The role of tissue interactions in the skeletogenic differentiation of avian neural crest cells

Abstract

In the avian embryo, cranial neural crest (NC) cells migrate extensively throughout the head region and give rise to most of the cranial skeleton (Le Lievre, C. S. (1978). J. Embryol. Exp. Morphol. 47, 17–37). To investigate the skeletogenic differentiation of these cells, NC explants from the mesencephalic level of st. 9+ embryos were grown in standard organ culture on Millipore filter substrates either in isolation or in combination with those tissues with which the cells normally associate during their in vivo migration and at their final tissue sites. The results demonstrate that interaction between premigratory NC and cranial ectoderm leads to chondrogenic differentiation of NC cells. Combination of premigratory NC with presumptive site tissues led to a pattern of NC cell differentiation normally expressed after in vivo migration: Combinations of NC with retinal pigmented epithelia gave cartilage, whereas NC with maxillary ectoderm formed cartilage and membrane bone. Both resulting skeletal tissues possessed their characteristic collagen types (II in cartilage and I in bone) as shown by indirect immunofluorescence using antibodies raised against specific types of collagen. It is concluded that avian cephalic NC cells require tissue interactions if chondrogenic and osteogenic differentiation is to ensue, but that migration per se is not an absolute prerequisite for these types of differentiation. The degree of specificity underlying such interactions is discussed.