Abstract
Hedgehog (HH) signaling, and particularly signaling by sonic hedgehog (SHH), is implicated in several essential activities during morphogenesis, and its misexpression causes a number of developmental disorders in humans. In particular, a reduced mitogenic response of cerebellar granule cell precursors to SHH signaling in a mouse model for Down syndrome (DS), Ts65Dn, is substantially responsible for reduced cerebellar size. A single treatment of newborn trisomic mice with an agonist of the SHH pathway (SAG) normalizes cerebellar morphology and restores some cognitive deficits, suggesting a possible therapeutic application of SAG for treating the cognitive impairments of DS. Although the beneficial effects on the cerebellum are compelling, inappropriate activation of the HH pathway causes anomalies elsewhere in the head, particularly in the formation and patterning of the craniofacial skeleton. To determine whether an acute treatment of SAG has an effect on craniofacial morphology, we quantitatively analyzed the cranial form of adult euploid and Ts65Dn mice that were injected with either SAG or vehicle at birth. We found significant deformation of adult craniofacial shape in some animals that had received SAG at birth. The most pronounced differences between the treated and untreated mice were in the midline structures of the facial skeleton. The SAG-driven craniofacial dysmorphogenesis was dose-dependent and possibly incompletely penetrant at lower concentrations. Our findings illustrate that activation of HH signaling, even with an acute postnatal stimulation, can lead to localized dysmorphology of the skull by generating modular shape changes in the facial skeleton. These observations have important implications for translating HH-agonist-based treatments for DS.
Highlights
The evolutionarily conserved Hedgehog (HH) signaling pathway and its ligands, desert hedgehog (DHH), Indian hedgehog (IHH) and Sonic hedgehog (SHH), are crucial for the development of a number of organs and cell groups (Cordero et al, 2006; Ingham and Placzek, 2006)
The results show that acute upregulation of the sonic hedgehog (SHH) pathway by a single treatment of SHH pathway agonist (SAG) at birth causes significant deformation of adult craniofacial shape in euploid mice
We use a quantitative approach to assess craniofacial shape changes in adult euploid and Ts65Dn mice that were injected with either 20 or 40 μg/g SAG or vehicle (Veh) on the day of birth (P0) to answer the following questions: (1) How is the shape of the adult facial skeleton, cranial vault and basicranium affected by acute postnatal stimulation of the HH pathway at birth? (2) How does dosage influence the effects of the agonist on craniofacial morphology? (3) How do these results inform translational research regarding the administration of SAG for Down syndrome (DS)-related phenotypes?
Summary
The evolutionarily conserved Hedgehog (HH) signaling pathway and its ligands, desert hedgehog (DHH), Indian hedgehog (IHH) and Sonic hedgehog (SHH), are crucial for the development of a number of organs and cell groups (Cordero et al, 2006; Ingham and Placzek, 2006). Embryonic activation of SHH signaling in the forebrain results in a laterally expanded mid- and upper-face; a reduction in SHH signaling causes an elongated and narrow mid- and upper-face (Young et al, 2010) Such disruptions in embryonic SHH signaling in the forebrain and face mimic congenital craniofacial disease phenotypes – midfacial dysmorphologies – in humans and mice (Chiang et al, 1996; Hu and Helms, 1999). Previous studies showed that a single treatment with an SHH pathway agonist (SAG), on the day of birth, rescued this defect and restored some cognitive functions in trisomic mice, a model of DS. Activation of this central signaling pathway that is involved in many aspects of development might have additional temporally specific and undesirable effects on other regions where SHH is expressed
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