Dynamic changes in cis-regulatory occupancy by Six1 and its cooperative interactions with distinct cofactors drive lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium

Abstract The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at differe...

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Published inNucleic acids research Vol. 48; no. 6; pp. 2880 - 2896
Main Authors Li, Jun, Zhang, Ting, Ramakrishnan, Aarthi, Fritzsch, Bernd, Xu, Jinshu, Wong, Elaine Y M, Loh, Yong-Hwee Eddie, Ding, Jianqiang, Shen, Li, Xu, Pin-Xian
Format Journal Article
LanguageEnglish
Published England Oxford University Press 06.04.2020
Subjects
Base Sequence
Cell Differentiation - genetics
Cell Lineage - genetics
Cell Polarity
Consensus Sequence
DNA - metabolism
Dual Specificity Phosphatase 6 - genetics
Dual Specificity Phosphatase 6 - metabolism
Enhancer Elements, Genetic - genetics
Epithelium - metabolism
Fibroblast Growth Factor 8 - genetics
Fibroblast Growth Factor 8 - metabolism
Gene Expression Regulation, Developmental
Gene regulation, Chromatin and Epigenetics
Genetic Loci
Genome
Hair Cells, Auditory - cytology
Hair Cells, Auditory - metabolism
Hair Cells, Auditory - ultrastructure
Homeodomain Proteins - metabolism
Humans
Multiprotein Complexes - metabolism
Nucleotide Motifs - genetics
Protein Binding
Signal Transduction - genetics
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Abstract Abstract The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at different stages of auditory sensory epithelium development and find that Six1-binding to cis-regulatory elements changes dramatically at cell-state transitions. Intriguingly, Six1 pre-occupies enhancers of cell-type-specific regulators and effectors before their expression. We demonstrate in-vivo cell-type-specific activity of Six1-bound novel enhancers of Pbx1, Fgf8, Dusp6, Vangl2, the hair-cell master regulator Atoh1 and a cascade of Atoh1’s downstream factors, including Pou4f3 and Gfi1. A subset of Six1-bound sites carry consensus-sequences for its downstream factors, including Atoh1, Gfi1, Pou4f3, Gata3 and Pbx1, all of which physically interact with Six1. Motif analysis identifies RFX/X-box as one of the most significantly enriched motifs in Six1-bound sites, and we demonstrate that Six1-RFX proteins cooperatively regulate gene expression through binding to SIX:RFX-motifs. Six1 targets a wide range of hair-bundle regulators and late Six1 deletion disrupts hair-bundle polarity. This study provides a mechanistic understanding of how Six1 cooperates with distinct cofactors in feedforward loops to control lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium.
AbstractList The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at different stages of auditory sensory epithelium development and find that Six1-binding to cis -regulatory elements changes dramatically at cell-state transitions. Intriguingly, Six1 pre-occupies enhancers of cell-type-specific regulators and effectors before their expression. We demonstrate in-vivo cell-type-specific activity of Six1-bound novel enhancers of Pbx1 , Fgf8 , Dusp6 , Vangl2 , the hair-cell master regulator Atoh1 and a cascade of Atoh1 ’s downstream factors, including Pou4f3 and Gfi1 . A subset of Six1-bound sites carry consensus-sequences for its downstream factors, including Atoh1, Gfi1, Pou4f3, Gata3 and Pbx1, all of which physically interact with Six1. Motif analysis identifies RFX/X-box as one of the most significantly enriched motifs in Six1-bound sites, and we demonstrate that Six1-RFX proteins cooperatively regulate gene expression through binding to SIX:RFX-motifs. Six1 targets a wide range of hair-bundle regulators and late Six1 deletion disrupts hair-bundle polarity. This study provides a mechanistic understanding of how Six1 cooperates with distinct cofactors in feedforward loops to control lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium.
The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at different stages of auditory sensory epithelium development and find that Six1-binding to cis-regulatory elements changes dramatically at cell-state transitions. Intriguingly, Six1 pre-occupies enhancers of cell-type-specific regulators and effectors before their expression. We demonstrate in-vivo cell-type-specific activity of Six1-bound novel enhancers of Pbx1, Fgf8, Dusp6, Vangl2, the hair-cell master regulator Atoh1 and a cascade of Atoh1’s downstream factors, including Pou4f3 and Gfi1. A subset of Six1-bound sites carry consensus-sequences for its downstream factors, including Atoh1, Gfi1, Pou4f3, Gata3 and Pbx1, all of which physically interact with Six1. Motif analysis identifies RFX/X-box as one of the most significantly enriched motifs in Six1-bound sites, and we demonstrate that Six1-RFX proteins cooperatively regulate gene expression through binding to SIX:RFX-motifs. Six1 targets a wide range of hair-bundle regulators and late Six1 deletion disrupts hair-bundle polarity. This study provides a mechanistic understanding of how Six1 cooperates with distinct cofactors in feedforward loops to control lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium.
Abstract The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at different stages of auditory sensory epithelium development and find that Six1-binding to cis-regulatory elements changes dramatically at cell-state transitions. Intriguingly, Six1 pre-occupies enhancers of cell-type-specific regulators and effectors before their expression. We demonstrate in-vivo cell-type-specific activity of Six1-bound novel enhancers of Pbx1, Fgf8, Dusp6, Vangl2, the hair-cell master regulator Atoh1 and a cascade of Atoh1’s downstream factors, including Pou4f3 and Gfi1. A subset of Six1-bound sites carry consensus-sequences for its downstream factors, including Atoh1, Gfi1, Pou4f3, Gata3 and Pbx1, all of which physically interact with Six1. Motif analysis identifies RFX/X-box as one of the most significantly enriched motifs in Six1-bound sites, and we demonstrate that Six1-RFX proteins cooperatively regulate gene expression through binding to SIX:RFX-motifs. Six1 targets a wide range of hair-bundle regulators and late Six1 deletion disrupts hair-bundle polarity. This study provides a mechanistic understanding of how Six1 cooperates with distinct cofactors in feedforward loops to control lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium.
The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at different stages of auditory sensory epithelium development and find that Six1-binding to cis-regulatory elements changes dramatically at cell-state transitions. Intriguingly, Six1 pre-occupies enhancers of cell-type-specific regulators and effectors before their expression. We demonstrate in-vivo cell-type-specific activity of Six1-bound novel enhancers of Pbx1, Fgf8, Dusp6, Vangl2, the hair-cell master regulator Atoh1 and a cascade of Atoh1's downstream factors, including Pou4f3 and Gfi1. A subset of Six1-bound sites carry consensus-sequences for its downstream factors, including Atoh1, Gfi1, Pou4f3, Gata3 and Pbx1, all of which physically interact with Six1. Motif analysis identifies RFX/X-box as one of the most significantly enriched motifs in Six1-bound sites, and we demonstrate that Six1-RFX proteins cooperatively regulate gene expression through binding to SIX:RFX-motifs. Six1 targets a wide range of hair-bundle regulators and late Six1 deletion disrupts hair-bundle polarity. This study provides a mechanistic understanding of how Six1 cooperates with distinct cofactors in feedforward loops to control lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium.The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene expression programs to generate distinct cell-types remains unknown. Here, we perform genome-wide characterization of Six1 binding at different stages of auditory sensory epithelium development and find that Six1-binding to cis-regulatory elements changes dramatically at cell-state transitions. Intriguingly, Six1 pre-occupies enhancers of cell-type-specific regulators and effectors before their expression. We demonstrate in-vivo cell-type-specific activity of Six1-bound novel enhancers of Pbx1, Fgf8, Dusp6, Vangl2, the hair-cell master regulator Atoh1 and a cascade of Atoh1's downstream factors, including Pou4f3 and Gfi1. A subset of Six1-bound sites carry consensus-sequences for its downstream factors, including Atoh1, Gfi1, Pou4f3, Gata3 and Pbx1, all of which physically interact with Six1. Motif analysis identifies RFX/X-box as one of the most significantly enriched motifs in Six1-bound sites, and we demonstrate that Six1-RFX proteins cooperatively regulate gene expression through binding to SIX:RFX-motifs. Six1 targets a wide range of hair-bundle regulators and late Six1 deletion disrupts hair-bundle polarity. This study provides a mechanistic understanding of how Six1 cooperates with distinct cofactors in feedforward loops to control lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium.
Author Li, Jun
Ramakrishnan, Aarthi
Xu, Jinshu
Zhang, Ting
Ding, Jianqiang
Fritzsch, Bernd
Wong, Elaine Y M
Loh, Yong-Hwee Eddie
Shen, Li
Xu, Pin-Xian
AuthorAffiliation 1 Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai , New York, NY 10029, USA
2 Department of Neurosciences, Icahn School of Medicine at Mount Sinai , New York, NY 10029, USA
3 Department of Biology, University of Iowa , Iowa, IA 52242-1324
5 Department of Cell, Developmental and Regenerative Biology, Icahn School of Medicine at Mount Sinai , New York, NY 10029, USA
4 Department of Infectious Diseases, Shunde Hospital, Southern Medical University , Shunde 528308, Guangdong, China
AuthorAffiliation_xml – name: 5 Department of Cell, Developmental and Regenerative Biology, Icahn School of Medicine at Mount Sinai , New York, NY 10029, USA
– name: 4 Department of Infectious Diseases, Shunde Hospital, Southern Medical University , Shunde 528308, Guangdong, China
– name: 1 Department of Genetics and Genomic Sciences, Icahn School of Medicine at Mount Sinai , New York, NY 10029, USA
– name: 3 Department of Biology, University of Iowa , Iowa, IA 52242-1324
– name: 2 Department of Neurosciences, Icahn School of Medicine at Mount Sinai , New York, NY 10029, USA
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Snippet Abstract The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene...
The transcription factor Six1 is essential for induction of sensory cell fate and formation of auditory sensory epithelium, but how it activates gene...
SourceID pubmedcentral
proquest
pubmed
crossref
oup
SourceType Open Access Repository
Aggregation Database
Index Database
Enrichment Source
Publisher
StartPage 2880
SubjectTerms Base Sequence
Cell Differentiation - genetics
Cell Lineage - genetics
Cell Polarity
Consensus Sequence
DNA - metabolism
Dual Specificity Phosphatase 6 - genetics
Dual Specificity Phosphatase 6 - metabolism
Enhancer Elements, Genetic - genetics
Epithelium - metabolism
Fibroblast Growth Factor 8 - genetics
Fibroblast Growth Factor 8 - metabolism
Gene Expression Regulation, Developmental
Gene regulation, Chromatin and Epigenetics
Genetic Loci
Genome
Hair Cells, Auditory - cytology
Hair Cells, Auditory - metabolism
Hair Cells, Auditory - ultrastructure
Homeodomain Proteins - metabolism
Humans
Multiprotein Complexes - metabolism
Nucleotide Motifs - genetics
Protein Binding
Signal Transduction - genetics
Title Dynamic changes in cis-regulatory occupancy by Six1 and its cooperative interactions with distinct cofactors drive lineage-specific gene expression programs during progressive differentiation of the auditory sensory epithelium
URI https://www.ncbi.nlm.nih.gov/pubmed/31956913
https://www.proquest.com/docview/2342361111
https://pubmed.ncbi.nlm.nih.gov/PMC7102962
Volume 48
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