The T-box transcription factor Eomesodermin acts upstream of Mesp1 to specify cardiac mesoderm during mouse gastrulation.

Abstract

Instructive programs guiding cell fate decisions in the developing mouse embryo are controlled by a few so-termed master regulators. Genetic studies demonstrate that the T-box transcription factor Eomesodermin (Eomes) is essential for epithelial to mesenchymal transition (EMT), mesoderm migration and specification of definitive endoderm (DE) during gastrulation1. Here we report that Eomes expression within the primitive streak marks the earliest cardiac mesoderm and promotes formation of cardiovascular progenitors by directly activating the bHLH transcription factor Mesp1 upstream of the core cardiac transcriptional machinery2-4. In marked contrast to Eomes/Nodal signalling interactions that cooperatively regulate anterior-posterior (A-P) axis patterning and allocation of the DE cell lineage1, 5-8, formation of cardiac progenitors requires only low levels of Nodal activity accomplished via a Foxh1/Smad4 independent mechanism. Collectively our experiments demonstrate that Eomes governs discrete context dependent transcriptional programmes that sequentially specify cardiac and DE progenitors during gastrulation.