GRHL3 activates FSCN1 to relax cell-cell adhesions between migrating keratinocytes during wound reepithelialization
Ghaidaa Kashgari, … , Ping H. Wang, Bogi Andersen
Ghaidaa Kashgari, … , Ping H. Wang, Bogi Andersen
Published September 8, 2021
Citation Information: JCI Insight. 2021;6(17):e142577. https://doi.org/10.1172/jci.insight.142577.
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Research Article Dermatology Genetics

GRHL3 activates FSCN1 to relax cell-cell adhesions between migrating keratinocytes during wound reepithelialization

Abstract

The migrating keratinocyte wound front is required for skin wound closure. Despite significant advances in wound healing research, we do not fully understand the molecular mechanisms that orchestrate collective keratinocyte migration. Here, we show that, in the wound front, the epidermal transcription factor Grainyhead like-3 (GRHL3) mediates decreased expression of the adherens junction protein E-cadherin; this results in relaxed adhesions between suprabasal keratinocytes, thus promoting collective cell migration and wound closure. Wound fronts from mice lacking GRHL3 in epithelial cells (Grhl3-cKO) have lower expression of Fascin-1 (FSCN1), a known negative regulator of E-cadherin. Assay for Transposase-Accessible Chromatin using sequencing (ATAC-seq) on wounded keratinocytes shows decreased wound-induced chromatin accessibility near the Fscn1 gene in Grhl3-cKO mice, a region enriched for GRHL3 motifs. These data reveal a wound-induced GRHL3/FSCN1/E-cadherin pathway that regulates keratinocyte-keratinocyte adhesion during wound-front migration; this pathway is activated in acute human wounds and is altered in diabetic wounds in mice, suggesting translational relevance.

Authors

Ghaidaa Kashgari, Sanan Venkatesh, Samuel Refuerzo, Brandon Pham, Anita Bayat, Rachel Herndon Klein, Raul Ramos, Albert Paul Ta, Maksim V. Plikus, Ping H. Wang, Bogi Andersen

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Figure 6

The GRHL3/FSCN1/E-cadherin pathway is activated in acute human wounds and impaired in diabetic mouse wounds.

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The GRHL3/FSCN1/E-cadherin pathway is activated in acute human wounds an...
(A) FSCN1 mRNA expression (mean ± SEM) in acute human wounds at the indicated times after wounding. (B) Schematic representation of the acute wound model using human skin xenografts (n = 3). (C) Immunofluorescence analysis of FSCN1 (green), E-cadherin (red), and GRHL3 (magenta) in human wounds at day 3 after wounding. Dashed lines indicate the basis of the migrating epithelium in the wound front. Scale bar: 70 μm. (D) Schematic representation of the mouse diabetic wound model (n = 3). (E) Immunofluorescence analysis of FSCN1 (green), E-cadherin (red), and DAPI (blue) in nondiabetic and diabetic mice at day 3 after wounding. Scale bar: 200 μm. Dashed lines indicate the basis of the migrating epithelium in the wound front. White boxes indicate the area of magnified images (rightmost panel). Scale bar: 45 μm. (F) Integrated intensity of E-cadherin staining in nondiabetic and diabetic wound sections (n = 3). Statistical significance was determined using Student’s t test (*P < 0.05).