A clonal approach to the problem of neural crest determination

Abstract

A fundamental question regarding neural crest development is the possible pluripotential nature of this embryonic tissue. As a first step in examining this problem, clonal techniques are used to produce homogeneous populations of crest cells. Primary cultures of these cells are obtained by explanting neural tubes from Japanese quail in vitro and allowing crest cells to migrate away. The explant is removed, the outgrowth is isolated, dissociated with trypsin, and the cells plated at clonal density. Colonies derived in this manner fall into the following categories: all cells of the colony pigmented; none of the cells pigmented; and some of the cells pigmented, the remainder unpigmented. Pigmented colonies generally arise from small, round cells whereas the non-pigmented colonies usually originate from large, flattened polymorphous cells. Differentiation of melanocytes does not preclude their continued proliferation. The pigment phenotype, in addition, is stable through at least 25 generations. That the mixed colonies, in fact, are clonally derived is shown by physically isolating single cells. The identity of the non-pigment cells was not established in the present work. A possible neural fate is suggested, however, since nerve-like cells develop after the petri plates become overgrown. Neural clones did not form even though nerve growth factor activity is present as a normal constituent of the culture medium and was added as a supplement in some instances. These techniques permit the preparation of large, homogeneous populations of neural crest cells and afford an opportunity to examine aspects of crest determination heretofore impossible to study.