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 5

Global gene expression analysis identifies severity-associated transcriptional programs across epithelial cell types following RV infection.

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Global gene expression analysis identifies severity-associated transcrip...
(A) Count of genes with ascending (SE > NSE > HC) and descending (SE < NSE < HC) expression trend across donor groups (SE, 7 donors; NSE, 4 donors; HC, 3 donors) in each cell type. (B) Volcano plots show genes with an ascending and descending trend across donor groups in basal, secretory, goblet, ciliated, and secretory immune response cells. Significant (FDR < 0.01) genes with an ascending trend (estimate > 0.2) and descending trend (estimate < –0.2) that are expressed in at least 10% of cells are denoted by red and blue color points, respectively. Select top-ranked genes by estimate are highlighted. (C) Dot plot showing enriched Gene Ontology (GO) terms and pathways on significant genes with an ascending trend. The size of each dot denotes the percentage of genes, and the intensity of color denotes statistical significance as –log10(adjusted P value). (D) Dot plot showing enriched GO terms and pathways on significant genes with descending trend. The size of each dot denotes the percentage of genes, and the intensity of color denotes statistical significance as –log10(adjusted P value).