Dual origins of the prechordal cranium in the chicken embryo.

The prechordal cranium, or the anterior half of the neurocranial base, is a key structure for understanding the development and evolution of the vertebrate cranium, but its embryonic configuration is not well understood. It arises initially as a pair of cartilaginous rods, the trabeculae, which have been thought to fuse later into a single central stem called the trabecula communis (TC). Involvement of another element, the intertrabecula, has also been suggested to occur rostral to the trabecular rods and form the medial region of the prechordal cranium. Here, we examined the origin of the avian prechordal cranium, especially the TC, by observing the craniogenic and precraniogenic stages of chicken embryos using molecular markers, and by focal labeling of the ectomesenchyme forming the prechordal cranium. Subsequent to formation of the paired trabeculae, a cartilaginous mass appeared at the midline to connect their anterior ends. During this midline cartilage formation, we did not observe any progressive medial expansion of the trabeculae. The cartilages consisted of premandibular ectomesenchyme derived from the cranial neural crest. This was further divided anteroposteriorly into two portions, derived from two neural crest cell streams rostral and caudal to the optic vesicle, called preoptic and postoptic neural crest cells, respectively. Fate-mapping analysis elucidated that the postoptic neural crest cells were distributed exclusively in the lateroposterior part of the prechordal cranium corresponding to the trabeculae, whereas the preoptic stream of cells occupied the middle anterior part, differentiating into a cartilage mass corresponding to the intertrabecula. These results suggest that the central stem of the prechordal cranium of gnathostomes is composed of two kinds of distinct cartilaginous modules: a pair of trabeculae and a median intertrabecula, each derived from neural crest cells populating distinct places of the craniofacial primordia through specific migratory pathways.