PUBLICATION

Laser-targeted ablation of the zebrafish embryonic ventricle: A novel model of cardiac injury and repair

Authors
Matrone, G., Taylor, J.M., Wilson, K.S., Baily, J., Love, G.D., Girkin, J.M., Mullins, J.J., Tucker, C.S., and Denvir, M.A.
ID
ZDB-PUB-130805-13
Date
2013
Source
International Journal of Cardiology   168(4): 3913-9 (Journal)
Registered Authors
Keywords
zebrafish, heart, laser, injury, repair
MeSH Terms
  • Animals
  • Animals, Genetically Modified
  • Heart Rate/physiology
  • Heart Ventricles/embryology*
  • Heart Ventricles/injuries*
  • Heart Ventricles/pathology
  • Laser Therapy/adverse effects*
  • Laser Therapy/methods
  • Models, Animal*
  • Myocytes, Cardiac/pathology
  • Stroke Volume/physiology
  • Zebrafish
PubMed
23871347 Full text @ Int. J. Cardiol.
Citation
Matrone, G., Taylor, J.M., Wilson, K.S., Baily, J., Love, G.D., Girkin, J.M., Mullins, J.J., Tucker, C.S., and Denvir, M.A. (2013) Laser-targeted ablation of the zebrafish embryonic ventricle: A novel model of cardiac injury and repair. International Journal of Cardiology. 168(4):3913-9.
Abstract

Background

While the adult zebrafish (Danio rerio) heart demonstrates a remarkable capacity for self-renewal following apical resection little is known about the response to injury in the embryonic heart.

Methods

Injury to the beating zebrafish embryo heart was induced by laser using a transgenic zebrafish expressing cardiomyocyte specific green fluorescent protein. Changes in ejection fraction (EF), heart rate (HR), and caudal vein blood flow (CVBF) assessed by video capture techniques were assessed at 2, 24 and 48 h post-laser. Change in total and mitotic ventricular cardiomyocyte number following laser injury was also assessed by counting respectively DAPI (VCt) and Phospho-histone H3 (VCm) positive nuclei in isolated hearts using confocal microscopy.

Results

Laser injury to the ventricle resulted in bradycardia and mild bleeding into the pericardium. At 2 h post-laser injury, there was a significant reduction in cardiac performance in lasered-hearts compared with controls (HR 117 ± 11 vs 167 ± 9 bpm, p d 0.001; EF 14.1 ± 1.8 vs 20.1 ± 1.3%, p d 0.001; CVBF 103 ± 15 vs 316 ± 13µms 1, p d 0.001, respectively). Isolated hearts showed a significant reduction in VCt at 2 h post-laser compared to controls (195 ± 15 vs 238 ± 15, p d 0.05). Histology showed necrosis and apoptosis (TUNEL assay) at the site of laser injury. At 24 h post-laser cardiac performance and VCt had recovered fully to control levels. Pretreatment with the cell-cycle inhibitor, aphidicolin, significantly inhibited functional recovery of the ventricle accompanied by a significant inhibition of cardiomyocyte proliferation.

Conclusions

Laser-targeted injury of the zebrafish embryonic heart is a novel and reproducible model of cardiac injury and repair suitable for pharmacological and molecular studies.

Genes / Markers
Figures
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Antibodies
Orthology
Engineered Foreign Genes
Mapping
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