Controlled proteolysis of amelogenins reveals exposure of both carboxy- and amino-terminal regions.

Abstract

The matrix-mediated enamel biomineralization involves secretion of the enamel specific amelogenin proteins that through self-assembly into nanosphere structures provide the framework within which the initial enamel crystallites are formed. During enamel mineralization, amelogenin proteins are processed by tooth-specific proteinases. The aim of this study was to explore the factors that affect the activity of enamel proteases to process amelogenins. Two factors including amelogenin self-assembly and enzyme specificity are considered. We applied a limited proteolysis approach, combined with mass spectrometry, in order to determine the surface accessibility of conserved domains of amelogenin assemblies. A series of commercially available proteinases as well as a recombinant enamelysin were used, and their proteolytic actions on recombinant amelogenin were examined under controlled and limited conditions. The N-terminal region of the recombinant mouse amelogenin rM179 was found to be more accessible to tryptic digest than the C-terminal region. The endoproteinase Glu-C cleaved amelogenin at both the N-terminal (E18/V) and C-terminal (E178/V) sites. Chymotrypsin cleaved amelogenin at both the carboxy- (F151/S) and amino-terminal (W25/Y) regions. Interestingly, the peptide bond F/S152 was also recognized by the action of enamelysin on recombinant mouse amelogenin whereas thermolysin cleaved the S152/M153 peptide bond in addition to T63/L64 and I159/L160 and M29/I30 bonds. It was then concluded that regions at both the carboxy- and amino-terminal were exposed on the surface of amelogenin nanospheres when the N-terminal 17 amino acid residues were proposed to be protected from proteolysis, presumably as the result of their involvement in direct protein-protein interaction. Cleavage around the FSM locus occurred by recombinant enamelysin under limited conditions, in both mouse (F151/S152) and pig amelogenins (S148/M). Our in vitro observations on the limited proteolysis of amelogenin by enamelysin suggest that enamelysin cleaved amelogenin at the C-terminal region showing a preference of the enzyme to cleave the S/M and F/S bonds. The present limited proteolysis studies provided insight into the mechanisms of amelogenin degradation during amelogenesis.