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Fibroblasts – the cellular choreographers of wound healing.
Front. Immunol. 14:1233800 (2023)
Injuries to our skin trigger a cascade of spatially- and temporally-synchronized healing processes. During such endogenous wound repair, the role of fibroblasts is multifaceted, ranging from the activation and recruitment of innate immune cells through the synthesis and deposition of scar tissue to the conveyor belt-like transport of fascial connective tissue into wounds. A comprehensive understanding of fibroblast diversity and versatility in the healing machinery may help to decipher wound pathologies whilst laying the foundation for novel treatment modalities. In this review, we portray the diversity of fibroblasts and delineate their unique wound healing functions. In addition, we discuss future directions through a clinical-translational lens.
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Publication type
Article: Journal article
Document type
Review
Keywords
Fascia ; Fibroblast ; Fibroblast Diversity ; Skin Injury ; Skin Regeneration ; Wound Healing ; Wound Repair; Therapeutic Target; Heterogeneity; Distinct; Differentiation; Regeneration; Papillary; Identification; Subpopulation; Expression; Plasticity
ISSN (print) / ISBN
1664-3224
e-ISSN
1664-3224
Journal
Frontiers in Immunology
Quellenangaben
Volume: 14,
Article Number: 1233800
Publisher
Frontiers
Publishing Place
Avenue Du Tribunal Federal 34, Lausanne, Ch-1015, Switzerland
Reviewing status
Peer reviewed
Institute(s)
Institute of Regenerative Biology and Medicine (IRBM)
Grants
European Foundation for the Study of Diabetes (EFSD) Anniversary Fund Programme
European Union
German Research Foundation
LEO Foundation
European Research Council
YR is funded by the European Research Council Consolidator Grant (ERC-CoG 819933), the LEO Foundation (LF-OC-21-000835), the German Research Foundation (SFB/TRR359 PILOT), the European Union Horizon 2020 (Marie Curie 955722 SkinTERM), and the European Fou
European Foundation for the Study of Diabetes (EFSD) Anniversary Fund Programme
European Union
German Research Foundation
LEO Foundation
European Research Council
YR is funded by the European Research Council Consolidator Grant (ERC-CoG 819933), the LEO Foundation (LF-OC-21-000835), the German Research Foundation (SFB/TRR359 PILOT), the European Union Horizon 2020 (Marie Curie 955722 SkinTERM), and the European Fou