Diffuse intraembryonic hemopoiesis in normal and chimeric avian development

Abstract

We have previously demonstrated in quail embryos grafted on chick yolk sacs the existence of intraembryonic stem cells responsible for definitive hemopoiesis. In order to determine the origin of these cells, we now examine the diffuse hemopoietic processes within the avian embryo's mesoderm. At 4–5 days of incubation in the two species, basophilic cells were found throughout the dorsal mesentery. At 6–8 days these cells became very numerous and built up dense foci at the level of branching of the anterior and posterior cardinal veins. These cells often infiltrated the wall of lymph spaces and channels and were also present in the lumen of blood vessels. Such locations support the interpretation that these basophilic cells represent early stages of hemopoietic differentiation. At 8–10 days, erythropoiesis or granulopoiesis was seen in the foci, which then regressed rapidly. The foci maximal development coincided with the period of colonization of the intraembryonic organ rudiments. In “yolk sac chimeras,” the foci were always constituted by quail cells, indicating their intraembryonic origin. The primordial origin of the intramesodermal cells remains to be determined. A likely source might be the ventral wall of the aorta which appeared to shed cells into the lumen and into the mesentery in the 3-day embryo.