As the heart is the first organ to

As the heart is the first organ to form during mammalian embryogen- esis, the decisions to commit towards a cardiac cell fate are taken early in the developmental process. Studies including explant cultures, mouse/chick graft, chick/quail graft, and cell fate mapping experiments

demonstrated that cardiac precursor cells are found before gastrula-tion and are located in the lateral posterior epiblast in pre-streak embryos(Figure 1A). Gastrulation, the morphogenetic process that leads to the formation of the three germ layers (ectoderm, meso- derm, and endoderm) begins with the appearance of the primitive streak (PS). A subset of epiblast cells then moves as a sheet to the PS, and undergoes epithelial-to-mesenchymal transition (EMT), in order to ingress and transiently forms the mesendoderm.In fish and amphibians, the mesendoderm represents an intermedi-ate germ layer from which the endoderm and mesoderm subsequent-ly segregate. In an amniote, the prospective ‘mesendodermal’ cells ingress through the PS to reach their correct topographical positions during gastrulation. The first cells to ingress give rise to the ‘primitive endoderm’ [visceral endoderm (VE) in mammals equivalent to hypo- blast in chick].Then, the second wave of ingressing cells gives rise to extraem extraembryonic and embryonic mesodermal cells. GATA factors 4,5,6 share a common role in specification of both endoderm and meso-derm. This led to the idea that mesendoderm is an ancient germ layer that was determined early in the evolution by the same set of
genes (at the bilaterians crossroad) as no GATA factors were found before this stage of evolution.15 Mesendoderm in amniotes is thus a more time-restricted than spatially defined intermediary layer.Genetic and cellular mechanisms underlying the segregation of endoderm and mesoderm from mesendoderm have remained a key question of mammalian developmental biology and constitute a pivotal event in determining the cardiac lineages both through a