GATA3 is essential for separating patterning domains during facial morphogenesis

Neural crest cells (NCCs) within the mandibular and maxillary portions of the first pharyngeal arch are initially competent to respond to signals from either region. However, mechanisms that are only partially understood establish developmental tissue boundaries to ensure spatially correct patterning. In the Hinge and Caps model of facial development, signals from both ventral prominences, referred to as the caps, pattern the adjacent tissues while the intervening region, known as the hinge, maintains separation of the mandibular and maxillary domains. One cap signal is GATA3, a member of the GATA family of zinc-finger transcription factors with a distinct expression pattern in the ventral-most part of the mandibular and maxillary portions of the first arch. Here we show that disruption of Gata3 in mouse embryos leads to hemifacial microsomia, facial bone hypoplasia and syngnathia (bony fusion of the upper and lower jaws). These changes are preceded by gene expression changes in post-migratory NCCs around the maxillomandibular junction (the hinge). GATA3 is thus a crucial component in establishing the network of factors that functionally separate the upper and lower jaws during development. Summary StatementLoss of Gata3 leads to BMP-mediated disruption of Fgf8 expression at the maxillomandibular junction during development, resulting in later fusion of the upper and lower jaws.