Runx2 regulates cranial suture closure by inducing hedgehog, Fgf, Wnt and Pthlh signaling pathway gene expressions in suture mesenchymal cells.

Cleidocranial dysplasia (CCD, #119600), which is characterized by hypoplastic clavicles, open fontanelles, supernumerary teeth and a short stature, is caused by heterozygous mutations in RUNX2. However, it currently remains unclear why suture closure is severely impaired in CCD patients. The closure of posterior frontal (PF) and sagittal (SAG) sutures was completely interrupted in Runx2+/- mice, and the proliferation of suture mesenchymal cells and their condensation were less than those in wild-type mice. To elucidate the underlying molecular mechanisms, differentially expressed genes between wild-type and Runx2+/- PF and SAG sutures were identified by microarray and real-time reverse transcription polymerase chain reaction analyses. The expression of hedgehog, Fgf, Wnt and Pthlh signaling pathway genes, including Gli1, Ptch1, Ihh, Fgfr2, Fgfr3, Tcf7, Wnt10b and Pth1r, which were directly regulated by Runx2, was reduced in the sutures, but not the calvarial bone tissues of Runx2+/- mice. Bone formation and suture closure were enhanced in an organ culture of Runx2+/- calvariae with ligands or agonists of hedgehog, Fgf, Wnt and Pthlh signaling, while they were suppressed and suture mesenchymal cell proliferation was decreased in an organ culture of wild-type calvariae with their antagonists. These results indicate that more than a half dosage of Runx2 is required for the proliferation of suture mesenchymal cells, their condensation and commitment to osteoblast-lineage cells, and the induction of hedgehog, Fgf, Wnt and Pthlh signaling pathway gene expressions in sutures, but not in calvarial bone tissues, and also that the activation of hedgehog, Fgf, Wnt and Pthlh signaling pathways is necessary for suture closure.

RUNX2 mutation reduces osteogenic differentiation of dental follicle cells in cleidocranial dysplasia.

Disturbed permanent tooth eruption is common in cleidocranial dysplasia (CCD), a skeletal disorder caused by heterozygous mutation of RUNX2, but the mechanism underlying is still unclear. As it is well known that dental follicle cells (DFCs) play a critical role in tooth eruption, the changed biological characteristics of DFCs might give rise to disturbance of permanent tooth eruption in CCD patients. Thus, primary DFCs from one CCD patient and normal controls were collected to investigate the effect of RUNX2 mutation on the bone remodeling activity of DFCs and explore the mechanism of impaired permanent tooth eruption in this disease. Conservation and secondary structure analysis revealed that the RUNX2 mutation (c.514delT, p.172fs) found in the present CCD patient was located in the highly conserved RUNT domain and converted the structure of RUNX2. After osteogenic induction, we found that the mineralised capacity of DFCs and the expression of osteoblast-related genes, including RUNX2, ALP, OSX, OCN and Col Iα1, in DFCs was severely interfered by the RUNX2 mutation found in CCD patients. To investigate whether the osteogenic deficiency of DFCs from the CCD patient can be rescued by RUNX2 restoration, we performed 'rescue' experiments. Surprisingly, the osteogenic deficiency and the abnormal expression of osteoblast-associated genes in DFCs from the CCD patient were almost rescued by overexpression of wild-type RUNX2 using lentivirus. All these findings indicate that RUNX2 mutation can reduce the osteogenic capacity of DFCs through inhibiting osteoblast-associated genes, thereby disturbing alveolar bone formation, which serves as a motive force for tooth eruption. This effect may provide valuable explanations and implications for the mechanism of delayed permanent tooth eruption in CCD patients.

Prospective signs of cleidocranial dysplasia in Cebpb deficiency.

BACKGROUND: Although runt-related transcription factor 2 (RUNX2) has been considered a determinant of cleidocranial dysplasia (CCD), some CCD patients were free of RUNX2 mutations. CCAAT/enhancer-binding protein beta (Cebpb) is a key factor of Runx2 expression and our previous study has reported two CCD signs including hyperdontia and elongated coronoid process of the mandible in Cebpb deficient mice. Following that, this work aimed to conduct a case-control study of thoracic, zygomatic and masticatory muscular morphology to propose an association between musculoskeletal phenotypes and deficiency of Cebpb, using a sample of Cebpb-/-, Cebpb+/- and Cebpb+/+ adult mice. Somatic skeletons and skulls of mice were inspected with soft x-rays and micro-computed tomography (µCT), respectively. Zygomatic inclination was assessed using methods of coordinate geometry and trigonometric function on anatomic landmarks identified with µCT. Masseter and temporal muscles were collected and weighed. Expression of Cebpb was examined with a reverse transcriptase polymerase chain reaction (RT-PCR) technique. RESULTS: Cebpb-/- mice displayed hypoplastic clavicles, a narrow thoracic cage, and a downward tilted zygomatic arch (p < 0.001). Although Cebpb+/- mice did not show the phenotypes above (p = 0.357), a larger mass percentage of temporal muscles over masseter muscles was seen in Cebpb+/- littermates (p = 0.012). The mRNA expression of Cebpb was detected in the clavicle, the zygoma, the temporal muscle and the masseter muscle, respectively. CONCLUSIONS: Prospective signs of CCD were identified in mice with Cebpb deficiency. These could provide an additional aetiological factor of CCD. Succeeding investigation into interactions among Cebpb, Runx2 and musculoskeletal development is indicated.

Calvarial cleidocraniodysplasia-like defects with ENU-induced Nell-1 deficiency.

Nell-1, first identified by its overexpression in synostotic cranial sutures, is a novel osteoinductive growth and differentiation factor. To further define Nell-1's role in craniofacial patterning, we characterized defects of the ENU-induced Nell-1-deficient (END) mice, focusing on both intramembranous and endochondral cranial bones. Results showed that calvarial bones of neonatal END mice were reduced in thickness and density, with a phenotype resembling calvarial cleidocraniodysplasia. In addition, a global reduction in osteoblast markers was observed, including reductions in Runx2, alkaline phosphatase, and osteocalcin. Remarkably, detailed analysis of endochondral bones showed dysplasia as well. The chondrocranium in the END mouse showed enrichment for early, proliferating Sox9⁺ chondrocytes, whereas in contrast markers of chondrocytes maturation were reduced. These data suggest that Nell-1 is an important growth factor for regulation of osteochondral differentiation, by regulating both Runx2 and Sox9 expression within the calvarium. In summary, Nell-1 is required for normal craniofacial membranous and endochondral skeletal development.

Diagnóstico y tratamiento de dientes retenidos: comunicación de 2 casos con disostosis cleido-craneo-facial / Diagnosis and treatment of impacted teeth: report of 2 cases with cleidocranial dysplasia

La disostosis cleidocraneal es una enfermedad esqueletal rara que se caracteriza por retardo en la osificación cranel, hipoplaisa o aplasia clavicular y anomalías dentarias. En esta publicación se mostrarán dos casos en que se involucra la genética y las enfermedades del sistema óseo y dentario, corresopndientes a dos miembros de la misma familia. Se detallan la etiología y patogenia, así como los hallazgos clínicos y radiográficos.

Cleidocranial dysplasia: etiology and stomatognathic and craniofacial abnormalities.

Cleidocranial dysplasia (CCD) is a rare disorder which is inherited as an autosomal genetic trait. It is characterized by defective ossification, delayed bone and tooth development, stomatognathic and craniofacial abnormalities, and it is caused by mutations in the RUNX2 gene that is responsible for osteoblast differentiation. The purpose of this review is to collect and analyze data in the literature on orofacial typical manifestations of the syndrome and to present knowledge of the eziopatogenics mechanisms of the CCD. Clinical, genetic, aetiopathogenetic studies on this syndrome were compliled through a systematic approach using Medline. This review reports the cranio-facial features and dental characteristics of the CCD on the basis of all data in the literature. This review pays particular attention on the eziopatogenics mechanisms of CCD and summarises the results of the most recent studies. Access to detailed review of the etiopathogenic mechanisms of CCD is a fundamental support for clinicians as it can allow to make an informed assessment regarding the most effective choice of therapy. The review shows how an interdisciplinary approach is necessary for an appropriate treatment since CCD patients suffer from a skeletal third class, transverse deficiency of the maxilla, supernumerary permanent teeth and deficient eruption of impacted permanent teeth.

Functional analysis of a novel RUNX2 missense mutation found in a family with cleidocranial dysplasia.

Mutations of the RUNX2 gene result in dominantly inherited cleidocranial dysplasia (CCD). RUNX2 encodes for an osteoblast-specific transcription factor, which recognizes specific DNA sequences by the runt domain. DNA binding is stabilized by the interaction with the protein CBFbeta, which induces structural modifications of the runt domain. A novel 574G > A RUNX2 missense mutation has been found in members of a family clinically diagnosed with CCD. This mutation causes the glycine at position 192 to change to arginine (G192R), in loop 9 of the runt domain. Unlike other residues of loop 9, G192 does not establish DNA contacts. Accordingly, the G192R mutant showed a 50% reduction in binding activity compared to the wild-type runt domain. However, the mutation completely abolished the activating properties of the protein on osteocalcin promoter. Moreover, the G192R mutant exerts a dominant-negative effect when overexpressed. Computer modeling indicated that the G192R mutation perturbs not only loop 9, but also other parts of the runt domain, suggesting impairment of the interaction with CBFbeta.

Cleidocranial dysplasia with decreased bone density and biochemical findings of hypophosphatasia.

UNLABELLED: Cleidocranial dysplasia (CCD; MIM 119600) is an autosomal dominant skeletal dysplasia characterised by hypoplastic clavicles, patent fontanelles, short stature, tooth anomalies and other variable skeletal changes. Different mutations of the RUNX2/CBFA1 gene (MIM 600211) have been detected in patients with CCD. We investigated a mother and daughter with features of CCD presenting with reduced plasma alkaline phosphatase activity, increased urinary phosphoethanolamine excretion and decreased bone density. The latter findings were suggestive of hypophophatasia but mutation analysis showed no mutation in the tissue-nonspecific alkaline phosphatase gene (TNSALP; MIM 171760). However, a heterozygous mutation (Arg169Pro caused by nucleotide change 506G > C) was detected in the RUNX2 gene. Metabolic alterations gradually improved in both mother and daughter but bone-specific alkaline phosphatase remained low (less than 30% of normal) and mild phosphoethanolaminuria persisted. Recent studies in the Cbfa1 knock-out mouse showed decreased expression of alkaline phosphatase in differentiating bone. CONCLUSION: we suggest that the observed metabolic alterations are secondary to the RUNX2 gene mutation affecting early bone maturation and turnover. This is the first description of biochemical findings of hypophosphatasia in patients with cleidocranial dysplasia.

Craniofacial growth in cleidocranial dysplasia--a roentgencephalometric study.

The purpose of this study was to analyze craniofacial growth in cleidocranial dysplasia (CCD) with emphasis on bone remodeling, mandibular condylar growth, and tooth eruption. Skull radiographs of 22 CCD children followed longitudinally were examined. The span of time investigated varied for each patient, but the period from 5 years to adult age was well covered. Five patients had metallic implants inserted in the jaws; the implants enabled detailed analysis of bone remodeling, jaw rotation, and tooth eruption. In the calvaria, an open anterior fontanelle area persisted in most cases but decreased with age. A frontal sinus failed to develop or was diminutive in all cases but one. In the cranial base, the size increase of the sella turcica was reduced as a result of modest resorption at the floor and the posterior wall; the clivus was flexed in most cases, but the flexion remained stable during the observation period. Growth in maxillary height was severely reduced, primarily because resorptive lowering of the nasal floor was minimal. The amount of bone apposition on the orbital floor and the alveolar process was smaller than expected. Condylar growth direction was vertical giving rise to a forward rotation of the mandible in relation to the anterior cranial base. The expected resorptive remodeling below the mandibular angle and anteriorly on the ramus was negligible. The low maxilla, in combination with a marked forward mandibular rotation in cases with unstable occlusion as a consequence of eruption problems in the permanent dentition, gave rise to a diminished anterior facial height.(ABSTRACT TRUNCATED AT 250 WORDS)

Cleidocranial dysostosis: review of the literature and report of case.

A case report is presented in which the management of impacted teeth and cystic lesions is described in a patient with cleidocranial dysostosis. A review of the literature with emphasis on the incidence, clinical features, etiology, diagnosis, and treatment is also discussed.

Aspartylglucosaminuria: psychomotor retardation masquerading as a mucopolysaccharidosis.

A 5-year-old girl with coarse facies, visceromegaly, and vacuolated lymphocytes is presented as the first case of aspartylglucosaminuria diagnosed in this country. This metabolic defect in glycoprotein catabolism can be clinically confused with other storage diseases such as the mucopolysaccharidoses and mucolipidoses. It is not diagnosed by routine laboratory screening methods. Special studies are required to confirm the diagnosis, but a thin-layer chromatography method for screening urine is presented for use when the diagnosis is suspected. The developmental potential in this inborn error of metabolism is documented.