Abstract
Craniofacial development relies on the migration of cranial neural crest cells (CNCCs) to the first and second pharyngeal arches, followed by their differentiation into various cell types during embryogenesis. Although the CNCC migration has been well-studied, the role of the niche in relation to CNCC remains unclear. Variants in FOXI3 have been implicated in craniofacial microsomia (CFM), yet the molecular mechanisms remain unexplored. FOXI3 is expressed in the ectoderm and auricle epidermis, but not in CNCCs or cartilage. Deletion of Foxi3 in the mouse CNCCs did not disrupt mandible and auricular development, further confirming that FOXI3 does not directly regulate CNCCs. However, Foxi3 deficiency in the ectoderm reduced the production of chondrogenesis-related cytokines derived from ectodermal cells, such as TGF-β1. This impairment affected CNCC proliferation through cell communication, subsequently altering the development of the mandible and auricle. These results emphasize the critical role of FOXI3 in establishing the microenvironment supporting CNCC function. Furthermore, FOXI3 directly regulates target genes associated with translation, thereby orchestrating cytokine production in epidermal cells. The validation using auricle sample from a CFM patient carrying FOXI3 mutation further supports our findings. These insights highlight the function of FOXI3 in creating the niche necessary for CNCC development and provide a basis for understanding the molecular mechanisms driving CFM pathogenesis.