Abstract
ABSTRACTHoloprosencephaly is a heterogeneous developmental malformation of the central nervous system characterized by impaired forebrain cleavage, midline facial anomalies and wide phenotypic variation. Indeed, microforms represent the mildest manifestation, associated with facial anomalies but an intact central nervous system. In many cases, perturbations in sonic hedgehog signaling are responsible for holoprosencephaly. Here, we have elucidated the contribution of Gas1 and an additional hedgehog co-receptor, Boc during early development of the craniofacial midline, by generating single and compound mutant mice. Significantly, we find Boc has an essential role in the etiology of a unique form of lobar holoprosencephaly that only occurs in conjunction with combined loss of Gas1. Whilst Gas1−/− mice have microform holoprosencephaly characterized by a single median maxillary central incisor, cleft palate and pituitary anomalies, Boc−/− mice have a normal facial midline. However, Gas1−/−; Boc−/− mutants have lobar holoprosencephaly associated with clefting of the lip, palate and tongue, secondary to reduced sonic hedgehog transduction in the central nervous system and face. Moreover, maxillary incisor development is severely disrupted in these mice, arresting prior to cellular differentiation as a result of apoptosis in the odontogenic epithelium. Thus, Boc and Gas1 retain an essential function in these tooth germs, independent of their role in midline development of the central nervous system and face. Collectively, this phenotype demonstrates both redundancy and individual requirements for Gas1 and Boc during sonic hedgehog transduction in the craniofacial midline and suggests BOC as a potential digenic locus for lobar holoprosencephaly in human populations.
Highlights
Sonic hedgehog (Shh) co-receptors are differentially expressed in the early frontonasal region To further define the requirements for Shh reception during early facial development, we analyzed the expression domains of Ptch1, Growth arrest-specific 1 (Gas1), Cdon and Boc in the frontonasal process (FNP) of the mouse embryo and compared them with Shh signaling activity (Fig. 1A–F)
At E11.5, Shh is produced in epithelium of the facial midline with signaling marked by a gradient of Ptch1 expression extending from this source into the underlying mesenchyme of the FNP (Fig. 1B,C)
Gradation of phenotype in the facial midline of Gas1, Cdon and Boc mutant mice The domains of Gas1, Cdon and Boc expression in the early FNP suggest a collective requirement for these co-receptors during formation of the early face
Summary
(HPE) is a surprisingly common developmental field defect affecting the central nervous system. Other facial anomalies associated with HPE can be less severe and include the presence of ocular hypotelorism, single nostril, premaxillary agenesis, cleft lip and palate, philtral dysgenesis and single median maxillary central incisor (SMMCI) (DiBiase and Cobourne, 2008). Microform HPE is a specific variant of this condition, associated with facial anomalies that are characteristically at the milder end of the spectrum and occur in the presence of normal development and function within the CNS (Solomon et al, 2012)
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