Abstract
Neural crest cells migrate to the embryonic heart and transform into a small number of cardiomyocytes, but their functions in the developing and adult heart are unknown. Here, we map the fates of neural crest derived cardiomyocytes (NC-Cms) and genetically ablate them in embryogenesis in zebrafish. Specific NC-Cm ablation results in aberrant trabeculation patterns and altered Notch signaling, but is not detrimental to the development of the fish or early heart function. Strikingly, embryonic NC-Cm ablation results in adult fish that show severely hypertrabeculated hearts, altered cardiomyocyte size, diminished adult heart capacity and consequently poor physiological response to cardiac stress tests. Thus, we identify a novel developmental mechanism and genetic pathway that predisposes adults to hypertrophic cardiomyopathy and provides the first zebrafish model of adult-onset heart failure.