Bronchial epithelial transcriptome reveals dysregulated interferon and inflammatory responses to rhinovirus in exacerbation-prone pediatric asthma
Naresh Doni Jayavelu, Basilin Benson, Patricia C. dela Cruz, Weston T. Powell, Lucille M. Rich, Elizabeth R. Vanderwall, Camile R. Gates, Andrew J. Nagel, Maria P. White, Nyssa B. Samanas, Kourtnie Whitfield, Teal S. Hallstrand, Steven F. Ziegler, Matthew C. Altman, Jason S. Debley
Naresh Doni Jayavelu, Basilin Benson, Patricia C. dela Cruz, Weston T. Powell, Lucille M. Rich, Elizabeth R. Vanderwall, Camile R. Gates, Andrew J. Nagel, Maria P. White, Nyssa B. Samanas, Kourtnie Whitfield, Teal S. Hallstrand, Steven F. Ziegler, Matthew C. Altman, Jason S. Debley
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Research Article Cell biology Immunology Pulmonology

Bronchial epithelial transcriptome reveals dysregulated interferon and inflammatory responses to rhinovirus in exacerbation-prone pediatric asthma

Abstract

Host factors influencing susceptibility to rhinovirus-induced asthma exacerbations remain poorly characterized. Using organotypic bronchial epithelial cultures from well-characterized children with asthma and healthy children, this study investigated viral load kinetics and resultant host responses by bulk and single-cell transcriptomics and targeted protein analyses. Bronchial epithelium from exacerbation-prone children exhibited greater rhinovirus replication and a cascade of exaggerated downstream interferon (IFN), inflammatory, epithelial stress, and remodeling responses. These transcriptional patterns were confirmed and further refined using single-cell transcriptomics, revealing cell type–specific contributions — particularly from non-ciliated cell populations including secretory immune response, tuft, and basal cells. We observed that these post-infection differences were associated with lower pre-infection IFN-stimulated gene (ISG) expression and protein levels of the ISG CXCL10. Prophylactic IFN-β treatment reduced viral replication and normalized downstream responses, supporting low baseline (pre-infection) IFN tone as a modifiable causal determinant of host susceptibility to adverse rhinovirus-induced responses in exacerbation-prone children with asthma.

Authors

Naresh Doni Jayavelu, Basilin Benson, Patricia C. dela Cruz, Weston T. Powell, Lucille M. Rich, Elizabeth R. Vanderwall, Camile R. Gates, Andrew J. Nagel, Maria P. White, Nyssa B. Samanas, Kourtnie Whitfield, Teal S. Hallstrand, Steven F. Ziegler, Matthew C. Altman, Jason S. Debley

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Figure 2

Pre-infection IFN tone drives viral replication in children with SE.

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Pre-infection IFN tone drives viral replication in children with SE. (A)...
(A) GSEA analysis shows a significantly negative enrichment score of the MSigDB hallmark IFN-α response gene set in the SE group compared with the NSE group in the pre-infection day 0 samples (GSEA enrichment score = –2.057, FDR = 2.2 × 10–3). The plot shows the running enrichment score for the gene set from decreasing values of the differential expression rank list. The peak represents the enrichment score for the gene set. The bars show the genes in the gene set ranked by effect size relative to all genes that are shown in the ranked list metric plot. The CXCL10 gene is indicated. The color gradient indicates which comparison group the genes appear in within the ranked list of genes. The bar plot at the bottom represents the effect size of all gene ranking. (B) Dot plot showing log-transformed pre-infection CXCL10 concentration values by exacerbation status; bars indicate median and interquartile range for each group. (C) Scatterplot showing a significant inverse relationship between log-transformed pre-infection CXCL10 values and log-transformed viral load at day 2 (Pearson’s R = –0.38, P = 1.6 × 10–2). The fit line is based on a linear model including 95% CIs. HC, n = 3 donors; NSE, n = 14 donors; SE, n = 23 donors.