A pulsatile release platform based on photo-induced imine-crosslinking hydrogel promotes scarless wound healing
Journal
Nature Communications
Journal Volume
12
Journal Issue
1
Date Issued
2021
Author(s)
Abstract
Effective healing of skin wounds is essential for our survival. Although skin has strong regenerative potential, dysfunctional and disfiguring scars can result from aberrant wound repair. Skin scarring involves excessive deposition and misalignment of ECM (extracellular matrix), increased cellularity, and chronic inflammation. Transforming growth factor-β (TGFβ) signaling exerts pleiotropic effects on wound healing by regulating cell proliferation, migration, ECM production, and the immune response. Although blocking TGFβ signaling can reduce tissue fibrosis and scarring, systemic inhibition of TGFβ can lead to significant side effects and inhibit wound re-epithelization. In this study, we develop a wound dressing material based on an integrated photo-crosslinking strategy and a microcapsule platform with pulsatile release of TGF-β inhibitor to achieve spatiotemporal specificity for skin wounds. The material enhances skin wound closure while effectively suppressing scar formation in murine skin wounds and large animal preclinical models. Our study presents a strategy for scarless wound repair. © 2021, The Author(s).
Other Subjects
4 [4 (1,3 benzodioxol 5 yl) 5 (2 pyridinyl) 1h imidazol 2 yl]benzamide; alpha smooth muscle actin; CD4 antigen; glycolic acid; hydrogel; imine; ketamine; propofol; Smad2 protein; Smad3 protein; tissue adhesive; transforming growth factor beta; water oil cream; imine; cell; cell component; detection method; growth; immune response; immune system; induced response; inhibition; inhibitor; skin; animal cell; animal experiment; animal model; animal tissue; Article; biocompatibility; biodegradability; Caco-2 cell line; CD4+ T lymphocyte; chemical structure; controlled study; cross linking; cytotoxicity; emulsion; encapsulation; epithelization; female; hair follicle; HeLa cell line; helper cell; human; human cell; hypertrophic scar; immunohistochemistry; in vivo study; keratinocyte; male; microcapsule; mouse; nonhuman; promoter region; pulsatile drug release; scanning electron microscopy; scar formation; skin injury; spatiotemporal analysis; sutureless technique; TGF beta signaling; wound closure; wound healing; Yorkshire pig; animal; cell proliferation; chemistry; disease model; drug effect; extracellular matrix; fibroblast; hydrogel; Leporidae; pathology; pharmacology; pig; radiation response; scar; signal transduction; skin; wound healing; Murinae; Animals; Cell Proliferation; Cicatrix; Disease Models, Animal; Extracellular Matrix; Female; Fibroblasts; Hydrogels; Imines; Male; Mice; Rabbits; Signal Transduction; Skin; Sus scrofa; Transforming Growth Factor beta; Wound Healing
Type
journal article