GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation

Heterozygous de novo mutations in GATA6 are the most frequent cause of pancreatic agenesis in humans. In mice, however, a similar phenotype requires the biallelic loss of Gata6 and its paralog Gata4. To elaborate the human-specific requirements for GATA6, we chose to model GATA6 loss in vitro by com...

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Autores principales: Chia, Crystal Y., Madrigal, Pedro, Denil, Simon L.I.J., Martinez, Iker, Garcia-Bernardo, Jose, El-Khairi, Ranna, Chhatriwala, Mariya, Shepherd, Maggie H., Hattersley, Andrew T., Dunn, N. Ray, Vallier, Ludovic
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6335596/
https://www.ncbi.nlm.nih.gov/pubmed/30629940
http://dx.doi.org/10.1016/j.stemcr.2018.12.003
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author Chia, Crystal Y.
Madrigal, Pedro
Denil, Simon L.I.J.
Martinez, Iker
Garcia-Bernardo, Jose
El-Khairi, Ranna
Chhatriwala, Mariya
Shepherd, Maggie H.
Hattersley, Andrew T.
Dunn, N. Ray
Vallier, Ludovic
author_facet Chia, Crystal Y.
Madrigal, Pedro
Denil, Simon L.I.J.
Martinez, Iker
Garcia-Bernardo, Jose
El-Khairi, Ranna
Chhatriwala, Mariya
Shepherd, Maggie H.
Hattersley, Andrew T.
Dunn, N. Ray
Vallier, Ludovic
author_sort Chia, Crystal Y.
collection PubMed
description Heterozygous de novo mutations in GATA6 are the most frequent cause of pancreatic agenesis in humans. In mice, however, a similar phenotype requires the biallelic loss of Gata6 and its paralog Gata4. To elaborate the human-specific requirements for GATA6, we chose to model GATA6 loss in vitro by combining both gene-edited and patient-derived pluripotent stem cells (hPSCs) and directed differentiation toward β-like cells. We find that GATA6 heterozygous hPSCs show a modest reduction in definitive endoderm (DE) formation, while GATA6-null hPSCs fail to enter the DE lineage. Consistent with these results, genome-wide studies show that GATA6 binds and cooperates with EOMES/SMAD2/3 to regulate the expression of cardinal endoderm genes. The early deficit in DE is accompanied by a significant reduction in PDX1(+) pancreatic progenitors and C-PEPTIDE(+) β-like cells. Taken together, our data position GATA6 as a gatekeeper to early human, but not murine, pancreatic ontogeny.
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spelling pubmed-63355962019-01-23 GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation Chia, Crystal Y. Madrigal, Pedro Denil, Simon L.I.J. Martinez, Iker Garcia-Bernardo, Jose El-Khairi, Ranna Chhatriwala, Mariya Shepherd, Maggie H. Hattersley, Andrew T. Dunn, N. Ray Vallier, Ludovic Stem Cell Reports Article Heterozygous de novo mutations in GATA6 are the most frequent cause of pancreatic agenesis in humans. In mice, however, a similar phenotype requires the biallelic loss of Gata6 and its paralog Gata4. To elaborate the human-specific requirements for GATA6, we chose to model GATA6 loss in vitro by combining both gene-edited and patient-derived pluripotent stem cells (hPSCs) and directed differentiation toward β-like cells. We find that GATA6 heterozygous hPSCs show a modest reduction in definitive endoderm (DE) formation, while GATA6-null hPSCs fail to enter the DE lineage. Consistent with these results, genome-wide studies show that GATA6 binds and cooperates with EOMES/SMAD2/3 to regulate the expression of cardinal endoderm genes. The early deficit in DE is accompanied by a significant reduction in PDX1(+) pancreatic progenitors and C-PEPTIDE(+) β-like cells. Taken together, our data position GATA6 as a gatekeeper to early human, but not murine, pancreatic ontogeny. Elsevier 2019-01-08 /pmc/articles/PMC6335596/ /pubmed/30629940 http://dx.doi.org/10.1016/j.stemcr.2018.12.003 Text en © 2018 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Chia, Crystal Y.
Madrigal, Pedro
Denil, Simon L.I.J.
Martinez, Iker
Garcia-Bernardo, Jose
El-Khairi, Ranna
Chhatriwala, Mariya
Shepherd, Maggie H.
Hattersley, Andrew T.
Dunn, N. Ray
Vallier, Ludovic
GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation
title GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation
title_full GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation
title_fullStr GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation
title_full_unstemmed GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation
title_short GATA6 Cooperates with EOMES/SMAD2/3 to Deploy the Gene Regulatory Network Governing Human Definitive Endoderm and Pancreas Formation
title_sort gata6 cooperates with eomes/smad2/3 to deploy the gene regulatory network governing human definitive endoderm and pancreas formation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6335596/
https://www.ncbi.nlm.nih.gov/pubmed/30629940
http://dx.doi.org/10.1016/j.stemcr.2018.12.003
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