1. Dermal αSMA + myofibroblasts orchestrate skin wound repair via β1 integrin and independent of type I collagen production.
- Author
-
McAndrews KM, Miyake T, Ehsanipour EA, Kelly PJ, Becker LM, McGrail DJ, Sugimoto H, LeBleu VS, Ge Y, and Kalluri R
- Subjects
- Animals, Fibroblasts, Integrin beta1 genetics, Mice, Skin, Collagen Type I genetics, Myofibroblasts, Wound Healing
- Abstract
Skin wound repair is essential for organismal survival and failure of which leads to non-healing wounds, a leading health issue worldwide. However, mechanistic understanding of chronic wounds remains a major challenge due to lack of appropriate genetic mouse models. αSMA
+ myofibroblasts, a unique class of dermal fibroblasts, are associated with cutaneous wound healing but their precise function remains unknown. We demonstrate that genetic depletion of αSMA+ myofibroblasts leads to pleiotropic wound healing defects, including lack of reepithelialization and granulation, dampened angiogenesis, and heightened hypoxia, hallmarks of chronic non-healing wounds. Other wound-associated FAP+ and FSP1+ fibroblasts do not exhibit such dominant functions. While type I collagen (COL1) expressing cells play a role in the repair process, COL1 produced by αSMA+ myofibroblasts is surprisingly dispensable for wound repair. In contrast, we show that β1 integrin from αSMA+ myofibroblasts, but not TGFβRII, is essential for wound healing, facilitating contractility, reepithelization, and vascularization. Collectively, our study provides evidence for the functions of myofibroblasts in β1 integrin-mediated wound repair with potential implications for treating chronic non-healing wounds., (© 2022 The Authors.)- Published
- 2022
- Full Text
- View/download PDF