TY - JOUR
T1 - Amelogenin-Derived Peptides in Bone Regeneration: A Systematic Review
AU - Fiorino, Antonino
AU - Marturano, Alessandro
AU - Placella, Giacomo
AU - Staderini, Edoardo
AU - Domingo, Lorena Igual
AU - Cerulli, Giuliano Giorgio
AU - Tiribuzi, Roberto
AU - Blasi, Paolo
PY - 2021
Y1 - 2021
N2 - Amelogenins are enamel matrix proteins currently used to treat bone defects in periodontal surgery. Recent studies have highlighted the relevance of amelogenin-derived peptides, named LRAP, TRAP, SP, and C11, in bone tissue engineering. Interestingly, these peptides seem to maintain or even improve the biological activity of the full-length protein, which has received attention in the field of bone regeneration. In this article, the authors combined a systematic and a narrative review. The former is focused on the existing scientific evidence on LRAP, TRAP, SP, and C11's ability to induce the production of mineralized extracellular matrix, while the latter is concentrated on the structure and function of amelogenin and amelogenin-derived peptides. Overall, the collected data suggest that LRAP and SP are able to induce stromal stem cell differentiation towards osteoblastic phenotypes; specifically, SP seems to be more reliable in bone regenerative approaches due to its osteoinduction and the absence of immunogenicity. However, even if some evidence is convincing, the limited number of studies and the scarcity of in vivo studies force us to wait for further investigations before drawing a solid final statement on the real potential of amelogenin-derived peptides in bone tissue engineering.
AB - Amelogenins are enamel matrix proteins currently used to treat bone defects in periodontal surgery. Recent studies have highlighted the relevance of amelogenin-derived peptides, named LRAP, TRAP, SP, and C11, in bone tissue engineering. Interestingly, these peptides seem to maintain or even improve the biological activity of the full-length protein, which has received attention in the field of bone regeneration. In this article, the authors combined a systematic and a narrative review. The former is focused on the existing scientific evidence on LRAP, TRAP, SP, and C11's ability to induce the production of mineralized extracellular matrix, while the latter is concentrated on the structure and function of amelogenin and amelogenin-derived peptides. Overall, the collected data suggest that LRAP and SP are able to induce stromal stem cell differentiation towards osteoblastic phenotypes; specifically, SP seems to be more reliable in bone regenerative approaches due to its osteoinduction and the absence of immunogenicity. However, even if some evidence is convincing, the limited number of studies and the scarcity of in vivo studies force us to wait for further investigations before drawing a solid final statement on the real potential of amelogenin-derived peptides in bone tissue engineering.
KW - LRAP
KW - SP
KW - TRAP
KW - synthetic peptide
KW - biomineralization
KW - bone diseases
KW - regenerative medicine
KW - amelogenin C11 peptide
KW - LRAP
KW - SP
KW - TRAP
KW - synthetic peptide
KW - biomineralization
KW - bone diseases
KW - regenerative medicine
KW - amelogenin C11 peptide
UR - http://hdl.handle.net/10807/237495
U2 - 10.3390/ijms22179224
DO - 10.3390/ijms22179224
M3 - Article
SN - 1422-0067
VL - 22
SP - 9224
EP - 9224
JO - International Journal of Molecular Sciences
JF - International Journal of Molecular Sciences
ER -