In Vivo Regulation of the Zebrafish Endoderm Progenitor Niche by T-Box Transcription Factors

Andrew C. Nelson; Stephen J. Cutty; Saule N. Gasiunas; Isabella Deplae; Derek L. Stemple; Fiona C. Wardle

doi:10.1016/j.celrep.2017.06.011

In Vivo Regulation of the Zebrafish Endoderm Progenitor Niche by T-Box Transcription Factors

Andrew C. Nelson, Stephen J. Cutty, Saule N. Gasiunas, Isabella Deplae, Derek L. Stemple, Fiona C. Wardle

King's College London

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

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Abstract

T-box transcription factors T/Brachyury homolog A (Ta) and Tbx16 are essential for correct mesoderm development in zebrafish. The downstream transcriptional networks guiding their functional activities are poorly understood. Additionally, important contributions elsewhere are likely masked due to redundancy.

Here, we exploit functional genomic strategies to identify Ta and Tbx16 targets in early embryogenesis. Surprisingly, we discovered they not only activate mesodermal gene expression but also redundantly regulate key endodermal determinants, leading to substantial loss of endoderm in double mutants. To further explore the gene regulatory networks (GRNs) governing endoderm formation, we identified targets of Ta/Tbx16-regulated homeodomain transcription factor Mixl1, which is absolutely required in zebrafish for endoderm formation. Interestingly, we find many endodermal determinants coordinately regulated through common genomic occupancy by Mixl1, Eomesa, Smad2, Nanog, Mxtx2, and Pou5f3.

Collectively, these findings augment the endoderm GRN and reveal a panel of target genes underlying the Ta, Tbx16, and Mixl1 mutant phenotypes.

Original language	English
Pages (from-to)	2782-2795
Number of pages	14
Journal	Cell Reports
Volume	19
Issue number	13
DOIs	https://doi.org/10.1016/j.celrep.2017.06.011
Publication status	Published - 27 Jun 2017

Keywords

T-box
endoderm
transcription
ChIP-seq
redundancy

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In Vivo Regulation of-NELSON_Publishedonline27June2017_GOLD VoR (CC BY)Final published version, 4.9 MBLicence: CC BY

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title = "In Vivo Regulation of the Zebrafish Endoderm Progenitor Niche by T-Box Transcription Factors",

abstract = "T-box transcription factors T/Brachyury homolog A (Ta) and Tbx16 are essential for correct mesoderm development in zebrafish. The downstream transcriptional networks guiding their functional activities are poorly understood. Additionally, important contributions elsewhere are likely masked due to redundancy. Here, we exploit functional genomic strategies to identify Ta and Tbx16 targets in early embryogenesis. Surprisingly, we discovered they not only activate mesodermal gene expression but also redundantly regulate key endodermal determinants, leading to substantial loss of endoderm in double mutants. To further explore the gene regulatory networks (GRNs) governing endoderm formation, we identified targets of Ta/Tbx16-regulated homeodomain transcription factor Mixl1, which is absolutely required in zebrafish for endoderm formation. Interestingly, we find many endodermal determinants coordinately regulated through common genomic occupancy by Mixl1, Eomesa, Smad2, Nanog, Mxtx2, and Pou5f3.Collectively, these findings augment the endoderm GRN and reveal a panel of target genes underlying the Ta, Tbx16, and Mixl1 mutant phenotypes.",

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author = "Nelson, {Andrew C.} and Cutty, {Stephen J.} and Gasiunas, {Saule N.} and Isabella Deplae and Stemple, {Derek L.} and Wardle, {Fiona C.}",

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AU - Nelson, Andrew C.

AU - Cutty, Stephen J.

AU - Gasiunas, Saule N.

AU - Deplae, Isabella

AU - Stemple, Derek L.

AU - Wardle, Fiona C.

PY - 2017/6/27

Y1 - 2017/6/27

N2 - T-box transcription factors T/Brachyury homolog A (Ta) and Tbx16 are essential for correct mesoderm development in zebrafish. The downstream transcriptional networks guiding their functional activities are poorly understood. Additionally, important contributions elsewhere are likely masked due to redundancy. Here, we exploit functional genomic strategies to identify Ta and Tbx16 targets in early embryogenesis. Surprisingly, we discovered they not only activate mesodermal gene expression but also redundantly regulate key endodermal determinants, leading to substantial loss of endoderm in double mutants. To further explore the gene regulatory networks (GRNs) governing endoderm formation, we identified targets of Ta/Tbx16-regulated homeodomain transcription factor Mixl1, which is absolutely required in zebrafish for endoderm formation. Interestingly, we find many endodermal determinants coordinately regulated through common genomic occupancy by Mixl1, Eomesa, Smad2, Nanog, Mxtx2, and Pou5f3.Collectively, these findings augment the endoderm GRN and reveal a panel of target genes underlying the Ta, Tbx16, and Mixl1 mutant phenotypes.

AB - T-box transcription factors T/Brachyury homolog A (Ta) and Tbx16 are essential for correct mesoderm development in zebrafish. The downstream transcriptional networks guiding their functional activities are poorly understood. Additionally, important contributions elsewhere are likely masked due to redundancy. Here, we exploit functional genomic strategies to identify Ta and Tbx16 targets in early embryogenesis. Surprisingly, we discovered they not only activate mesodermal gene expression but also redundantly regulate key endodermal determinants, leading to substantial loss of endoderm in double mutants. To further explore the gene regulatory networks (GRNs) governing endoderm formation, we identified targets of Ta/Tbx16-regulated homeodomain transcription factor Mixl1, which is absolutely required in zebrafish for endoderm formation. Interestingly, we find many endodermal determinants coordinately regulated through common genomic occupancy by Mixl1, Eomesa, Smad2, Nanog, Mxtx2, and Pou5f3.Collectively, these findings augment the endoderm GRN and reveal a panel of target genes underlying the Ta, Tbx16, and Mixl1 mutant phenotypes.

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In Vivo Regulation of the Zebrafish Endoderm Progenitor Niche by T-Box Transcription Factors

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Keywords

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