Characterization of human primary enamel organ epithelial cells in vitro.

UNLABELLED: Tooth enamel is formed by ameloblasts, which are derived from the epithelial cells of the enamel organ. OBJECTIVE: The purpose of this study was to grow human ameloblast-like epithelial cells in culture. DESIGN: Human fetal tooth organs were isolated, and the cells were separated by digestion in collagenase/dispase. The cells were cultured in KGM-2 media with and without serum and at different calcium concentrations. The expression of enamel matrix proteins was analyzed by RT-PCR and cytokeratin 14 was detected by immunohistochemistry. The cells were further characterized by osteogenesis/odontogenesis-related DNA array. RESULTS: Cells isolated from the tooth organs grown in KGM-2 media containing 2-10% serum, were mixture of cobblestone and spindle shaped cells. Culturing these cells in KGM-2 with 0.05 mM calcium was selective for cobblestone ameloblasts-like cells (CAB), which were immunopositive for cytokeratin 14. Amelogenin, ameloblastin, enamelin, MMP-20 and KLK-4 were detected in CAB cells by RT-PCR. Osteogenesis SuperArray analyses could not detect the presence of typical molecules related to mesenchymal odontoblast or osteoblast lineage cells in these cultures. CONCLUSIONS: These studies showed that cobblestone-shaped ameloblast-like cells are selected from the tooth organ cells, by culture in KGM-2 media with 0.05 mM calcium.

The effect of TGF-beta 2 on dentin apposition and hardness in transgenic mice.

Transforming growth factor beta, TGF-beta, is expressed during tooth formation and can induce pre-odontoblast differentiation and formation of functional odontoblast-like cells in vitro. In addition, exogenous TGF-beta can increase reparative dentin formation, presumably by acting on odontoblasts. In this study, we examined the tooth phenotype of transgenic mice, in which TGF-beta 2 expression is directed by the osteocalcin promoter. Previous studies have shown that these mice have a bone phenotype that resembles that of human osteoporosis, including the existence of spontaneous fractures. Microhardness testing of the enamel and dentin showed no differences in the molars of these transgenic mice as compared with those of their wild-type littermates. Consistent with the increase in bone mineral apposition rate previously reported in these mice, the dentin apposition rate appeared to be increased in the TGF-beta 2-overexpressing mice. Thus, in teeth, as in bone, TGF-beta 2 appears to stimulate the synthesis and deposition of matrix. Further studies are needed to understand the effect of TGF-beta 2 on distinct mineralized tissues (bone, dentin, and cementum) and to determine whether exogenous TGF-beta 2 may be useful for tooth repair.

Activation of recombinant bovine matrix metalloproteinase-20 and its hydrolysis of two amelogenin oligopeptides.

Enamelysin is a matrix metalloproteinase (MMP-20) secreted by ameloblasts, previously shown to hydrolyze recombinant amelogenin. The purpose of this study was to use recombinant MMP-20 to further investigate the specific hydrolysis of peptide fragments containing cleavage sites for tyrosine-rich amelogenin peptide (TRAP) and leucine-rich amelogenin peptide (LRAP). MMP-20 cDNA was isolated from a subtracted bovine cDNA library, reconstructed into pRSET A vector, and overexpressed in BL21 Escherichia coli. The recombinant MMP-20 was purified using Mono-S ion exchange and nickel affinity chromatography. The proteinase was renatured by dialysis against buffer containing 50 microM zinc and 5 mM calcium and autolysed to form several active fragments. The varying sizes and activities of the activated enzyme fragments appeared to be due to sequential autolysis at different location of the carboxyl terminus of the intact enzyme. Two synthetic peptides corresponding to amelogenin amino acid sequences 36-49 and 181-188 were hydrolyzed by the activated rMMP-20. Mass spectrometry and amino acid composition analysis showed that the cleavage sites were between the tryptophan and leucine (45 and 46) for TRAP and between proline and alanine (186-187) for LRAP. These results indicate that MMP-20 can be autoactivated, and activated MMP-20 has a functional role in the initial cleavage of amelogenin.