Litcius/Paper detail

Preventing <i>Engrailed-1</i> activation in fibroblasts yields wound regeneration without scarring

Shamik Mascharak, Heather E. desJardins-Park, Michael F. Davitt, Michelle Griffin, Mimi R. Borrelli, Alessandra L. Moore, Kellen Chen, Bryan Duoto, Malini Chinta, Deshka S. Foster, Abra H. Shen, Michael Januszyk, Sun Hyung Kwon, Gerlinde Wernig, Derrick C. Wan, H. Peter Lorenz, Geoffrey C. Gurtner, Michael T. Longaker

2021Science600 citationsDOIOpen Access PDF

Abstract

Regeneration without scarring Wounds in adult mammals typically heal by forming fibrotic scars. Mascharak et al. found that a specific population of skin fibroblasts ( Engrailed-1 lineage–negative fibroblasts) activate expression of Engrailed-1 and turn on profibrotic cellular programs in response to local tissue mechanics in wounds (see the Perspective by Konieczny and Naik). When mechanical signaling was inhibited in these cells (using either genetic deletion or small-molecule inhibition), skin wounds in mice no longer formed scars but instead healed by regeneration, restoring skin with normal hair follicles and glands, extracellular matrix, and mechanical strength. Science , this issue p. eaba2374 ; see also p. 346

Topics & Concepts

Wound healingCell biologyRegeneration (biology)MechanotransductionengrailedFibroblastKnockout mouseBiologyPathologyAnatomyImmunologyMedicineIn vitroReceptorGene expressionGeneGeneticsHomeoboxWound Healing and TreatmentsCellular Mechanics and InteractionsHippo pathway signaling and YAP/TAZ