NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets

We take a functional genomics approach to congenital heart disease mechanism. We used DamID to establish a robust set of target genes for NKX2-5 wild type and disease associated NKX2-5 mutations to model loss-of-function in gene regulatory networks. NKX2-5 mutants, including those with a crippled ho...

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Autores principales: Bouveret, Romaric, Waardenberg, Ashley J, Schonrock, Nicole, Ramialison, Mirana, Doan, Tram, de Jong, Danielle, Bondue, Antoine, Kaur, Gurpreet, Mohamed, Stephanie, Fonoudi, Hananeh, Chen, Chiann-mun, Wouters, Merridee A, Bhattacharya, Shoumo, Plachta, Nicolas, Dunwoodie, Sally L, Chapman, Gavin, Blanpain, Cédric, Harvey, Richard P
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2015
Materias:
Developmental Biology and Stem Cells
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4548209/
https://www.ncbi.nlm.nih.gov/pubmed/26146939
http://dx.doi.org/10.7554/eLife.06942
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author Bouveret, Romaric
Waardenberg, Ashley J
Schonrock, Nicole
Ramialison, Mirana
Doan, Tram
de Jong, Danielle
Bondue, Antoine
Kaur, Gurpreet
Mohamed, Stephanie
Fonoudi, Hananeh
Chen, Chiann-mun
Wouters, Merridee A
Bhattacharya, Shoumo
Plachta, Nicolas
Dunwoodie, Sally L
Chapman, Gavin
Blanpain, Cédric
Harvey, Richard P
author_facet Bouveret, Romaric
Waardenberg, Ashley J
Schonrock, Nicole
Ramialison, Mirana
Doan, Tram
de Jong, Danielle
Bondue, Antoine
Kaur, Gurpreet
Mohamed, Stephanie
Fonoudi, Hananeh
Chen, Chiann-mun
Wouters, Merridee A
Bhattacharya, Shoumo
Plachta, Nicolas
Dunwoodie, Sally L
Chapman, Gavin
Blanpain, Cédric
Harvey, Richard P
author_sort Bouveret, Romaric
collection PubMed
description We take a functional genomics approach to congenital heart disease mechanism. We used DamID to establish a robust set of target genes for NKX2-5 wild type and disease associated NKX2-5 mutations to model loss-of-function in gene regulatory networks. NKX2-5 mutants, including those with a crippled homeodomain, bound hundreds of targets including NKX2-5 wild type targets and a unique set of "off-targets", and retained partial functionality. NKXΔHD, which lacks the homeodomain completely, could heterodimerize with NKX2-5 wild type and its cofactors, including E26 transformation-specific (ETS) family members, through a tyrosine-rich homophilic interaction domain (YRD). Off-targets of NKX2-5 mutants, but not those of an NKX2-5 YRD mutant, showed overrepresentation of ETS binding sites and were occupied by ETS proteins, as determined by DamID. Analysis of kernel transcription factor and ETS targets show that ETS proteins are highly embedded within the cardiac gene regulatory network. Our study reveals binding and activities of NKX2-5 mutations on WT target and off-targets, guided by interactions with their normal cardiac and general cofactors, and suggest a novel type of gain-of-function in congenital heart disease. DOI: http://dx.doi.org/10.7554/eLife.06942.001
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spelling pubmed-45482092015-08-27 NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets Bouveret, Romaric Waardenberg, Ashley J Schonrock, Nicole Ramialison, Mirana Doan, Tram de Jong, Danielle Bondue, Antoine Kaur, Gurpreet Mohamed, Stephanie Fonoudi, Hananeh Chen, Chiann-mun Wouters, Merridee A Bhattacharya, Shoumo Plachta, Nicolas Dunwoodie, Sally L Chapman, Gavin Blanpain, Cédric Harvey, Richard P eLife Developmental Biology and Stem Cells We take a functional genomics approach to congenital heart disease mechanism. We used DamID to establish a robust set of target genes for NKX2-5 wild type and disease associated NKX2-5 mutations to model loss-of-function in gene regulatory networks. NKX2-5 mutants, including those with a crippled homeodomain, bound hundreds of targets including NKX2-5 wild type targets and a unique set of "off-targets", and retained partial functionality. NKXΔHD, which lacks the homeodomain completely, could heterodimerize with NKX2-5 wild type and its cofactors, including E26 transformation-specific (ETS) family members, through a tyrosine-rich homophilic interaction domain (YRD). Off-targets of NKX2-5 mutants, but not those of an NKX2-5 YRD mutant, showed overrepresentation of ETS binding sites and were occupied by ETS proteins, as determined by DamID. Analysis of kernel transcription factor and ETS targets show that ETS proteins are highly embedded within the cardiac gene regulatory network. Our study reveals binding and activities of NKX2-5 mutations on WT target and off-targets, guided by interactions with their normal cardiac and general cofactors, and suggest a novel type of gain-of-function in congenital heart disease. DOI: http://dx.doi.org/10.7554/eLife.06942.001 eLife Sciences Publications, Ltd 2015-07-06 /pmc/articles/PMC4548209/ /pubmed/26146939 http://dx.doi.org/10.7554/eLife.06942 Text en © 2015, Bouveret et al http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Developmental Biology and Stem Cells
Bouveret, Romaric
Waardenberg, Ashley J
Schonrock, Nicole
Ramialison, Mirana
Doan, Tram
de Jong, Danielle
Bondue, Antoine
Kaur, Gurpreet
Mohamed, Stephanie
Fonoudi, Hananeh
Chen, Chiann-mun
Wouters, Merridee A
Bhattacharya, Shoumo
Plachta, Nicolas
Dunwoodie, Sally L
Chapman, Gavin
Blanpain, Cédric
Harvey, Richard P
NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
title NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
title_full NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
title_fullStr NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
title_full_unstemmed NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
title_short NKX2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
title_sort nkx2-5 mutations causative for congenital heart disease retain functionality and are directed to hundreds of targets
topic Developmental Biology and Stem Cells
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4548209/
https://www.ncbi.nlm.nih.gov/pubmed/26146939
http://dx.doi.org/10.7554/eLife.06942
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