The EMT transcription factor Snai1 maintains myocardial wall integrity by repressing intermediate filament gene expression

Gentile, Alessandra; Bensimon-Brito, Anabela; Priya, Rashmi; Maischein, Hans-Martin; Piesker, Janett; Guenther, Stefan; Gunawan, Felix; Stainier, Didier Y.R.

doi:10.1101/2020.12.15.422833

Cited by 2 publications

(1 citation statement)

References 60 publications

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“…This event of cell delamination was not observed in myl7:Gal4:eGFP:UAS:RFP control embryos (Fig 2F and S2 Video; n=2). Apical extrusion of cardiomyocytes can be a consequence of myocardial malformation during which extruded cells are eliminated (25, 26). However, here we found that the delaminated cells did remain attached to the myocardial surface.…”

Section: Resultsmentioning

confidence: 99%

Downregulation of WT1 transcription factor gene expression is required to promote myocardial fate

Marques

Ernst

Arora

et al. 2021

Preprint

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During cardiac development, cells from the precardiac mesoderm fuse to form the primordial heart tube, which then grows by addition of further progenitors to the venous and arterial poles. In the zebrafish, wilms tumor 1 transcription factor a (wt1a) and b (wt1b) are expressed in the pericardial mesoderm at the venous pole of the forming heart tube. The pericardial mesoderm forms a single layered mesothelial sheet that contributes to further the growth of the myocardium, and forms the proepicardium. Proepicardial cells are subsequently transferred to the myocardial surface and give rise to the epicardium, the outer layer covering the myocardium in the adult heart. wt1a/b expression is downregulated during the transition from pericardium to myocardium, but remains high in proepicardial cells. Here we show that sustained wt1 expression impaired cardiomyocyte maturation including sarcomere assembly, ultimately affecting heart morphology and cardiac function. ATAC-seq data analysis of cardiomyocytes overexpressing wt1 revealed that chromatin regions associated with myocardial differentiation genes remain closed upon wt1b overexpression in cardiomyocytes, suggesting that wt1 represses a myocardial differentiation program. Indeed, a subset of wt1a/b-expressing cardiomyocytes changed their cell adhesion properties, delaminated from the myocardial epithelium, and upregulated the expression of epicardial genes, as confirmed by in vivo imaging. Thus, we conclude that wt1 acts as a break for cardiomyocyte differentiation by repressing chromatin opening at specific genomic loci and that sustained ectopic expression of wt1 in cardiomyocytes can lead to their transformation into epicardial cells.

show abstract

Section: Resultsmentioning

confidence: 99%

Downregulation of WT1 transcription factor gene expression is required to promote myocardial fate

Marques

Ernst

Arora

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

Wt1 transcription factor impairs cardiomyocyte specification and drives a phenotypic switch from myocardium to epicardium

et al. 2022

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During development, the heart growths through addition of progenitor cells to the poles of the primordial heart tube. In the zebrafish, wilms tumor 1 transcription factor a (wt1a) and b (wt1b) are expressed in the pericardium, at the venous pole of the heart. From this pericardial layer, the proepicardium emerges. Proepicardial cells are subsequently transferred to the myocardial surface and form the epicardium, covering the myocardium. We found that while wt1a/b expression is maintained in proepicardial cells, it is downregulated in those pericardial cells contributing to cardiomyocytes from the developing heart. Sustained wt1 expression in cardiomyocytes reduced chromatin accessibility of specific genomic loci. Strikingly, a subset of wt1a/b-expressing cardiomyocytes changed their cell adhesion properties, delaminated from the myocardium and upregulated epicardial gene expression. Thus, wt1 acts as a break for cardiomyocyte differentiation and ectopic wt1 expression in cardiomyocytes can lead to their transdifferentiation into epicardial like cells.

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The EMT transcription factor Snai1 maintains myocardial wall integrity by repressing intermediate filament gene expression

Cited by 2 publications

References 60 publications

Downregulation of WT1 transcription factor gene expression is required to promote myocardial fate

Downregulation of WT1 transcription factor gene expression is required to promote myocardial fate

Wt1 transcription factor impairs cardiomyocyte specification and drives a phenotypic switch from myocardium to epicardium

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