| Abstract: | In the analysis of endothelial morphogenesis reported here, scanning and transmission electron microscopes and the Nomarski light microscope were used to study both untreated and manipulated eyes of chick embryos. We found that migration of the cells into the corneal area is preceded at stage 22 by a movement of macrophages between the lens and posterior surface of the corneal stroma. At stage 23, endothelial cells move out mainly from the nasal and temporal edges of the eye where they were associated with vascular (primary) mesenchyme. Initially, they migrate through a fibrous matrix which occupies the space between lens and optic lip. When the endothelial cells reach the stroma and capsule of the lens, they can use both these surfaces as substrata, even though they seem to be more adherent to the stroma. By stage 25, the endothelium is complete and covered with fibrous matrix, which now fills and may help form the anterior chamber. The cells, initially mesenchymal, now differentiate to become epithelial (a characteristic of primary mesenchyme). The migrating endothelial cells have extended lamellipodia and filopodia along their leading edges; they show no evidence of ruffling. Moreover, contact inhibition alone does not cause them to monolayer; the presence of the lens is essential to prevent multilayering of the newly formed endothelium. In the discussion, the role of extracellular matrix and tissue boundaries in directing cell migration in vivo is emphasized. |
