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

Lescroart, Fabienne; Chabab, Samira; Lin, Xionghui; Rulands, Steffen; Paulissen, Catherine; Rodolosse, Annie; Auer, Herbert; Achouri, Younès; Dubois, Christine; Bondue, Antoine; Simons, Benjamin D.; Blanpain, Cédric

doi:10.1038/ncb3024

Cited by 263 publications

(347 citation statements)

References 71 publications

(78 reference statements)

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“…Collectively, these observations suggest that only the most anterior subset of cardiac progenitors require Id1-4 activity for their specification. Consistent with our findings, Lescroart et al (2014) have shown recently that early Mesp1-expressing mesoderm progenitors (around E6.5), which contribute to first heart field derivatives, express high levels of Id1. In contrast, late Mesp1-expressing cells (around E7.5), which contribute to second heart field derivatives, express low levels of Id1 (see the Supplemental Material of Lescroart et al 2014).…”

Section: Molecular Control Of Cardiogenic Mesoderm Specificationsupporting

confidence: 80%

“…Consistent with our findings, Lescroart et al (2014) have shown recently that early Mesp1-expressing mesoderm progenitors (around E6.5), which contribute to first heart field derivatives, express high levels of Id1. In contrast, late Mesp1-expressing cells (around E7.5), which contribute to second heart field derivatives, express low levels of Id1 (see the Supplemental Material of Lescroart et al 2014). Moreover, we show that human iMPs upregulate first heart field markers (HCN4 and TBX5) during cardiac differentiation, while second heart field markers (ISL1 and SIX2) are down-regulated (Supplemental Fig.…”

Section: Molecular Control Of Cardiogenic Mesoderm Specificationsupporting

confidence: 80%

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Id genes are essential for early heart formation

Cunningham

McKeithan

et al. 2017

Genes Dev.

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Deciphering the fundamental mechanisms controlling cardiac specification is critical for our understanding of how heart formation is initiated during embryonic development and for applying stem cell biology to regenerative medicine and disease modeling. Using systematic and unbiased functional screening approaches, we discovered that the Id family of helix-loop-helix proteins is both necessary and sufficient to direct cardiac mesoderm formation in frog embryos and human embryonic stem cells. Mechanistically, Id proteins specify cardiac cell fate by repressing two inhibitors of cardiogenic mesoderm formation-Tcf3 and Foxa2-and activating inducers Evx1, Grrp1, and Mesp1. Most importantly, CRISPR/Cas9-mediated ablation of the entire Id (Id1-4) family in mouse embryos leads to failure of anterior cardiac progenitor specification and the development of heartless embryos. Thus, Id proteins play a central and evolutionarily conserved role during heart formation and provide a novel means to efficiently produce cardiovascular progenitors for regenerative medicine and drug discovery applications.[Keywords: cardiac progenitors; cardiac mesoderm specification; heartless; Id proteins; CRISPR/Cas9-mediated quadruple knockout; platform for cardiac disease modeling and drug discovery] Supplemental material is available for this article.

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Section: Molecular Control Of Cardiogenic Mesoderm Specificationsupporting

confidence: 80%

Section: Molecular Control Of Cardiogenic Mesoderm Specificationsupporting

confidence: 80%

Id genes are essential for early heart formation

Cunningham

McKeithan

et al. 2017

Genes Dev.

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“…2D,E, arrows). These new progenitors have their origins in a distinct heart progenitor field termed the second heart field (SHF), which probably exits the primitive streak somewhat later than FHF progenitors (Lescroart et al, 2014). SHF cells are therefore delayed in their differentiation.…”

Section: The Origin Of Cardiac Lineages In Developmentmentioning

confidence: 99%

“…However, recent lineage-tracing studies have shown that although FHF and SHF cells arise from a common progenitor, probably in the pre-gastrulation embryo, their territories become geographically separate (Ali et al, 2014;Buckingham et al, 2005;Meilhac et al, 2004). FHF progenitors that form the primary heart tube and future left ventricle (Buckingham et al, 2005;Lescroart et al, 2014) are unipotent for cardiomyocytes or endothelial cell fates (Cohen-Gould and Mikawa, 1996;Lescroart et al, 2014). By contrast, SHF cells exiting the primitive streak later and contributing to other regions of the heart are either unipotent or bipotent for cardiomyocyte and endothelial cells, or cardiomyocytes and smooth muscle cells.…”

Section: The Origin Of Cardiac Lineages In Developmentmentioning

confidence: 99%

“…2D) arise from a unique set of progenitors termed the first heart field (FHF), which occupy a distinct anterior-lateral territory within the cardiac crescent ( Fig. 2C) (Buckingham et al, 2005;Lescroart et al, 2014), distinguished by expression of the gene for hyperpolarizationactivated cyclic nucleotide-gated channel 4 (Hcn4) (Liang et al, 2013). The primary heart tube acts as a type of scaffold for heart tube elongation through the addition of new myocardial, endocardial and smooth muscle cell progenitors to its inflow and outflow poles (Fig.…”

Section: The Origin Of Cardiac Lineages In Developmentmentioning

confidence: 99%

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Developmental origin and lineage plasticity of endogenous cardiac stem cells

et al. 2016

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Over the past two decades, several populations of cardiac stem cells have been described in the adult mammalian heart. For the most part, however, their lineage origins and in vivo functions remain largely unexplored. This Review summarizes what is known about different populations of embryonic and adult cardiac stem cells, including KIT + , PDGFRα + , ISL1 + and SCA1 + cells, side population cells, cardiospheres and epicardial cells. We discuss their developmental origins and defining characteristics, and consider their possible contribution to heart organogenesis and regeneration. We also summarize the origin and plasticity of cardiac fibroblasts and circulating endothelial progenitor cells, and consider what role these cells have in contributing to cardiac repair.

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cis‐regulatory control of Mesp1 expression by YY1 and SP1 during mouse embryogenesis

Beketaev

Weng

Rhee

et al. 2015

Developmental Dynamics

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Background: Mesp1 is critical for early cardiomyocyte differentiation and heart development. We previously observed downregulation of Mesp1 expression in YY1-ablated mouse embryonic hearts. However, how Mesp1 expression is mediated by YY1 is not well understood. Results: We excised YY1 in the murine embryos using Sox2-cre and found that Mesp1 was downregulated in the embryonic day (E) 7.5 mutant embryos. Also, YY1 activated the 6 kb Mesp1 regulatory element fused to a luciferase reporter. We identified two putative YY1 binding sites in the proximal promoter region of Mesp1 gene, and found that mutation of these sites significantly reduced YY1-induced activation of the Mesp1 promoter. We also uncovered one cognitive site for SP1, one of the earliest binding partners of YY1 identified. Mutation of this SP1 site repressed SP1-induced activation of the Mesp1 promoter. Moreover, YY1 and SP1 synergistically activated the Mesp1 promoter. Consistently, while Lacz expression driven by the wild-type 6 kb regulatory element of Mesp1 gene was robust in E7.5 mouse embryos, the mutation of these binding sites in the context of this 6 kb sequence substantially reduced the LacZ expression during embryogenesis. Conclusions: YY1 and SP1 independently and cooperatively govern the Mesp1 expression during embryogenesis. Developmental Dynamics 245:379-387, 2016. V C 2015 Wiley Periodicals, Inc.

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

Cited by 263 publications

References 71 publications

Id genes are essential for early heart formation

Id genes are essential for early heart formation

Developmental origin and lineage plasticity of endogenous cardiac stem cells

cis‐regulatory control of Mesp1 expression by YY1 and SP1 during mouse embryogenesis

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