Reprogramming of epidermal keratinocytes by PITX1 transforms the cutaneous cellular landscape and promotes wound healing
Andrew M. Overmiller, Akihiko Uchiyama, Emma D Hope, Subhashree Nayak, Christopher G. O’Neill, Kowser Hasneen, Yi-Wen Chen, Faiza Naz, Stefania Dell’Orso, Stephen R. Brooks, Kan Jiang, Maria I. Morasso
Andrew M. Overmiller, Akihiko Uchiyama, Emma D Hope, Subhashree Nayak, Christopher G. O’Neill, Kowser Hasneen, Yi-Wen Chen, Faiza Naz, Stefania Dell’Orso, Stephen R. Brooks, Kan Jiang, Maria I. Morasso
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Research Article Dermatology

Reprogramming of epidermal keratinocytes by PITX1 transforms the cutaneous cellular landscape and promotes wound healing

Abstract

Cutaneous wound healing is a slow process that often terminates with permanent scarring while oral wounds, in contrast, regenerate after damage faster. Unique molecular networks in epidermal and oral epithelial keratinocytes contribute to the tissue-specific response to wounding, but key factors that establish those networks and how the keratinocytes interact with their cellular environment remain to be elucidated. The transcription factor PITX1 is highly expressed in the oral epithelium but is undetectable in cutaneous keratinocytes. To delineate if PITX1 contributes to oral keratinocyte identity, cell-cell interactions, and the improved wound healing capabilities, we ectopically expressed PITX1 in the epidermis of murine skin. Using comparative analysis of murine skin and oral (buccal) mucosa with single-cell RNA-Seq and spatial transcriptomics, we found that PITX1 expression enhances epidermal keratinocyte migration and proliferation and alters differentiation to a quasi–oral keratinocyte state. PITX1+ keratinocytes reprogrammed intercellular communication between skin-resident cells to mirror buccal tissue while stimulating the influx of neutrophils that establish a pro-inflammatory environment. Furthermore, PITX1+ skin healed significantly faster than control skin via increased keratinocyte activation and migration and a tunable inflammatory environment. These results illustrate that PITX1 programs oral keratinocyte identity and cellular interactions while revealing critical downstream networks that promote wound closure.

Authors

Andrew M. Overmiller, Akihiko Uchiyama, Emma D Hope, Subhashree Nayak, Christopher G. O’Neill, Kowser Hasneen, Yi-Wen Chen, Faiza Naz, Stefania Dell’Orso, Stephen R. Brooks, Kan Jiang, Maria I. Morasso

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Figure 7

Primed, activated keratinocytes and enhanced neutrophil recruitment are features of PITX1+ skin wounds.

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Primed, activated keratinocytes and enhanced neutrophil recruitment are ...
(A) UMAPs of control skin (n = 8), PITX1+ (n = 8), and buccal mucosa (n = 7) scRNA-Seq keratinocyte subpopulations (left). Proportion plot of wound keratinocyte subpopulations (right). (B) Representative Xenium of male control (n = 1) and PITX1+ wounds (n = 2) with cell subtypes highlighted. Dotted boxes indicate magnification of the wound-adjacent epithelial tongue (middle) and distal epithelium (right). Krt6a (yellow) and Krt16 (cyan) transcripts represented by colored dots. Scale bars of both large wound field and insets are 100 μm. (C) UMAPs of control and PITX1+ wound scRNA-Seq immune cell subpopulations (left). Proportion plot of immune cell subpopulations (right). pDC, plasmacytoid dendritic cell. (D) Representative Xenium of wound-adjacent region of male control and PITX1+ samples with Neutrophils (green) and Keratinocytes (blue) highlighted. Il1b (yellow) and S100a8 (red) transcripts represented by colored dots. Scale bar = 100 μm. Significance for proportion plots was assessed by proportionality testing followed by ad hoc comparisons against the corresponding cell type in control skin to derive log2 fold-change (log2FC) (*P < 0.01 & log2FC > |1.5|, **P < 0.01 & log2FC > |2|, ***P < 0.01 & log2FC > |4|).