The control of avian cephalic neural crest cytodifferentiation: II. Neural tissues

Abstract

A series of neural crest transplantations has been performed to (1) analyze whether avian premigratory cranial neural crest cells are pluripotential or restricted to specific developmental pathways and (2) examine the ability of trunk neural crest cells to develop in an environment usually occupied by cranial crest cells. Quail embryos, the cells of which have a unique nuclear marker, were used as donors and chick embryos as hosts. Hindbrain crest cells grafted in the place of diencephalic crest cells failed to form neurons in all but one case, in which a small ectopic ganglion was found. In the reciprocal transplants, neural crest cells emigrating from a segment of forebrain crest tissue grafted in the place of metencephalic crest cells produced trigeminal and ciliary ganglia which were completely normal. Thus, crest cells which normally never form ganglionic neurons will do so if placed in a suitable neurogenic environment. These results prove that premigratory avian cranial crest cells are not restricted to specific developmental pathways, but are initially pluripotential. Trunk crest cells grafted in the place of metencephalic crest cells form neuronal ganglia along the proximal trigeminal motor roots but do not form normal trigeminal ganglia. These root ganglia do not display normal peripheral projections, and placode cells, a normal component of the trigeminal ganglion, form ganglia in ectopic locations. Thus, while trunk crest cells respond to the metencephalic environment and form neurons, their response is different from that of cranial crest cells in the same location. Whether this is due to differences in developmental potential or in initial population size is not known.