AI Article Synopsis

  • Rosacea is a chronic skin condition, and this study reveals that unique cell changes in the skin of affected patients may involve a specific type of keratinocyte damaged by IFNγ signaling.* -
  • Research indicates that rosacea is characterized by an increase in various inflammatory cells and dysfunctional vascular cells, which contribute to its symptoms.* -
  • Fibroblasts are identified as central players in producing inflammatory signals related to rosacea, and targeting these cells could be a potential strategy for treating the condition.*

Article Abstract

Rosacea is a chronic inflammatory skin disorder, whose underlying cellular and molecular mechanisms remain obscure. Here, we generate a single-cell atlas of facial skin from female rosacea patients and healthy individuals. Among keratinocytes, a subpopulation characterized by IFNγ-mediated barrier function damage is found to be unique to rosacea lesions. Blocking IFNγ signaling alleviates rosacea-like phenotypes and skin barrier damage in mice. The papulopustular rosacea is featured by expansion of pro-inflammatory fibroblasts, Schwann, endothelial and macrophage/dendritic cells. The frequencies of type 1/17 and skin-resident memory T cells are increased, and vascular mural cells are characterized by activation of inflammatory pathways and impaired muscle contraction function in rosacea. Most importantly, fibroblasts are identified as the leading cell type producing pro-inflammatory and vasodilative signals in rosacea. Depletion of fibroblasts or knockdown of PTGDS, a gene specifically upregulated in fibroblasts, blocks rosacea development in mice. Our study provides a comprehensive understanding of the aberrant alterations of skin-resident cell populations and identifies fibroblasts as a key determinant in rosacea development.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11464544PMC
http://dx.doi.org/10.1038/s41467-024-52946-7DOI Listing

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