scRNA-Seq Identifies IL-1 Responsive Cell Subsets in the Skin Inquiry-induced Inflammatory Response

Kayla Harpold; H.M. Zhou; R.M. Slominski; L.J. Seymour; M.C. Bell; P. Dave; J. Atumonye; W. Wright, III; A. Dawes; B. Griesenauer; S. Paczesny; M.H. Kaplan; D.F. Spandau; Y. Liu; X. Xuei; H. Gao; A. Hoki; M.J. Turner

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Kayla Harpold Indiana University School of Medicine
H.M. Zhou Indiana University School of Medicine
R.M. Slominski Indiana University School of Medicine
L.J. Seymour Indiana University School of Medicine
M.C. Bell Indiana University School of Medicine
P. Dave Indiana University School of Medicine
J. Atumonye Indiana University School of Medicine
W. Wright, III Indiana University School of Medicine
A. Dawes Indiana University School of Medicine
B. Griesenauer Indiana University School of Medicine
S. Paczesny Indiana University School of Medicine
M.H. Kaplan Indiana University School of Medicine
D.F. Spandau Indiana University School of Medicine
Y. Liu Indiana University School of Medicine
X. Xuei Indiana University School of Medicine
H. Gao Indiana University School of Medicine
A. Hoki Indiana University School of Medicine
M.J. Turner Indiana University School of Medicine

Abstract

Inflammation is an integral aspect of skin wound healing; however, the mechanisms that regulate inflammatory cascades in this context are not well defined. To better understand how skin inflammation impacts wound healing, we developed an ex vivo skin culture system to model key aspects of the inflammatory phase of wound healing. In this model, a defined set of proinflammatory cytokines and chemokines, mirroring those produced in wounds in vivo, are produced when mouse or human skin biopsies are cultured ex vivo. We refer to this pattern of cytokine and chemokine induction as the skin injury-induced inflammatory response. Previous studies in our laboratory demonstrated this response is initiated by the cytokine, interleukin 1 alpha (IL-1α). To understand the cellular sources and targets of IL-1α during the skin injury-induced inflammatory response, skin biopsies from mouse tail skin were cultured ex vivo for 8 hours followed by processing for single cell RNA sequencing (scRNAseq). Using bioinformatic software R and the package Seurat, analysis of scRNAseq data from this experiment identified 22 distinct cell population clusters. While no populations exhibited significant expression of Il1a transcripts, multiple cell populations expressed Il1r1 transcripts, which encodes the ligand-specific subunit of the IL-1 receptor. Notably, fibroblast, endothelial cell and stromal cell clusters were characterized by expression of Il1r1 and the skin injury-induced inflammatory response transcripts Il6, Cxcl1 and/or Csf3. Furthermore, Reactome Pathway Analysis suggested the Il-1 signaling axis was activated in these cell populations. This information provides a basis for future studies to understand how IL-1 signaling in fibroblasts, endothelial cells and stromal cells impacts wound healing in vivo, which could in turn lead to novel therapeutic approaches to clinically-relevant outcomes.

scRNA-Seq Identifies IL-1 Responsive Cell Subsets in the Skin Inquiry-induced Inflammatory Response

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