Tissue interactions are indispensable for cavity formation and disc separation in the temporomandibular joint

Abstract

ABSTRACT Purpose: Our previous study found that in the temporomandibular joint (TMJ) of the K14-cre; Ctnnb1ex3f mouse embryo, the morphogenesis of glenoid fossa was interrupted by the dislocated condyle. This observation suggested that the formation of the glenoid fossa required tissue interactions with condylar mesenchyme. The purpose of this study was to clarify if the interactions between other components are essential for TMJ morphogenesis. Materials and methods: We examined the gross morphology, histology, cell proliferation, and gene expression in the developing TMJ of K14-cre; Ctnnb1ex3f mice by whole-mount bone and cartilage staining, Azon staining, BrdU labeling, and in situ hybridization, respectively. Results: In K14-cre; Ctnnb1ex3f mice, the zygomatic arch was misconnected to the mandibular bone by ectopic bone formation, which disrupted the attachment of temporalis to the mandibular bone and joint capsule formation. Although the initiation and differentiation of the condylar cartilage were slightly impacted, the K14-cre; Ctnnb1ex3f TMJ lacked joint cavities and separated disc, suggesting that the tissue interactions between the joint capsule and the TMJ were indispensable for the cavity formation and disc separation. The ectopic activation of Gli2 in the cells occupying the cavities, and the enhanced PTHrP transcription in the condylar perichondrium of the K14-cre; Ctnnb1ex3f TMJ suggested that the disrupted interactions between the joint capsule and the TMJ impaired cavity formation and disc separation by altering Hh signaling. Conclusion: Joint capsule formation was essential for cavity formation and disc separation during TMJ development.