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Graded Modulation of Inflammation by Metal Ion-Coordinated Peptide-Based Hydrogel Chemical Regulators Promotes Tendon–Bone Junction Regeneration

Renxuan Li, Renhao Yang, Yin Zhang, Shiyi Yao, Yidong Xu, Yu Pei, Yaping Zhuang, Wenguo Cui, Lei Wang

2024ACS Applied Materials & Interfaces17 citationsDOI

Abstract

After rotator cuff injuries, uncontrolled inflammation hinders tendon–bone junction regeneration and induces scar formation in situ. Therefore, precisely controlling inflammation could be a solution to accelerate tendon–bone junction regeneration. In this study, we synthesized a peptide–metal ion complex hydrogel with thermosensitive capability that can be used as a hydrogel chemical regulator. By the coordination complex between Mg 2+ and BMP-12, the free and coordinated Mg 2+ can be programmability released from the hydrogel. The fast release of free Mg 2+ can prevent inflammation at the early stage of injuries, according to the results of RT-qPCR and immunofluorescence staining. Then, the coordinated Mg 2+ was slowly released from the hydrogel and provided an anti-inflammatory environment for tendon–bone junction regeneration in the long term. Finally, the hydrogel demonstrated enhanced therapeutic effects in a rat rotator cuff tear model. Overall, the Mg 2+ /BMP-12 peptide–metal ion complex-based hydrogel effectively addresses the regenerative requirements of the tendon–bone junction across various stages by graded modulating inflammation.

Topics & Concepts

Regeneration (biology)InflammationMaterials scienceTendonBiomedical engineeringPeptideRotator cuffCell biologyBiophysicsChemistryAnatomyMedicineImmunologyBiochemistryBiologyShoulder Injury and TreatmentTendon Structure and TreatmentSports injuries and prevention