Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6050841 | Archives of Oral Biology | 2015 | 10 Pages |
â¢Phosphophoryn contains tandem serine/asparatic acid rich repeats (SDrr).â¢SDrr are known to enhance matrix mineralisation in vivo.â¢Several recombinant PP (rPP) containing SDrr of different lengths are generated.â¢The rPP having 36.5% the length of SDrr recapitulates the functions of rPP-full.â¢The shortening of SDrr increases the amount of recombinant proteins secreted.
ObjectivePhosphophoryn (PP) is generated from the proteolytic cleavage of dentin sialophosphoprotein (DSPP). PP which contains tandem serine/asparatic acid rich repeats (SDrr) is known to enhance dentin mineralization. The nucleotide sequences coding SDrr are identified in the DSPP genes of toothed animals and the length variations of SDrr between intra- and inter-species have been reported. However, it remains unknown about the relationship between the length variations in SDrr and the functions of PP in matrix mineralization.DesignBy utilizing a mammalian expression system, we generated several recombinant PP proteins (rPP) containing SDrr of different lengths and analyzed their effects on the precipitation of calcium phosphate with an in vitro gel diffusion system.ResultsrPP-Î37.6 SDrr and rPP-Î63.5 SDrr, which possessed shortened SDrr that accounted for 62.4 and 36.5% the length of SDrr in full-length rPP (rPP-full), respectively, induced the precipitation of calcium phosphate similar to that of rPP-full at the same molar concentration, whereas rPP-ÎSDrr, in which SDrr were flipped, did not. Furthermore, rPP-Î63.5 SDrr significantly increased the accumulation of calcium compared with rPP-full at adjusted concentrations so that the same amounts of SDrr were embedded. The results of an ELISA analysis indicated that the amounts of rPP-Î37.6 SDrr and rPP-Î63.5 SDrr secreted from transfected cells were 5.2- and 7.1-fold greater than that of rPP-full, respectively.ConclusionsThe generated rPP-Î63.5 SDrr which can be substituted for rPP-full may be a candidate for a therapeutic molecule to facilitate hard tissue generation such as reparative dentin formation.