TWIST1 interacts with adherens junction proteins during neural tube formation and regulates fate transition in cranial neural crest cells

Cell fate determination is a necessary and tightly regulated process for producing different cell types and structures during development. Cranial neural crest cells (CNCCs) are unique to vertebrate embryos and emerge from the neural fold borders into multiple cell lineages that differentiate into bone, cartilage, neurons, and glial cells. We previously reported that Irf6 genetically interacts with Twist1 during CNCC-derived tissue formation. Here, we investigated the mechanistic role of Twist1 and Irf6 at early stages of craniofacial development. Our data indicates that TWIST1 interacts with /{beta}/{gamma}-CATENINS during neural tube closure, and Irf6 is involved in the structural integrity of the neural tube. Twist1 suppresses Irf6 and other epithelial genes in CNCCs during epithelial-to-mesenchymal transition (EMT) process and cell migration. Conversely, a loss of Twist1 leads to a sustained expression of epithelial and cell adhesion markers in migratory CNCCs. Disruption of TWIST1 phosphorylation in vivo leads to epidermal blebbing, edema, neural tube defects, and CNCC-derived structural abnormalities. Altogether, this study describes an uncharacterized function of Twist1 and Irf6 in the neural tube and CNCCs and provides new target genes of Twist1 involved in cytoskeletal remodeling. Furthermore, the association between DNA variations within TWIST1 putative enhancers and human facial morphology is also investigated. SUMMARY STATEMENTThis study uncovers a new function of Twist1 in neural tube development and epithelial-to-mesenchymal transition in cranial neural crest cells. Data further shows that Twist1-interacting Irf6 is involved in regulating neural tube integrity.