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SAA1/FPR2 signaling between keratinocytes and neutrophils sustains chronic inflammation in Sweet syndrome
Jianhe Huang, Satish Sati, Olivia Ahart, Emmanuel Rapp-Reyes, Linda Zhou, Robert G. Micheletti, William D. James, Misha Rosenbach, Thomas H. Leung
Jianhe Huang, Satish Sati, Olivia Ahart, Emmanuel Rapp-Reyes, Linda Zhou, Robert G. Micheletti, William D. James, Misha Rosenbach, Thomas H. Leung
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Research Article Dermatology Immunology

SAA1/FPR2 signaling between keratinocytes and neutrophils sustains chronic inflammation in Sweet syndrome

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Abstract

Sweet syndrome (also known as acute febrile neutrophilic dermatosis) is a rare inflammatory skin disorder characterized by erythematous plaques with a dense dermal neutrophilic infiltrate. The first-line therapy remains oral corticosteroids, which suppresses inflammation nonspecifically. Although neutrophils are typically short-lived, how they persist in Sweet syndrome skin and contribute to disease pathogenesis remains unclear. Here, we identify a previously unrecognized population of antigen-presenting cell–like (APC-like) neutrophils expressing MHC class II genes that are uniquely present in Sweet syndrome skin but absent in healthy tissue and the circulation. Keratinocytes extended neutrophil lifespan 10-fold in coculture experiments and drove the emergence of an APC-like phenotype in approximately 30% of neutrophils, mirroring observations in patients’ lesions. Mechanistically, keratinocyte-derived serum amyloid A1 (SAA1) signals through the formyl peptide receptor 2 (FPR2) on neutrophils to promote their survival. These long-lived neutrophils actively orchestrate local immune responses by recruiting T cells and inducing cytokine production. Strikingly, dual blockade of SAA1/FPR2 signaling restores neutrophil turnover to baseline levels, with efficacy comparable to high-dose corticosteroids. These findings uncover a keratinocyte/neutrophil/T cell axis that sustains chronic inflammation in Sweet syndrome and highlight the SAA1/FPR2 pathway as a promising target for precision therapy.

Authors

Jianhe Huang, Satish Sati, Olivia Ahart, Emmanuel Rapp-Reyes, Linda Zhou, Robert G. Micheletti, William D. James, Misha Rosenbach, Thomas H. Leung

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Figure 2

APC-like neutrophils are specifically recruited to Sweet syndrome–affected skin.

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APC-like neutrophils are specifically recruited to Sweet syndrome–affect...
(A) Gene expression of neutrophil single-cell cluster matched the granulocyte definition in the Immunological Genome Project database. Baso, basophil, Eos, eosinophil; Gran, granulocyte; Mono, monocyte. (B) Spearman correlation heatmap validating neutrophil identity by comparing Sweet syndrome (SS) neutrophils against published human neutrophil datasets from healthy individuals. Sweet syndrome skin, Sweet syndrome skin neutrophils; Sweet syndrome blood, Sweet syndrome blood neutrophils, BM, and other tissue sources as indicated. Color scale represents the correlation coefficient. (C) Immunofluorescence staining images of Sweet syndrome skin neutrophils demonstrating coexpression of neutrophil-specific markers (S100A8, S100A9) and NE. (D) Quantification of immunofluorescence staining. (E) Gene ontogeny analysis of Sweet syndrome skin neutrophils versus blood neutrophils. (F) Dot plot comparing the expression of antigen-presenting genes in Sweet syndrome skin neutrophils, Sweet syndrome blood neutrophils, and published datasets. Dot size reflects the percentage of cells expressing the gene, and the color illustrates the level of gene expression. (G) Percentage of neutrophils coexpressing the top-3 MHC II–related genes in individual patient samples. (H) Representative images and quantification of immunofluorescence staining from 5 Sweet syndrome skin samples confirming coexpression of MHC II and NE. Scale bars: 100 μm (C and H).

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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