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A basophil-fibroblast pro-inflammatory axis fuels type 2 skin inflammation

I Imanishi, Raman Gill, A. Wilder, Paula Restrepo, Arjun Nair, Inchul Cho, James G. Krueger, Emma Guttman‐Yassky, Brian Kim, Andrew L. Ji

2025Cell Reports10 citationsDOIOpen Access PDF

Abstract

Chronic inflammatory skin diseases arise from dysregulated interactions between tissue-resident and infiltrating cells, the complexity of which hinders disease understanding and treatment. To address this, here, we present a single-cell spatiotemporal atlas of murine type 2 skin inflammation using MERFISH and scRNA-seq. Analyzing ∼430,000 cells during MC903- and oxazolone-induced dermatitis, we identify 39 cell types, including pro-inflammatory fibroblasts that resemble those in human atopic dermatitis. Spatial neighborhood analyses reveal basophils as potent activators of pro-inflammatory fibroblasts, with basophil-derived oncostatin-M (OSM) and IL-4 synergizing fibroblast-mediated feedforward basophil and immune recruitment. While fibroblast-specific deletion of the IL-4Rα receptor disrupts inflammation in vivo, the addition of pharmacologic gp130 inhibition, a core component of the OSM receptor, results in synergistic reduction of inflammation. Our study establishes a basophil-fibroblast circuitry as a critical regulator of type 2 skin inflammation, redefining basophil biology and positioning fibroblasts as dynamic immune regulators and therapeutic targets in inflammatory skin disease.

Topics & Concepts

InflammationBasophilFibroblastImmunologyDermal fibroblastImmune systemBiologyCell cultureImmunoglobulin EAntibodyGeneticsDermatology and Skin DiseasesAsthma and respiratory diseasesIL-33, ST2, and ILC Pathways
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