The role of cell-extracellular matrix interactions in neural crest cell migration

Abstract

The formation of the embryo involves intricate cell movements, cell proliferation, and differentiation. The neural crest has long served as a model for the study of these processes because these cells: 1. migrate extensively along characteristic pathways during embryogenesis. 2. give rise to diverse and numerous derivatives, including pigment cells, adrenal chromaffin cells, and the ganglia of the peripheral nervous system; and 3. are accessible to surgical, immunological, and biochemical manipulations during both initial and certain later stages in their development. We are in the process of identifying factors that influence cell migration and differentiation in the neural crest system.Neural crest cells follow two primary migratory pathways in the trunk: a dorsolateral route underneath the skin, and a ventral route through the somite. Within the somites, neural crest cells preferentially migrate through the rostral half of each sclerotome but are absent from the caudal sclerotome. The regions through which neural crest cells migrate are lined with extracellular matrix (ECM) molecules. Because of the intimate relationship between neural crest cells and the surrounding matrix, it has been proposed that the ECM plays an important role in the initiation, guidance, and cessation of neural crest cell movement.