摘要
The Hedgehog(Hh) signalling pathway is essential for cellular proliferation and differentiation during embryonic development.Gain and loss of function of Hh signalling are known to result in an array of craniofacial malformations. To determine the critical period for Hh pathway antagonist-induced frontal bone hypoplasia, we examined patterns of dysmorphology caused by Hh signalling inhibition. Pregnant mice received a single oral administration of Hh signalling inhibitor GDC-0449 at 100 or 150 mg·kg^(-1) body weight at preselected time points between embryonic days(E)8.5 and 12.5. The optimal teratogenic concentration of GDC-0449 was determined to be 150 mg·kg^(-1). Exposure between E9.5 and E10.5 induced frontal bone dysplasia, micrognathia and limb defects, with administration at E10.5 producing the most pronounced effects. This model showed decreased ossification of the frontal bone with downregulation of Hh signalling. The osteoid thickness of the frontal bone was significantly reduced. The amount of neural crest-derived frontal bone primordium was reduced after GDC-0449 exposure owing to a decreased rate of cell proliferation and increased cell death.
The Hedgehog(Hh) signalling pathway is essential for cellular proliferation and differentiation during embryonic development.Gain and loss of function of Hh signalling are known to result in an array of craniofacial malformations. To determine the critical period for Hh pathway antagonist-induced frontal bone hypoplasia, we examined patterns of dysmorphology caused by Hh signalling inhibition. Pregnant mice received a single oral administration of Hh signalling inhibitor GDC-0449 at 100 or 150 mg·kg^(-1) body weight at preselected time points between embryonic days(E)8.5 and 12.5. The optimal teratogenic concentration of GDC-0449 was determined to be 150 mg·kg^(-1). Exposure between E9.5 and E10.5 induced frontal bone dysplasia, micrognathia and limb defects, with administration at E10.5 producing the most pronounced effects. This model showed decreased ossification of the frontal bone with downregulation of Hh signalling. The osteoid thickness of the frontal bone was significantly reduced. The amount of neural crest-derived frontal bone primordium was reduced after GDC-0449 exposure owing to a decreased rate of cell proliferation and increased cell death.
基金
supported by the National Natural Science Foundation of China (31070838)
