Irx1 mechanisms for oral epithelial basal stem cell plasticity during reepithelialization after injury
Dan Su, Tadkamol Krongbaramee, Samuel Swearson, Yan Sweat, Mason Sweat, Fan Shao, Steven Eliason, Brad A. Amendt
Dan Su, Tadkamol Krongbaramee, Samuel Swearson, Yan Sweat, Mason Sweat, Fan Shao, Steven Eliason, Brad A. Amendt
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Research Article Cell biology Stem cells

Irx1 mechanisms for oral epithelial basal stem cell plasticity during reepithelialization after injury

Abstract

The oral mucosa undergoes daily insults, and stem cells in the epithelial basal cell layer regenerate gingiva tissue to maintain oral health. The Iroquois Homeobox 1 (IRX1) protein is expressed in the stem cell niches in human/mouse oral epithelium and mesenchyme under homeostasis. We found that Irx1+/– heterozygous (Het) mice have delayed wound closure, delayed morphological changes of regenerated epithelium, and defective keratinocyte proliferation and differentiation during wound healing. RNA-Seq analyses between WT and Irx1+/– mice at 3 days postinjury (dpi) found impaired epithelial migration and decreased keratinocyte-related genes upon injury. IRX1-expressing cells are found in the gingival epithelial basal cell layer, a stem cell niche for gingival maintenance. IRX1-expressing cells are also found in cell niches in the underlying stroma. IRX1 activates SOX9 in the transient amplifying layer to increase cell proliferation, and EGF signaling is activated to induce cell migration. Krt14CreERT lineage tracing experiments reveal defects in the stratification of the Irx1+/– HET mouse oral epithelium. IRX1 is primed at the base of the gingiva in the basal cell layer of the oral epithelium, facilitating rapid and scarless wound healing through activating SOX9 and the EGF signaling pathway.

Authors

Dan Su, Tadkamol Krongbaramee, Samuel Swearson, Yan Sweat, Mason Sweat, Fan Shao, Steven Eliason, Brad A. Amendt

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Figure 13

Decreased EPGN underlies the delayed reepithelization in Irx1+/– mice.

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Decreased EPGN underlies the delayed reepithelization in Irx1+/– mice. (...
(A) Heatmap showing the relative mRNA expression levels of a subset of the significant genes upregulated in the injured tissue of Irx1+/+ mice over uninjured Irx1+/+ mice as well as the injured tissue of Irx1+/– mice. (B) qPCR detected the mRNA level of Epgn at 1, 3, and 7 dpi. n = 3 (C and D) Representative IF staining of EPGN protein in the unwounded gingiva of Irx1+/+ and Irx1+/– mice. (E and F) Representative IF staining of EPGN protein in the injured gingiva of Irx1+/+ and Irx1+/– mice at 3 dpi. (G and H) Representative IF staining of EPGN protein in the injured gingiva of Irx1+/+ and Irx1+/– mice at 7 dpi. Blue staining represents nuclei. Scale bar: 100 μm.