Postnatal Maxillofacial “Developing” dECM Orchestrates Hierarchical Cross-organ Regeneration via Macrophage Integrin αvβ5-Mediated Efferocytosis-Driven Developmental Recapitulation
Ruidi Xia, Junlong Xue, Xinyu Liu, Mixiao Gui, Linjun Zhang, Yihua Cai, Zhengjie Shan, Guanqi Liu, Xuran Liao, Zhuofan Chen, Jieyun Xu, Zetao Chen
Journal:Research
IF:12.9
DOI:10.34133/research.1234
PMID:41993095
Published:2026-03-17
research field:细胞外基质生物学再生医学颌面生物学发育生物学免疫调节组织工程
Abstract
Decellularized extracellular matrix (dECM) leverages native architecture and bioactive components for tissue regeneration, yet its therapeutic efficacy is constrained by donor tissue maturity. While mature-tissue-derived dECM (Mat-dECM) lacks developmental signals, developmental-stage dECM (Dev-dECM) retains these cues but is limited by scarce sources and poor adaptability to adult environments. Here, we proposed postnatal maxillofacial odontogenic tissues as a novel Dev-dECM (pDev-dECM) source. Leveraging its unique trans-stage development—spanning embryonic crown formation to postnatal periodontal maturation—pDev-dECM balances developmental potency with adult environment adaptability. Multiomics comparative analysis revealed that pDev-dECM is enriched in arginylglycylaspartic-acid-containing proteins, which activate macrophage integrin αvβ5-mediated efferocytosis. This mechanism drives macrophage polarization toward regenerative M2 phenotypes, ensures adaptability to the adult environment, and reprograms mesenchymal stem cells to orchestrate developmental recapitulation. Consequently, pDev-dECM not only enabled in situ hierarchical regeneration of the periodontal complex but also facilitated cross-organ hierarchical regeneration in skin and muscle defect models. These findings demonstrate that pDev-dECM exerts spatiotemporal control over developmental recapitulation, establishing a universal biomaterial paradigm for multiscale tissue reconfiguration.
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