Fibronectin in early avian embryos: synthesis and distribution along the migration pathways of neural crest cells.

Immunoperoxidase labelling for fibronectin (FN) in chick embryos showed FN-positive basement membranes surrounding the neural crest cell population prior to crest-cell migration. At cranial levels, crest cells migrated laterally into a large cell-free space. Initially they moved as a tongue of cells contacting the FN-positive basement membrane of the ectoderm but later the crest cell population expanded into space further from the ectoderm, until eventually the entire cranial cell-free space was occupied by mesenchyme cells. This was accompanied by the appearance of FN among the crest cells. At trunk levels, crest cells entered a relatively small space already containing FN-positive extracellular material. At later stages the migration of trunk crest cells broadly matched the distribution of FN. In vitro, chick and quail embryo ectoderm, endoderm, somites, notochord and neural tube synthesized and organized fibrous FN-matrices, as shown by immunofluorescence. Ectoderm and endoderm deposited this matrix only on the substrate face. The FN content of endoderm and neural tube matrices was transient, the immunofluorescence intensity declining after 1-2 days in culture. Some crest cells of cranial and sacral axial levels synthesized FN. Our data suggests that these were the earliest crest cells to migrate from these levels. This ability may be the first expression of mesenchymal differentiation in these crest cells, and in vivo enable them to occupy a large space. Almost all crest cells from cervico-lumbar axial levels were unable to synthesize FN. In vivo, this inability may magnify the response of these crest cells to FN provided by the neighbouring embryonic tissues.