PUBLICATION

Continuous addition of progenitors forms the cardiac ventricle in zebrafish

Authors

Felker, A., Prummel, K.D., Merks, A.M., Mickoleit, M., Brombacher, E.C., Huisken, J., Panáková, D., Mosimann, C.

ID

ZDB-PUB-180523-2

Date

2018

Source

Nature communications 9: 2001 (Journal)

Registered Authors

Felker, Anastasia, Huisken, Jan, Merks, Anne, Mickoleit, Michaela, Mosimann, Christian, Panáková, Daniela, Prummel, Karin

Keywords

none

MeSH Terms

Animals
Cell Differentiation
Cell Lineage
Female
Gene Expression Regulation, Developmental
Heart Ventricles/cytology
Heart Ventricles/embryology
Heart Ventricles/metabolism
Male
Mesoderm/embryology
Mesoderm/metabolism
Morphogenesis
Stem Cells/cytology*
Stem Cells/metabolism
T-Box Domain Proteins/genetics
T-Box Domain Proteins/metabolism
Zebrafish/embryology*
Zebrafish/genetics
Zebrafish/metabolism
Zebrafish Proteins/genetics
Zebrafish Proteins/metabolism

PubMed

29784942 Full text @ Nat. Commun.

Abstract

The vertebrate heart develops from several progenitor lineages. After early-differentiating first heart field (FHF) progenitors form the linear heart tube, late-differentiating second heart field (SHF) progenitors extend the atrium and ventricle, and form inflow and outflow tracts (IFT/OFT). However, the position and migration of late-differentiating progenitors during heart formation remains unclear. Here, we track zebrafish heart development using transgenics based on the cardiopharyngeal gene tbx1. Live imaging uncovers a tbx1 reporter-expressing cell sheath that continuously disseminates from the lateral plate mesoderm towards the forming heart tube. High-speed imaging and optogenetic lineage tracing corroborates that the zebrafish ventricle forms through continuous addition from the undifferentiated progenitor sheath followed by late-phase accrual of the bulbus arteriosus (BA). FGF inhibition during sheath migration reduces ventricle size and abolishes BA formation, refining the window of FGF action during OFT formation. Our findings consolidate previous end-point analyses and establish zebrafish ventricle formation as a continuous process.

Genes / Markers

Figures

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Expression

Phenotype

Mutations / Transgenics

Human Disease / Model

Sequence Targeting Reagents

Fish

Antibodies

Orthology

Engineered Foreign Genes

Mapping

Felker et al., 2018 ZDB-PUB-180523-2 PMID:29784942

Continuous addition of progenitors forms the cardiac ventricle in zebrafish

Felker et al., 2018

ZDB-PUB-180523-2
PMID:29784942