Abstract
Genetic and environmental factors may lead to abnormal growth of the orofacial skeleton, affecting the overall structure of the face. In this study, we investigated the craniofacial abnormalities in a mouse model for Keutel syndrome, a rare genetic disease caused by loss-of-function mutations in the matrix Gla protein (MGP) gene. Keutel syndrome patients show diffuse ectopic calcification of cartilaginous tissues and impaired midface development. Our comparative cephalometric analyses of micro-computed tomography images revealed a severe midface hypoplasia in Mgp-/- mice. In vivo reporter studies demonstrated that the Mgp promoter is highly active at the cranial sutures, cranial base synchondroses, and nasal septum. Interestingly, the cranial sutures of the mutant mice showed normal anatomical features. Although we observed a mild increase in mineralization of the spheno-occipital synchondrosis, it did not reduce the relative length of the cranial base in comparison with total skull length. Contrary to this, we found the nasal septum to be abnormally mineralized and shortened in Mgp-/- mice. Transgenic restoration of Mgp expression in chondrocytes fully corrected the craniofacial anomalies caused by MGP deficiency, suggesting a local role for MGP in the developing nasal septum. Although there was no up-regulation of markers for hypertrophic chondrocytes, a TUNEL assay showed a marked increase in apoptotic chondrocytes in the calcified nasal septum. Transmission electron microscopy confirmed unusual mineral deposits in the septal extracellular matrix of the mutant mice. Of note, the systemic reduction of the inorganic phosphate level was sufficient to prevent abnormal mineralization of the nasal septum in Mgp-/-;Hyp compound mutants. Our work provides evidence that modulation of local and systemic factors regulating extracellular matrix mineralization can be possible therapeutic strategies to prevent ectopic cartilage calcification and some forms of congenital craniofacial anomalies in humans.
Highlights
Genetic and environmental factors may lead to abnormal growth of the orofacial skeleton, affecting the overall structure of the face
We investigated the craniofacial abnormalities in a mouse model for Keutel syndrome, a rare genetic disease caused by loss-of-function mutations in the matrix glutamic acid residues (Gla) protein (MGP) gene
We show that midface hypoplasia in MGP-deficient mice is primarily caused by impaired growth of the maxillary and palatine bones, associated with abnormal mineralization and shortening of the nasal septum
Summary
To investigate the effects of MGP and osteocalcin (BGLAP) deficiency in craniofacial development, images of lateral and frontal heads of 5-week-old male WT, MgpϪ/Ϫ, and BglapϪ/Ϫ mice were visually examined for gross craniofacial abnormalities. Considering that our X-ray analysis showed increased radiopacity in the region corresponding to the nasal septum and the very high expression of Mgp promoter in this tissue, we examined its mineralization status in 5-week-old MGP-deficient mice by micro-CT. The cranial, maxillary, and palatine lengths that were affected in MgpϪ/Ϫ mice were normalized in MgpϪ/Ϫ;Col2a1-Mgp mice (Fig. 5G) Taken together, these data suggest that local expression of MGP by chondrocytes can correct midface hypoplasia in MgpϪ/Ϫ mice. C, qRT-PCR showing ϳ6-fold increased Mgp expression in the nasal septum cartilage of MgpϪ/Ϫ;Col2a1-Mgp (MgpϪ/Ϫ;Tg) mice compared with WT littermates. We performed 3D micro-CT on 5-week-old WT, MgpϪ/Ϫ, and MgpϪ/Ϫ;Hyp heads, which revealed a complete absence of cartilaginous nasal septum mineralization in the double mutants (Fig. 10B). There was a significant increase in cranial length in MgpϪ/Ϫ;Hyp mice in comparison with MgpϪ/Ϫ mice, it remained shorter in comparison with that of WT mice (Fig. 10F)
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