Effect of glypican‐1 gene on the pulp cells during the reparative dentine process

GPC‐1 (glypican‐1) is a cell surface heparan sulfate proteoglycan that acts as a co‐receptor for heparin‐binding growth factors and members of the TGF‐β (transforming growth factor beta‐1) family. The function of cell‐surface proteoglycans in the reparative dentine process has been under investigation. Gpc‐1 was detected with similar frequency as tgf‐β1 in the cDNA library using mRNA from the odontoblast‐like cell‐enriched pulp of rat incisors. The aim of this study was to test our hypothesis that gpc‐1 may be related to reparative dentine formation. We examined the expression of this gene during the reparative dentine process, as well as the effect of gpc‐1 on odontoblast‐like cell differentiation using siRNA (small interfering RNA) to down‐regulate gpc‐1 expression. Immunohistological examination showed that GPC‐1 was expressed in pulp cells entrapped by fibrodentine and odontoblast‐like cells as well as TGF‐β1. The mRNAs for gpc‐1, ‐3 and ‐4, except for gpc‐2, were expressed during odontoblast‐like cell differentiation in pulp cells. The relative levels of gpc‐1 mRNA were increased prior to the differentiation stages and were decreased during the secretory and maturation stages of pulp cells. Down‐regulation of gpc‐1 expression resulted in a 3.9‐fold increase in tgf‐β1 expression in pulp cells and a 0.3‐fold decrease in dspp (dentine sialophosphoprotein) expression compared with control. These results suggested that gpc‐1 and tgfβ‐1 expression are necessary for the onset of differentiation, but should be down‐regulated before other molecules are implicated in the formation of reparative dentine. In conclusion, gpc‐1 expression in odontoblast‐like cells is associated with the early differentiation but not with the formation of reparative dentine.