Bone morphogenetic protein-2/-4 upregulation promoted by endothelial cells in coculture enhances mouse embryoid body differentiation.

Endothelial cells (ECs) provide inductive signals for cell differentiation in vivo. However, it is unknown if these cells promote such differentiation in vitro and the signals involved. We investigated whether ECs are able to enhance the differentiation of the three germ layers and the underlying mechanisms. We established a coculture system of mouse embryoid bodies (EBs) and ECs. Then, we analyzed the expression of markers representative of the three germ layers, such as PDX-1, proinsulin, insulin1 (endoderm), nestin, neurofilament light (ectoderm), CD31, cardiotin, and cardiac troponin I (mesoderm) in EBs cultured alone (controls) or with ECs. A significant increase of these markers was observed in EBs cocultured with ECs compared to controls. The cocultured EBs also exhibited more robust vascular networks similar to those EBs treated with bone morphogenetic protein-2 or -4 (BMP-2 or -4). Therefore, the role of these peptides in the differentiation was investigated. We found a significant upregulation of BMP-2/-4 and BMP receptor 1A in EBs treated with EC conditioned medium (EC-CM) at early or middle stages of EB development. Recombinant human BMP-2 and BMP-4 exerted similar effects than EC-CM in the expression of BMPs or in the upregulation of the three germ layer specific markers. BMP-2/-4 antagonists, such as noggin and chordin-like-1, respectively inhibited the EC-CM inductive effects. These results demonstrate that ECs enhance the differentiation in vitro of cells that derived from the three germ layers and that BMP-2/-4 play a central role in this process.