Dlx genes pattern mammalian jaw primordium by regulating both lower jaw-specific and upper jaw-specific genetic programs

Dlx transcription factors are implicated in patterning the mammalian jaw, based on their nested expression patterns in the first branchial arch (primordium for jaw) and mutant phenotypes; inactivation of Dlx1 and Dlx2 ( Dlx1/2-/- ) causes defects in the upper jaw, whereas Dlx5/6-/- results in homeotic transformation of the lower jaw into upper jaw. Therefore, the `Dlx codes' appear to regionalize the jaw primordium such that Dlx1/2 regulate upper jaw development, while Dlx5/6 confer the lower jaw fate. Towards identifying the genetic pathways downstream of Dlx5/6 , we compared the gene expression profiles of the wild-type and Dlx5/6-/- mouse mandibular arch (prospective lower jaw). We identified 20 previously unrecognized Dlx5/6 -downstream genes, of which 12 were downregulated and 8 upregulated in the mutant. We found a Dlx-regulated transcriptional enhancer in close proximity to Gbx2 , one of the Dlx5/6 -downstream genes, strongly suggesting that Gbx2 is a direct target of Dlx5/6 . We also showed that Pou3f3 is normally expressed in the maxillary (prospective upper jaw) but not mandibular arch, is upregulated in the mandibular arch of Dlx5/6-/- , and is essential for formation of some of the maxillary arch-derived skeleton. A comparative analysis of the morphological and molecular phenotypes of various Dlx single and double mutants revealed that Dlx1, 2, 5 and 6 act both partially redundantly and antagonistically to direct differential expression of downstream genes in each domain of the first branchial arch. We propose a new model for Dlx-mediated mammalian jaw patterning.