Bone extracts immunomodulate and enhance the regenerative performance of dicalcium phosphates bioceramics
Autor: | Faleh Tamimi, Joseph M. Kinsella, Omar Alageel, Mohamed-Nur Abdallah, Janet E. Henderson, Simon D. Tran, Mohamed A. Mezour, Haider Al-Waeli, Mari T. Kaartinen, Aisha Mousa, Jose Luis Ramirez-GarciaLuna, Faez Al-Hamad, Jacqueline Kort-Mascort, A.A. El-Hadad, Alaa Mansour, Doaa Taqi, Lina Abu-Nada, Osama A Elkashty |
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Rok vydání: | 2018 |
Předmět: |
Calcium Phosphates
Ceramics Bone Regeneration 0206 medical engineering Biomedical Engineering 02 engineering and technology Bioceramic Complex Mixtures Biochemistry Regenerative medicine Bone and Bones Biomaterials Extracellular matrix Tissue engineering Osteogenesis Animals Immunologic Factors Bone regeneration Molecular Biology Tissue Scaffolds Chemistry Regeneration (biology) Biomaterial Hydrogels General Medicine 021001 nanoscience & nanotechnology 020601 biomedical engineering Cell biology Rats Self-healing hydrogels Printing Three-Dimensional Female 0210 nano-technology Biotechnology |
Zdroj: | Acta biomaterialia. 89 |
ISSN: | 1878-7568 |
Popis: | Immunomodulation strategies are believed to improve the integration and clinical performance of synthetic bone substitutes. One potential approach is the modification of biomaterial surface chemistry to mimic bone extracellular matrix (ECM). In this sense, we hypothesized that coating synthetic dicalcium phosphate (DCP) bioceramics with bone ECM proteins would modulate the host immune reactions and improve their regenerative performance. To test this, we evaluated the in vitro proteomic surface interactions and the in vivo performance of ECM-coated bioceramic scaffolds. Our results demonstrated that coating DCP scaffolds with bone extracts, specifically those containing calcium-binding proteins, dramatically modulated their interaction with plasma proteins in vitro, especially those relating to the innate immune response. In vivo, we observed an attenuated inflammatory response against the bioceramic scaffolds and enhanced peri-scaffold new bone formation supported by the increased osteoblastogenesis and reduced osteoclastogenesis. Furthermore, the bone extract rich in calcium-binding proteins can be 3D-printed to produce customized hydrogels with improved regeneration capabilities. In summary, bone extracts containing calcium-binding proteins can enhance the integration of synthetic biomaterials and improve their ability to regenerate bone probably by modulating the host immune reaction. This finding helps understand how bone allografts regenerate bone and opens the door for new advances in tissue engineering and bone regeneration. Statement of Significance Foreign-body reaction is an important determinant of in vivo biomaterial integration, as an undesired host immune response can compromise the performance of an implanted biomaterial. For this reason, applying immunomodulation strategies to enhance biomaterial engraftment is of great interest in the field of regenerative medicine. In this article, we illustrated that coating dicalcium phosphate bioceramic scaffolds with bone-ECM extracts, especially those rich in calcium-binding proteins, is a promising approach to improve their surface proteomic interactions and modulate the immune responses towards such biomaterials in a way that improves their bone regeneration performance. Collectively, the results of this study may provide a conceivable explanation for the mechanisms involved in presenting the excellent regenerative efficacy of natural bone grafts. |
Databáze: | OpenAIRE |
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