The influence of the metameric pattern in the mesoderm on migration of cranial neural crest cells in the chick embryo

In recent studies of chick embryos, the cranial paraxial mesoblast was found to be patterned into segmental units termed somitomeres. Anterior to the first segmental cleft, seven contiguous segments are aligned, with somitomeric interfaces forming grooves at right angles to the midline. In this study, the morphological relationship between the migratory pathways of cranial neural crest cells and patterned primary mesenchyme was analyzed with the scanning electron microscope, utilizing stereo imaging. In addition, the development of neuromeres in the adjacent neural tube was monitored. It was found that cranial neural crest first appears along the dorsal midline as a ridge of cells which loosens from the wall of the neural tube and migrates laterally as discrete populations. The mesencephalic crest appears first, immediately following neural tube fusion at that level, and migrates over the dorsal surface of the adjacent third somitomere and into the grooves formed by its juncture with the second and fourth somitomeres. Later, the addition of prosencephalic and rostral rhombencephalic crest extends the mesencephalic population to form a shelf of crest which spreads over the dorsal surface of the first four somitomeres. Component cells of this most cranial crest shelf become oriented and mimic the metameric pattern of the subjacent somitomeres. Crest cells adjacent to the fifth somitomeres appear along the midline, but do not migrate, creating a gap anterior to the otic crest. By stage 9, a narrow finger-like segment of the otic crest migrates from a specific neuromere into the grooved interface between the fifth and sixth somitomeres, delimiting the rostral border of the otic placode in the ectoderm above. By the end of stage 9, crest cells delimiting the caudal border of the placode have migrated along the interface of the seventh and eighth somitomeres. The crest cells adjacent to the sixth and seventh somitomeres, between the rostral and caudal otic populations, appear but do not migrate, remaining condensed along the midline. Thus, otic crest cells form a ring which circumscribes the invaginating otic placode. This study suggests that the precise distribution of cranial neural crest cells may result from their introduction at specific times, as specific populations from specific brain regions (neuromeres), onto a patterned mesodermal layer.