Mesoporous bioactive glass–recombinant collagen III nanocomposite capsule promotes skin wound healing via adaptive immune modulation
Luo Yi, Jin Jian, Ding Wei, Li Haihang, Zhu Xiujie, Yuan Minjia, Zhu Shihui, Wang Wenxing, Zhang Yixin
Journal:Regenerative Biomaterials
IF:8.7
DOI:10.1093/rb/rbag092
PMID:
Published:2026-05-09
research field:伤口修复生物材料再生医学免疫调节组织工程纳米医学
Abstract
Chronic skin wounds remain a clinical challenge due to impaired extracellular matrix (ECM) reconstruction and dysregulated immune responses. Biomaterials that simultaneously support matrix formation and modulate the wound immune microenvironment are therefore highly desirable.Here, we developed a mesoporous bioactive glass–recombinant collagen III nanocomposite capsule (Cap-ReCol III), in which recombinant collagen III is adsorbed onto mesoporous bioactive glass nanoparticles to form an integrated organic–inorganic unit.Cap-ReCol III exhibited well-defined mesoporous structure and favorable physicochemical properties. In vitro, it showed excellent cytocompatibility and significantly enhanced fibroblast proliferation, migration, and contractility, accompanied by increased expression of α-smooth muscle actin and collagen-related markers. In a full-thickness mouse wound model, Cap-ReCol III accelerated wound closure and promoted granulation tissue formation and collagen deposition.Importantly, Cap-ReCol III modulated the immune microenvironment by reducing neutrophil accumulation and granzyme B+ CD8+ T cells, while increasing regulatory T cells and IL-13+ CD8+ T-cell subsets associated with tissue repair. Adoptive transfer experiments in Rag2-/- mice further confirmed the essential role of adaptive immunity in this process.Overall, Cap-ReCol III promotes wound healing by coordinating ECM remodeling and adaptive immune modulation, providing a promising strategy for skin regeneration.
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