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Engineering immunomodulatory and osteoinductive implant surfaces via mussel adhesion-mediated ion coordination and molecular clicking

Tao Wang, Jiaxiang Bai, Min Lu, Cheng-long Huang, Dechun Geng, Gang Chen, Lei Wang, Qi Jin, Wenguo Cui, Lianfu Deng

2022Nature Communications212 citationsDOIOpen Access PDF

Abstract

Abstract Immune response and new tissue formation are important aspects of tissue repair. However, only a single aspect is generally considered in previous biomedical interventions, and the synergistic effect is unclear. Here, a dual-effect coating with immobilized immunomodulatory metal ions (e.g., Zn 2+ ) and osteoinductive growth factors (e.g., BMP-2 peptide) is designed via mussel adhesion-mediated ion coordination and molecular clicking strategy. Compared to the bare TiO 2 group, Zn 2+ can increase M2 macrophage recruitment by up to 92.5% in vivo and upregulate the expression of M2 cytokine IL-10 by 84.5%; while the dual-effect of Zn 2+ and BMP-2 peptide can increase M2 macrophages recruitment by up to 124.7% in vivo and upregulate the expression of M2 cytokine IL-10 by 171%. These benefits eventually significantly enhance bone-implant mechanical fixation (203.3 N) and new bone ingrowth (82.1%) compared to the bare TiO 2 (98.6 N and 45.1%, respectively). Taken together, the dual-effect coating can be utilized to synergistically modulate the osteoimmune microenvironment at the bone-implant interface, enhancing bone regeneration for successful implantation.

Topics & Concepts

Downregulation and upregulationIn vivoCytokineCell biologyAdhesionChemistryImplantCoatingMaterials scienceBiophysicsBiochemistryNanotechnologyImmunologyBiologyMedicineBiotechnologySurgeryGeneOrganic chemistryBone Tissue Engineering MaterialsPolymer Surface Interaction StudiesKnee injuries and reconstruction techniques
Engineering immunomodulatory and osteoinductive implant surfaces via mussel adhesion-mediated ion coordination and molecular clicking | Litcius