SOX11 and SOX4 drive the reactivation of an embryonic gene program during murine wound repair

被引:0
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作者
Qi Miao
Matthew C. Hill
Fengju Chen
Qianxing Mo
Amy T. Ku
Carlos Ramos
Elisabeth Sock
Véronique Lefebvre
Hoang Nguyen
机构
[1] Baylor College of Medicine,Stem Cells and Regenerative Medicine Center
[2] Baylor College of Medicine,Center for Cell and Gene Therapy
[3] Baylor College of Medicine,Program in Developmental Biology
[4] Baylor College of Medicine,Dan L. Duncan Cancer Center
[5] H. Lee Moffitt Cancer Center,Department of Biostatistics & Bioinformatics
[6] Baylor College of Medicine,Interdepartmental Program in Translational Biology and Molecular Medicine
[7] Friedrich-Alexander-Universität Erlangen-Nürnberg,Institut für Biochemie, Emil
[8] Children’s Hospital of Philadelphia,Fischer
[9] Baylor College of Medicine,Zentrum
来源
Nature Communications | / 10卷
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摘要
Tissue injury induces changes in cellular identity, but the underlying molecular mechanisms remain obscure. Here, we show that upon damage in a mouse model, epidermal cells at the wound edge convert to an embryonic-like state, altering particularly the cytoskeletal/extracellular matrix (ECM) components and differentiation program. We show that SOX11 and its closest relative SOX4 dictate embryonic epidermal state, regulating genes involved in epidermal development as well as cytoskeletal/ECM organization. Correspondingly, postnatal induction of SOX11 represses epidermal terminal differentiation while deficiency of Sox11 and Sox4 accelerates differentiation and dramatically impairs cell motility and re-epithelialization. Amongst the embryonic genes reactivated at the wound edge, we identify fascin actin-bundling protein 1 (FSCN1) as a critical direct target of SOX11 and SOX4 regulating cell migration. Our study identifies the reactivated embryonic gene program during wound repair and demonstrates that SOX11 and SOX4 play a central role in this process.
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