Decoding the epithelial-stromal interactome in allergic rhinitis through single-cell multi-omics integration.
Journal:
The Journal of allergy and clinical immunology
Published Date:
Jul 11, 2026
Abstract
BACKGROUND: Allergic rhinitis (AR) is a prevalent chronic condition, yet the cellular and molecular changes associated with its pathogenesis remain incompletely understood. OBJECTIVE: We sought to construct a comprehensive cellular atlas of the nasal mucosa in AR and non-allergic rhinitis (NAR) and elucidate disease-associated transcriptional and epigenetic alterations. METHODS: We performed single-cell RNA sequencing and single-cell ATAC sequencing on nasal mucosa samples from 39 subjects (AR, n=24; NAR, n=15). Differential expressed gene analysis, differentially accessible peaks analysis, cell-cell communication, trajectory inference, and gene regulatory network reconstruction were applied. A deep learning framework was developed to integrate multi-omics data for disease prediction. RESULTS: We profiled 1,024,146 cells, constructing a comprehensive nasal mucosa atlas. The AR epithelium exhibited aberrant differentiation with suppressed maturation of basal and club cells, while fibroblasts displayed inflammatory activation and matrix remodeling signatures. Epithelial-stromal crosstalk was enhanced in the AR group. Cell subset-specific epigenetic alterations were also observed. Single-cell Multi-omics for Allergic Rhinitis Integrative Analysis (scMARIA) can simultaneously predict AR risk and clinically relevant disease parameters, and prioritize putative cell type-specific regulatory linkages. CONCLUSION: This multi-omics study establishes a comprehensive molecular framework of the nasal mucosa, revealing dysregulated epithelial-stromal interactions and gene regulatory networks that are correlated with AR status.
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