMed
description Histone methylation is essential for gene expression control. Trimethylated lysine 27 of histone 3 (H3K27me3) is controlled by the balance between the activities of JMJD3 demethylase and EZH2 methyltransferase. This epigenetic mark has been shown to be deregulated in prostate cancer, and evidence shows H3K27me3 enrichment on gene promoters in prostate cancer. To study the impact of this enrichment, a transcriptomic analysis with TaqMan Low Density Array (TLDA) of several genes was studied on prostate biopsies divided into three clinical grades: normal (n = 23) and two tumor groups that differed in their aggressiveness (Gleason score ≤ 7 (n = 20) and >7 (n = 19)). ANOVA demonstrated that expression of the gene set was upregulated in tumors and correlated with Gleason score, thus discriminating between the three clinical groups. Six genes involved in key cellular processes stood out: JMJD3, EZH2, MGMT, TRA2A, U2AF1 and RPS6KA2. Chromatin immunoprecipitation demonstrated collocation of EZH2 and JMJD3 on gene promoters that was dependent on disease stage. Gene set expression was also evaluated on prostate cancer cell lines (DU 145, PC-3 and LNCaP) treated with an inhibitor of JMJD3 (GSK-J4) or EZH2 (DZNeP) to study their involvement in gene regulation. Results showed a difference in GSK-J4 sensitivity under PTEN status of cell lines and an opposite gene expression profile according to androgen status of cells. In summary, our data describe the impacts of JMJD3 and EZH2 on a new gene signature involved in prostate cancer that may help identify diagnostic and therapeutic targets in prostate cancer.
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spelling pubmed-59551282018-05-27 A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2 Daures, Marine Idrissou, Mouhamed Judes, Gaëlle Rifaï, Khaldoun Penault-Llorca, Frédérique Bignon, Yves-Jean Guy, Laurent Bernard-Gallon, Dominique Oncotarget Research Paper Histone methylation is essential for gene expression control. Trimethylated lysine 27 of histone 3 (H3K27me3) is controlled by the balance between the activities of JMJD3 demethylase and EZH2 methyltransferase. This epigenetic mark has been shown to be deregulated in prostate cancer, and evidence shows H3K27me3 enrichment on gene promoters in prostate cancer. To study the impact of this enrichment, a transcriptomic analysis with TaqMan Low Density Array (TLDA) of several genes was studied on prostate biopsies divided into three clinical grades: normal (n = 23) and two tumor groups that differed in their aggressiveness (Gleason score ≤ 7 (n = 20) and >7 (n = 19)). ANOVA demonstrated that expression of the gene set was upregulated in tumors and correlated with Gleason score, thus discriminating between the three clinical groups. Six genes involved in key cellular processes stood out: JMJD3, EZH2, MGMT, TRA2A, U2AF1 and RPS6KA2. Chromatin immunoprecipitation demonstrated collocation of EZH2 and JMJD3 on gene promoters that was dependent on disease stage. Gene set expression was also evaluated on prostate cancer cell lines (DU 145, PC-3 and LNCaP) treated with an inhibitor of JMJD3 (GSK-J4) or EZH2 (DZNeP) to study their involvement in gene regulation. Results showed a difference in GSK-J4 sensitivity under PTEN status of cell lines and an opposite gene expression profile according to androgen status of cells. In summary, our data describe the impacts of JMJD3 and EZH2 on a new gene signature involved in prostate cancer that may help identify diagnostic and therapeutic targets in prostate cancer. Impact Journals LLC 2018-05-04 /pmc/articles/PMC5955128/ /pubmed/29805743 http://dx.doi.org/10.18632/oncotarget.25182 Text en Copyright: © 2018 Daures et al. http://creativecommons.org/licenses/by/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License 3.0 (http://creativecommons.org/licenses/by/3.0/) (CC BY 3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Paper
Daures, Marine
Idrissou, Mouhamed
Judes, Gaëlle
Rifaï, Khaldoun
Penault-Llorca, Frédérique
Bignon, Yves-Jean
Guy, Laurent
Bernard-Gallon, Dominique
A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2
title A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2
title_full A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2
title_fullStr A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2
title_full_unstemmed A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2
title_short A new metabolic gene signature in prostate cancer regulated by JMJD3 and EZH2
title_sort new metabolic gene signature in prostate cancer regulated by jmjd3 and ezh2
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5955128/
https://www.ncbi.nlm.nih.gov/pubmed/29805743
http://dx.doi.org/10.18632/oncotarget.25182
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