Wnt5a gain- and loss-of-function present distinctly in craniofacial bone
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Introduction
Robinow syndrome has characteristic craniofacial and dental features and can be caused by gain- or loss-of-function variants in Wnt family member 5A ( WNT5A ) non-canonical signaling. The craniofacial and dental manifestation of Robinow syndrome is heterogenous, as is the effect of altered Wnt5a in animal models. The relationship between Wnt5a and craniofacial and dental phenotypes is not fully understood.
Methods
To investigate the role of Wnt5a in craniofacial and dental development, we utilized a Wnt5a conditional loss-of-function (LOF: Wnt5a fl/fl ;Ctsk cre ) and a Wnt5a conditional gain-of-function (GOF: Rosa26-LSL-Wnt5a;Ctsk cre ) model to determine the effect of both LOF and GOF of Wnt5a in bone cells during craniofacial and dental development. Postnatal day 10 conditional LOF Wnt5a , GOF Wnt5a , and control skulls were scanned by micro-computed tomography and assessed using traditional and geometric morphometrics. Mandibular bone apoptosis was further assessed by TUNEL staining.
Results
Conditional Wnt5a LOF resulted in midface hypoplasia, increased maxillary intermolar width, increased rostral basisphenoid width, and delayed molar eruption. Wnt5a LOF mandibles did not have altered bone mineral density or bone microarchitecture unlike our previous study examining Wnt5a LOF femurs. In contrast, conditional Wnt5a GOF results in macrocephaly, shortened hard palate, increased zygomatic length, micrognathia, and mandibular process morphology changes. The micrognathia and mandibular process morphology changes in the Wnt5a GOF mice were not due to increased apoptosis. A partially penetrant snout deviation was present in both the Wnt5a LOF and GOF mice.
Conclusions
Craniofacial and dental phenotype differed between mice with conditional GOF and LOF of Wnt5a , consistent with the craniofacial phenotype heterogeneity in Wnt5a -associated Robinow syndrome. We detected tooth eruption delay, mandibular condyle dysmorphology, and facial asymmetry in mice with altered Wnt5a that have not been previously reported in patients. Our data suggest precise regulation of Wnt5a is essential for proper craniofacial and dental development.
