β-Catenin–regulated myeloid cell adhesion and migration determine wound healing
Saeid Amini-Nik, … , Boris Hinz, Benjamin A. Alman
Saeid Amini-Nik, … , Boris Hinz, Benjamin A. Alman
Published May 16, 2014
Citation Information: J Clin Invest. 2014;124(6):2599-2610. https://doi.org/10.1172/JCI62059.
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Research Article Immunology

β-Catenin–regulated myeloid cell adhesion and migration determine wound healing

Abstract

A β-catenin/T cell factor–dependent transcriptional program is critical during cutaneous wound repair for the regulation of scar size; however, the relative contribution of β-catenin activity and function in specific cell types in the granulation tissue during the healing process is unknown. Here, cell lineage tracing revealed that cells in which β-catenin is transcriptionally active express a gene profile that is characteristic of the myeloid lineage. Mice harboring a macrophage-specific deletion of the gene encoding β-catenin exhibited insufficient skin wound healing due to macrophage-specific defects in migration, adhesion to fibroblasts, and ability to produce TGF-β1. In irradiated mice, only macrophages expressing β-catenin were able to rescue wound-healing deficiency. Evaluation of scar tissue collected from patients with hypertrophic and normal scars revealed a correlation between the number of macrophages within the wound, β-catenin levels, and cellularity. Our data indicate that β-catenin regulates myeloid cell motility and adhesion and that β-catenin–mediated macrophage motility contributes to the number of mesenchymal cells and ultimate scar size following cutaneous injury.

Authors

Saeid Amini-Nik, Elizabeth Cambridge, Winston Yu, Anne Guo, Heather Whetstone, Puviindran Nadesan, Raymond Poon, Boris Hinz, Benjamin A. Alman

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Figure 4

Macrophages deficient in β-catenin cannot rescue deficient wound healing in irradiated mice.

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Macrophages deficient in β-catenin cannot rescue deficient wound healing...
Representative histology of healing wounds from an irradiated mouse treated with macrophages from a donor mouse showing partial rescue of the wound phenotype and a significant increase in the number of cells in the wound (AC are low-magnification images; scale bars:1,000 μm. DF are higher-magnification images; scale bars: 100 μm). Macrophages lacking β-catenin were not able to rescue the phenotype. (A and D) Irradiated control mouse treated with carrier only. (B and E) Irradiated mouse treated with macrophages obtained from the bone marrow of a control mouse. (C and F) Irradiated mouse treated with macrophages from Lysz-Cre Catnbtm2KEM mice lacking β-catenin. RFP-labeled macrophages were absent in the healing tissue of control-treated mice (G), while they were present in the healing tissue (H) of the treated mice 1 week after wounding. (I) Quantification of the total number of cells in the healing zone in the various mouse wounds. Data are from 8 mice and are shown as the mean ± 95% CI. Comp-FL, compensated fluorescence.