Abstract

The organic matrix of nacre has been reported for its effect on osteogenesis. It was found that PFMG4 (Pinctada fucata mantle gene 4) with an N-terminal signal peptide could be secreted into nacre of Pinctada fucata (P. fucata). Here, we report that PFMG4 is highly expressed in mantle tissue and has high homology with C1q protein in different species. In MC3T3-E1 osteoblast cells, we found that highly expressed PFMG4 could suppress cell proliferation and type I collagen expression, but it could increase alkaline phosphatase activity and mineralized deposition. These results show that PFMG4 has potential ability in enhancing osteoblast differentiation, suggesting a new idea in developing medicine for the therapy of osteoporosis.