Twist1 contributes to cranial bone initiation and dermal condensation by maintaining wnt signaling responsiveness

Background: Specification of cranial bone and dermal fibroblast progenitors in the supraorbital arch mesenchyme is Wnt/β‐catenin signaling‐dependent. The mechanism underlying how these cells interpret instructive signaling cues and differentiate into these two lineages is unclear. Twist1 is a target of the Wnt/β‐catenin signaling pathway and is expressed in cranial bone and dermal lineages. Results: Here, we show that onset of Twist1 expression in the mouse cranial mesenchyme is dependent on ectodermal Wnts and mesenchymal β‐catenin activity. Conditional deletion of Twist1 in the supraorbital arch mesenchyme leads to cranial bone agenesis and hypoplastic dermis, as well as craniofacial malformation of eyes and palate. Twist1 is preferentially required for cranial bone lineage commitment by maintaining Wnt responsiveness. In the conditional absence of Twist1, the cranial dermis fails to condense and expand apically leading to extensive cranial dermal hypoplasia with few and undifferentiated hair follicles. Conclusions: Thus, Twist1, a target of canonical Wnt/β‐catenin signaling, also functions to maintain Wnt responsiveness and is a key effector for cranial bone fate selection and dermal condensation. Developmental Dynamics 245:144–156, 2016. © 2015 Wiley Periodicals, Inc. Key Findings To define the primary role of Twist1 in cranial bone and dermal development, we conditionally delete Twist1 preceding lineage selection in the cranial mesenchyme.Ectodermal Wnts are required for expression of Twist1 protein in the cranial mesenchyme.Twist1 is required for cranial bone specification in a cell-autonomous manner by maintaining Wnt responsiveness.Our study demonstrates the functional consequence of the Wnt signaling and Twist1 circuit in vivo.Twist1 is also required in the dermal lineage for condensation and apical expansion of cranial dermis.