The most rostral cephalic crest cells in the chick embryo first populate ubiquitously in the rostroventral head. Before the influx of crest cells, the ventral head ectoderm expresses Fgf8 in two domains that correspond to the future mandibular arch. Bmp4 is expressed rostral and caudal to these domains. The rostral part of the Bmp4 domain develops into the rostral end of the maxillary process that corresponds to the transition between the maxillomandibular and premandibular regions. Thus, the distribution patterns of FGF8 and BMP4 appear to foreshadow the maxillomandibular region in the head ectoderm. In the ectomesenchyme of the pharyngula embryo, expression patterns of some homeobox genes overlap the distribution of their upstream growth factors. Dlx1 and Barx1, the targets of FGF8, are expressed in the mandibular ectomesenchyme, and Msx1, the target of BMP4, in its distal regions. Ectopic applications of FGF8 lead to shifted expression of the target genes as well as repatterning of the craniofacial primordia and of the trigeminal nerve branches. Focal injection of a lipophilic dye, DiI, showed that this shift was at least in part due to the posterior transformation of the original premandibular ectomesenchyme into the mandible, caused by the changed distribution of FGF8 that defines the mandibular region. We conclude that FGF8 in the early ectoderm defines the maxillomandibular region of the prepharyngula embryo, through epithelial-mesenchymal interactions and subsequent upregulation of homeobox genes in the local mesenchyme. BMP4 in the ventral ectoderm appears to limit the anterior expression of Fgf8. Ectopic application of BMP4 consistently diminished part of the mandibular arch.
Evolution of the vertebrate jaw has been reviewed and discussed based on the developmental pattern of the Japanese marine lamprey, Lampetra japonica. Though it never forms a jointed jaw apparatus, the L. japonica embryo exhibits the typical embryonic structure as well as the conserved regulatory gene expression patterns of vertebrates. The lamprey therefore shares the phylotype of vertebrates, the conserved embryonic pattern that appears at pharyngula stage, rather than representing an intermediate evolutionary state. Both gnathostomes and lampreys exhibit a tripartite configuration of the rostral-most crest-derived ectomesenchyme, each part occupying an anatomically equivalent site. Differentiated oral structure becomes apparent in post-pharyngula development. Due to the solid nasohypophyseal plate, the post-optic ectomesenchyme of the lamprey fails to grow rostromedially to form the medial nasal septum as in gnathostomes, but forms the upper lip instead. The gnathostome jaw may thus have arisen through a process of ontogenetic repatterning, in which a heterotopic shift of mesenchyme-epithelial relationships would have been involved. Further identification of shifts in tissue interaction and expression of regulatory genes are necessary to describe the evolution of the jaw fully from the standpoint of evolutionary developmental biology.
The vertebrate jaw is a mandibular-arch derivative, and is regarded as the synapomorphy that defines the gnathostomes. Previous studies (Kuratani et al., Phil. Trans. Roy. Soc. 356:15, 2001; Shigetani et al., Science 296:1319, 2002) have suggested that the oral apparatus of the lamprey is derived from both the mandibular and premandibular regions, and that the jaw has arisen as a secondary narrowing of the oral patterning mechanism into the mandibular-arch domain. The heterotopy theory of jaw evolution states that the lamprey upper lip is a premandibular element, leaving further questions unanswered as to the homology of the trabecula in the lamprey and gnathostomes, and to the morphological nature of the muscles in the upper lip. Using focal injection of vital dyes into the cheek process core of lamprey embryos, we found that the upper lip muscle and trabecula are both derived from mandibular mesoderm. Secondary movement of the muscle primordium is also evident when the expression of the early muscle marker gene, LjMA2, is visualized. A nerve-fiber labeling study revealed that the upper lip muscle-innervating neurons are located in the rostral part of the brain stem, where the trigeminal motor nuclei are not found in gnathostomes. We conclude that the lamprey upper lip is composed of premandibular ectomesenchyme and a lamprey-specific muscle component derived from the mandibular mesoderm innervated by lamprey-specific motoneurons. Furthermore, the lamprey trabecula is most likely equivalent to a mesodermally derived neurocranial element, similar to the parachordal element in gnathostomes, rather than to the neural-crest-derived prechordal element.
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