Samira Chabab scite author profile

Cardiac development arises from two sources of mesoderm progenitors, the first heart field (FHF) and the second (SHF). Mesp1 has been proposed to mark the most primitive multipotent cardiac progenitors common for both heart fields. Here, using clonal analysis of the earliest prospective cardiovascular progenitors in a temporally controlled manner during early gastrulation, we found that Mesp1 progenitors consist of two temporally distinct pools of progenitors restricted to either the FHF or the SHF. FHF progenitors were unipotent, whereas SHF progenitors were either unipotent or bipotent. Microarray and single-cell PCR with reverse transcription analysis of Mesp1 progenitors revealed the existence of molecularly distinct populations of Mesp1 progenitors, consistent with their lineage and regional contribution. Together, these results provide evidence that heart development arises from distinct populations of unipotent and bipotent cardiac progenitors that independently express Mesp1 at different time points during their specification, revealing that the regional segregation and lineage restriction of cardiac progenitors occur very early during gastrulation.

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Defining the earliest step of cardiovascular progenitor specification during embryonic stem cell differentiation

Bondue

Tännler

Chiapparo

et al. 2011

114

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Uncovering the Number and Clonal Dynamics of Mesp1 Progenitors during Heart Morphogenesis

et al. 2016

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SummaryThe heart arises from distinct sources of cardiac progenitors that independently express Mesp1 during gastrulation. The precise number of Mesp1 progenitors that are specified during the early stage of gastrulation, and their clonal behavior during heart morphogenesis, is currently unknown. Here, we used clonal and mosaic tracing of Mesp1-expressing cells combined with quantitative biophysical analysis of the clonal data to define the number of cardiac progenitors and their mode of growth during heart development. Our data indicate that the myocardial layer of the heart derive from ∼250 Mesp1-expressing cardiac progenitors born during gastrulation. Despite arising at different time points and contributing to different heart regions, the temporally distinct cardiac progenitors present very similar clonal dynamics. These results provide insights into the number of cardiac progenitors and their mode of growth and open up avenues to decipher the clonal dynamics of progenitors in other organs and tissues.

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Mesp1 controls the speed, polarity, and directionality of cardiovascular progenitor migration

Chiapparo

Lin

Lescroart

et al. 2016

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Defining the earliest step of cardiovascular progenitor specification during embryonic stem cell differentiation

Bondue¹,

Tännler²,

Chiapparo³

et al. 2011

J Exp Med

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Samira Chabab

Early lineage restriction in temporally distinct populations of Mesp1 progenitors during mammalian heart development

Defining the earliest step of cardiovascular progenitor specification during embryonic stem cell differentiation

Uncovering the Number and Clonal Dynamics of Mesp1 Progenitors during Heart Morphogenesis

Mesp1 controls the speed, polarity, and directionality of cardiovascular progenitor migration

Defining the earliest step of cardiovascular progenitor specification during embryonic stem cell differentiation

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