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A single-cell spatial chart of the airway wall reveals proinflammatory cellular ecosystems and their interactions in health and asthma


Journal article


R. Joulia, Sara Patti, W. Traves, Lola E Loewenthal, Laura Yates, S. Walker, F. Puttur, May Al-Sahaf, Katherine N. Cahill, Juying Lai, Salman Siddiqui, Joshua A. Boyce, Elliot Israel, Clare M. Lloyd
Nature Immunology, 2025

Semantic Scholar DOI PubMedCentral PubMed
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APA   Click to copy
Joulia, R., Patti, S., Traves, W., Loewenthal, L. E., Yates, L., Walker, S., … Lloyd, C. M. (2025). A single-cell spatial chart of the airway wall reveals proinflammatory cellular ecosystems and their interactions in health and asthma. Nature Immunology.


Chicago/Turabian   Click to copy
Joulia, R., Sara Patti, W. Traves, Lola E Loewenthal, Laura Yates, S. Walker, F. Puttur, et al. “A Single-Cell Spatial Chart of the Airway Wall Reveals Proinflammatory Cellular Ecosystems and Their Interactions in Health and Asthma.” Nature Immunology (2025).


MLA   Click to copy
Joulia, R., et al. “A Single-Cell Spatial Chart of the Airway Wall Reveals Proinflammatory Cellular Ecosystems and Their Interactions in Health and Asthma.” Nature Immunology, 2025.


BibTeX   Click to copy

@article{r2025a,
  title = {A single-cell spatial chart of the airway wall reveals proinflammatory cellular ecosystems and their interactions in health and asthma},
  year = {2025},
  journal = {Nature Immunology},
  author = {Joulia, R. and Patti, Sara and Traves, W. and Loewenthal, Lola E and Yates, Laura and Walker, S. and Puttur, F. and Al-Sahaf, May and Cahill, Katherine N. and Lai, Juying and Siddiqui, Salman and Boyce, Joshua A. and Israel, Elliot and Lloyd, Clare M.}
}

Abstract

Determining spatial location of cells within tissues gives vital insight into the interactions between resident and inflammatory cells and is a critical factor for uncoupling the mechanisms driving disease. Here, we apply single-cell spatial transcriptomics to reveal the airway wall landscape in health and during asthma. We identified proinflammatory cellular ecosystems that exist within discrete spatial niches in healthy and asthma samples. These cellular hubs are characterized by a high level of chemokine and alarmin expression, along with unique combinations of stromal cells. Mechanistically, we demonstrated that receptors, such as ACKR1, retain immune mediators locally, while amphiregulin-expressing mast cells are prominent within these proinflammatory hubs. Despite anti-inflammatory treatments, the asthma airway mucosa exhibited a distinct remodeling program within these cellular ecosystems, marked by increased proximity between key cell types. This study provides an unprecedented view of the topography of the airway wall, revealing distinct, specific ecosystems within spatial niches to target for therapeutic intervention. Here, the authors use single-cell spatial transcriptomics to profile the airway wall landscape in health and during asthma. Discrete proinflammatory ecosystems containing alarmins, chemokines and a unique combination of stromal cells were identified in healthy individuals, and these were spatially dysregulated in asthma.



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