Peptide and proteins are recognized as highly selective and therapeutically active biomaterials, as well as relatively safe in clinical application. A calcium phospholipidbinding protein, copine 7 (CPNE7), has been recently identified to induce hard tissue regeneration, including bone and dentin by internalizing into the cells. However, the clinical application of the full length of CPNE7 has limited due to its large size with short half-life. Herein, as an alternative to CPNE7, six bioactive synthetic peptides are designed from CPNE7 (CPNE7-derived peptides, CDP1-CDP6) and investigated their osteogenic potential. Among the CDPs, CDP4 have the highest level of cellpenetrating activity as well as osteogenic efficiency in dental pulp stem cells (DPSCs).CDP4 increased the expression of osteogenesis-related genes and proteins, which was comparable to that by BMP-2. The cell penetration capacity of CDP4 may synergistically induce the osteogenic potential of DPSCs. Moreover, the implantation of the mixture of CDP4 with injectable collagen gel increased bone formation with recovery in the mouse calvarial defect model, comparable to full-length CPNE7 and even BMP-2. In conclusion, these results suggest that our synthetic peptide, CDP4, can be applied in combination with biomaterial to provide high osteogenic efficacy in the field of bone tissue engineering. K E Y W O R D S bone regeneration, CDP peptide, cell-penetrating peptide, CPNE7, peptide combination with injectable gel, tissue engineering
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