The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages

RXR signaling is predicted to have a major impact in macrophages, but neither the biological consequence nor the genomic basis of its ligand activation is known. Comprehensive genome-wide studies were carried out to map liganded RXR-mediated transcriptional changes, active binding sites, and cistrom...

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Autores principales: Daniel, Bence, Nagy, Gergely, Hah, Nasun, Horvath, Attila, Czimmerer, Zsolt, Poliska, Szilard, Gyuris, Tibor, Keirsse, Jiri, Gysemans, Conny, Van Ginderachter, Jo A., Balint, Balint L., Evans, Ronald M., Barta, Endre, Nagy, Laszlo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory Press 2014
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4102764/
https://www.ncbi.nlm.nih.gov/pubmed/25030696
http://dx.doi.org/10.1101/gad.242685.114
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author Daniel, Bence
Nagy, Gergely
Hah, Nasun
Horvath, Attila
Czimmerer, Zsolt
Poliska, Szilard
Gyuris, Tibor
Keirsse, Jiri
Gysemans, Conny
Van Ginderachter, Jo A.
Balint, Balint L.
Evans, Ronald M.
Barta, Endre
Nagy, Laszlo
author_facet Daniel, Bence
Nagy, Gergely
Hah, Nasun
Horvath, Attila
Czimmerer, Zsolt
Poliska, Szilard
Gyuris, Tibor
Keirsse, Jiri
Gysemans, Conny
Van Ginderachter, Jo A.
Balint, Balint L.
Evans, Ronald M.
Barta, Endre
Nagy, Laszlo
author_sort Daniel, Bence
collection PubMed
description RXR signaling is predicted to have a major impact in macrophages, but neither the biological consequence nor the genomic basis of its ligand activation is known. Comprehensive genome-wide studies were carried out to map liganded RXR-mediated transcriptional changes, active binding sites, and cistromic interactions in the context of the macrophage genome architecture. The macrophage RXR cistrome has 5200 genomic binding sites, which are not impacted by ligand. Active enhancers are characterized by PU.1 binding, an increase of enhancer RNA, and P300 recruitment. Using these features, 387 liganded RXR-bound enhancers were linked to 226 genes, which predominantly reside in CTCF/cohesin-limited functional domains. These findings were molecularly validated using chromosome conformation capture (3C) and 3C combined with sequencing (3C-seq), and we show that selected long-range enhancers communicate with promoters via stable or RXR-induced loops and that some of the enhancers interact with each other, forming an interchromosomal network. A set of angiogenic genes, including Vegfa, has liganded RXR-controlled enhancers and provides the macrophage with a novel inducible program.
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spelling pubmed-41027642014-07-28 The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages Daniel, Bence Nagy, Gergely Hah, Nasun Horvath, Attila Czimmerer, Zsolt Poliska, Szilard Gyuris, Tibor Keirsse, Jiri Gysemans, Conny Van Ginderachter, Jo A. Balint, Balint L. Evans, Ronald M. Barta, Endre Nagy, Laszlo Genes Dev Research Paper RXR signaling is predicted to have a major impact in macrophages, but neither the biological consequence nor the genomic basis of its ligand activation is known. Comprehensive genome-wide studies were carried out to map liganded RXR-mediated transcriptional changes, active binding sites, and cistromic interactions in the context of the macrophage genome architecture. The macrophage RXR cistrome has 5200 genomic binding sites, which are not impacted by ligand. Active enhancers are characterized by PU.1 binding, an increase of enhancer RNA, and P300 recruitment. Using these features, 387 liganded RXR-bound enhancers were linked to 226 genes, which predominantly reside in CTCF/cohesin-limited functional domains. These findings were molecularly validated using chromosome conformation capture (3C) and 3C combined with sequencing (3C-seq), and we show that selected long-range enhancers communicate with promoters via stable or RXR-induced loops and that some of the enhancers interact with each other, forming an interchromosomal network. A set of angiogenic genes, including Vegfa, has liganded RXR-controlled enhancers and provides the macrophage with a novel inducible program. Cold Spring Harbor Laboratory Press 2014-07-15 /pmc/articles/PMC4102764/ /pubmed/25030696 http://dx.doi.org/10.1101/gad.242685.114 Text en © 2014 Daniel et al.; Published by Cold Spring Harbor Laboratory Press http://creativecommons.org/licenses/by/4.0/ This article, published in Genes & Development, is available under a Creative Commons License (Attribution 4.0 International), as described at http://creativecommons.org/licenses/by/4.0.
spellingShingle Research Paper
Daniel, Bence
Nagy, Gergely
Hah, Nasun
Horvath, Attila
Czimmerer, Zsolt
Poliska, Szilard
Gyuris, Tibor
Keirsse, Jiri
Gysemans, Conny
Van Ginderachter, Jo A.
Balint, Balint L.
Evans, Ronald M.
Barta, Endre
Nagy, Laszlo
The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages
title The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages
title_full The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages
title_fullStr The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages
title_full_unstemmed The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages
title_short The active enhancer network operated by liganded RXR supports angiogenic activity in macrophages
title_sort active enhancer network operated by liganded rxr supports angiogenic activity in macrophages
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4102764/
https://www.ncbi.nlm.nih.gov/pubmed/25030696
http://dx.doi.org/10.1101/gad.242685.114
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