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Revised roles of ISL1 in a hES cell-based model of human heart chamber specification

by Verkerk, Arie O , Araúzo-Bravo, Marcos J , Greber, Boris , Rühle, Frank , Fell, Jakob , Piccini, Ilaria , Stoll, Monika , Quaranta, Roberto , Rao, Jyoti

in Analysis / cardiac subtype specification / Cardiomyocytes / CRISPR / Developmental Biology / directed cardiac differentiation / Embryo cells / Embryonic stem cells / Experiments / Fate / Gene expression / Genetic engineering / Genomics / Heart / Heart cells / Heart diseases / human embryonic stem cells / Identity / Islet-1 / Islet-1 protein / Novels / Proteins / Research centers / Retinoic acid / Rodents / Stem cells / Transcription factors / Tretinoin / Ventricle

2018

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Revised roles of ISL1 in a hES cell-based model of human heart chamber specification

by Verkerk, Arie O , Araúzo-Bravo, Marcos J , Greber, Boris , Rühle, Frank , Fell, Jakob , Piccini, Ilaria , Stoll, Monika , Quaranta, Roberto , Rao, Jyoti

2018

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Revised roles of ISL1 in a hES cell-based model of human heart chamber specification

by Verkerk, Arie O , Araúzo-Bravo, Marcos J , Greber, Boris , Rühle, Frank , Fell, Jakob , Piccini, Ilaria , Stoll, Monika , Quaranta, Roberto , Rao, Jyoti

2018

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Journal Article

Revised roles of ISL1 in a hES cell-based model of human heart chamber specification

Verkerk, Arie O,

Araúzo-Bravo, Marcos J,

Greber, Boris,

Rühle, Frank,

Fell, Jakob,

Piccini, Ilaria,

Stoll, Monika,

Quaranta, Roberto,

Rao, Jyoti

2018

Overview

The transcription factor ISL1 is thought to be key for conveying the multipotent and proliferative properties of cardiac precursor cells. Here, we investigate its function upon cardiac induction of human embryonic stem cells. We find that ISL1 does not stabilize the transient cardiac precursor cell state but rather serves to accelerate cardiomyocyte differentiation. Conversely, ISL1 depletion delays cardiac differentiation and respecifies nascent cardiomyocytes from a ventricular to an atrial identity. Mechanistic analyses integrate this unrecognized anti-atrial function of ISL1 with known and newly identified atrial inducers. In this revised view, ISL1 is antagonized by retinoic acid signaling via a novel player, MEIS2. Conversely, ISL1 competes with the retinoic acid pathway for prospective cardiomyocyte fate, which converges on the atrial specifier NR2F1. This study reveals a core regulatory network putatively controlling human heart chamber formation and also bears implications for the subtype-specific production of human cardiomyocytes with enhanced functional properties.

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Publisher

eLife Science Publications, Ltd,eLife Sciences Publications Ltd,eLife Sciences Publications, Ltd

Subject

Analysis

/ cardiac subtype specification

/ Cardiomyocytes

/ CRISPR

/ Developmental Biology

/ directed cardiac differentiation

/ Embryo cells