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Twisting of the zebrafish heart tube during cardiac looping is a tbx5-dependent and tissue-intrinsic process.

eLife (2021-08-11)
Federico Tessadori, Erika Tsingos, Enrico Sandro Colizzi, Fabian Kruse, Susanne C van den Brink, Malou van den Boogaard, Vincent M Christoffels, Roeland Mh Merks, Jeroen Bakkers
ABSTRAKT

Organ laterality refers to the left-right asymmetry in disposition and conformation of internal organs and is established during embryogenesis. The heart is the first organ to display visible left-right asymmetries through its left-sided positioning and rightward looping. Here, we present a new zebrafish loss-of-function allele for tbx5a, which displays defective rightward cardiac looping morphogenesis. By mapping individual cardiomyocyte behavior during cardiac looping, we establish that ventricular and atrial cardiomyocytes rearrange in distinct directions. As a consequence, the cardiac chambers twist around the atrioventricular canal resulting in torsion of the heart tube, which is compromised in tbx5a mutants. Pharmacological treatment and ex vivo culture establishes that the cardiac twisting depends on intrinsic mechanisms and is independent from cardiac growth. Furthermore, genetic experiments indicate that looping requires proper tissue patterning. We conclude that cardiac looping involves twisting of the chambers around the atrioventricular canal, which requires correct tissue patterning by Tbx5a.

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Sigma-Aldrich
N-Phenylthiourea, ≥98%
Roche
Anti-Digoxigenin-AP, Fab fragments, from sheep
Roche
Anti-Fluorescein-AP, Fab fragments, from sheep
Sigma-Aldrich
SU5402, SU5402, CAS 215543-92-3, is a cell-permeable, reversible, and ATP-competitive inhibitor of the tyrosine kinase activity of FGFR1 (IC₅₀ = 10-20 µM in the presence of 1 mM ATP).
Roche
INT/BCIP Stock Solution, solution, pkg of 3 mL
Roche
NBT/BCIP Stock Solution