Abstract

The articulated jaws of vertebrates arise from the first pharyngeal arch, the most rostral of several transient ventral structures in pharyngeal stage embryos. Migratory cranial neural crest cells from the caudal midbrain and rostral hindbrain populate the first arch as ectomesenchyme and supply the progenitors of skeletal and soft tissues that form the upper (maxillary) and lower (mandibular) jaws. Dlx genes encode key transcriptional regulators that profoundly influence jaw development through their actions in first pharyngeal arch patterning. The broadly conserved nested expression of Dlx paralogues in vertebrate embryos points to a retained ancestral role in patterning first arch tissue. Loss-of-function experiments consistently highlight the necessity of Dlx gene function for jaw morphogenesis. Specifically, the combined effects of Dlx5 and Dlx6 are required to specify ventral/mandibular fate and forced expression of Dlx5 in migrating neural crest cells results in the ectopic upregulation of ventral markers in the maxillary arch. Here, we ask whether Dlx5 is also sufficient to respecify post-migratory ectomesenchyme in the maxillary branch as mandibular. Unexpectedly, we show that Dlx5 is not sufficient to activate mandibular marker genes in the maxillary branch of PA1, highlighting a loss of plasticity in post-migratory first arch ectomesenchyme.

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