Figure 2.

A model of mesoderm-derived MSC development from hESCs. Coculture with OP9 stromal cells predominantly induces hESC differentiation toward APLNR⁺ mesoderm. APLNR⁺ population contains angiogenic mesodermal precursors with either mesenchymal (mesenchymoangioblast) or hematopoietic (hemangioblast) potentials. Mesenchymoangioblasts and hemangioblasts arise sequentially during differentiation and can be revealed by MS and BL colony formation in response to FGF2. Development of MS and BL colonies in semisolid media proceed through a core stage at which APLNR⁺ cells form clusters of tightly packed cells with angiogenic potential. Subsequently, core-forming cells undergo EndMT giving rise to mesenchymal cells, which form a shell around the core developing into a mature MS colony. VEGF, EndMT inhibitor, blocks MS colony-formation at core stage. The ability of MS-CFCs to generate mesenchymal and endothelial cells can be revealed by coculture of individual colonies with OP9. Similar to MS colonies, BL colonies are formed through establishment of angiogenic core. However, hemangioblast core-forming cells undergo endothelial-hematopoietic transition and grew hematopoietic cells around the core.