PUBLICATION

Distinct phases of Wnt/β-catenin signaling direct cardiomyocyte formation in zebrafish

Authors

Dohn, T.E., and Waxman, J.S.

ID

ZDB-PUB-111122-25

Date

2012

Source

Developmental Biology 361(2): 364-76 (Journal)

Registered Authors

Waxman, Joshua

Keywords

cardiomyocyte, differentiation, wnt signaling, zebrafish

MeSH Terms

Animals
Body Patterning/genetics
Caspase 3/metabolism
Cell Death
Cell Differentiation/genetics
Enzyme Activation
Gastrula/cytology
Gastrula/metabolism
Gastrulation/genetics
Gene Expression Regulation, Developmental
Heart Atria/cytology
Heart Atria/embryology
Heart Atria/metabolism
Heart Ventricles/cytology
Heart Ventricles/embryology
Heart Ventricles/metabolism
Mesoderm/cytology
Mesoderm/embryology
Mesoderm/metabolism
Models, Biological
Myocytes, Cardiac/cytology*
Myocytes, Cardiac/enzymology
Myocytes, Cardiac/metabolism*
Polymerase Chain Reaction
Sequence Homology, Amino Acid
Somites/embryology
Wnt Signaling Pathway*/genetics
Zebrafish/embryology*
Zebrafish/genetics
Zebrafish/metabolism*
Zebrafish Proteins/genetics
Zebrafish Proteins/metabolism

PubMed

22094017 Full text @ Dev. Biol.

Abstract

Normal heart formation requires reiterative phases of canonical Wnt/β-catenin (Wnt) signaling. Understanding the mechanisms by which Wnt signaling directs cardiomyocyte (CM) formation in vivo is critical to being able to precisely direct differentiated CMs from stem cells in vitro. Here, we investigate the roles of Wnt signaling in zebrafish CM formation using heat-shock inducible transgenes that increase and decrease Wnt signaling. We find that there are three phases during which CM formation is sensitive to modulation of Wnt signaling through the first 24 h of development. In addition to the previously recognized roles for Wnt signaling during mesoderm specification and in the pre-cardiac mesoderm, we find a previously unrecognized role during CM differentiation where Wnt signaling is necessary and sufficient to promote the differentiation of additional atrial cells. We also extend the previous studies of the roles of Wnt signaling during mesoderm specification and in pre-cardiac mesoderm. Importantly, in pre-cardiac mesoderm we define a new mechanism where Wnt signaling is sufficient to prevent CM differentiation, in contrast to a proposed role in inhibiting cardiac progenitor (CP) specification. The inability of the CPs to differentiate appears to lead to cell death through a p53/Caspase-3 independent mechanism. Together with a report for an even later role for Wnt signaling in restricting proliferation of differentiated ventricular CMs, our results indicate that during the first 3 days of development in zebrafish there are four distinct phases during which CMs are sensitive to Wnt signaling.

Genes / Markers

Figures

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Expression

Phenotype

Mutations / Transgenics

Human Disease / Model

Sequence Targeting Reagents

Fish

Antibodies

Orthology

Engineered Foreign Genes

Mapping

Dohn et al., 2012 ZDB-PUB-111122-25 PMID:22094017

Distinct phases of Wnt/β-catenin signaling direct cardiomyocyte formation in zebrafish

Dohn et al., 2012

ZDB-PUB-111122-25
PMID:22094017