Aberrant cellular communities underlying disease heterogeneity in chronic obstructive pulmonary disease

Yuening Zhang; Huanhuan Wei; Jessica Nouws; Wenhao Jiang; Reginald M. Brewster; Jenny P. Nguyen; Si Ru Liang; Samuel M. Pass; Weiwei Wang; Florine Collin; Angela Taravella Oill; Sang Hun Kim; Saul S. Siller; Jinjiang Liu; Amy Y. Zhao; Phillip Hansbro; Charles Dela Cruz; Clemente Britto; Jose Gomez; Suzanne M. Cloonan; Erica L. Herzog; Tu Kiet T. Lam; Nicholas E. Banovich; Micha Sam B. Raredon; Xuchen Zhang; Stefano Mangiola; Robert J. Homer; Naftali Kaminski; John McDonough; Francesca Polverino; Xiting Yan; Maor Sauler

doi:10.1038/s41588-025-02480-z

Aberrant cellular communities underlying disease heterogeneity in chronic obstructive pulmonary disease

Yuening Zhang
, Huanhuan Wei
, Jessica Nouws
, Wenhao Jiang
, Reginald M. Brewster
, Jenny P. Nguyen
, Si Ru Liang
, Samuel M. Pass
, Weiwei Wang
, Florine Collin
, Angela Taravella Oill
, Sang Hun Kim
, Saul S. Siller
, Jinjiang Liu
, Amy Y. Zhao
, Phillip Hansbro
, Charles Dela Cruz
, Clemente Britto
, Jose Gomez
, Suzanne M. Cloonan

Erica L. Herzog, Tu Kiet T. Lam, Nicholas E. Banovich, Micha Sam B. Raredon, Xuchen Zhang, Stefano Mangiola, Robert J. Homer, Naftali Kaminski, John McDonough, Francesca Polverino, Xiting Yan, Maor Sauler

Research output: Contribution to journal › Article › peer-review

Abstract

Chronic obstructive pulmonary disease (COPD) is clinically and molecularly heterogeneous. To investigate COPD heterogeneity, we profiled lung tissue by single-nucleus RNA sequencing from 141 study participants (1,516,727 nuclei) and identified shifts in cell composition and emergent cell states that correlated with lung function, emphysema and composite symptom scores. Epithelial regenerative states peaked in early COPD and declined thereafter, whereas inflamed nonimmune cells and profibrotic/remodeling states, together with select immune populations, expanded with disease progression. Clustering study participants by the proportion of pathologic cells coupled with spatial transcriptomics identified distinct patterns of cellular co-occurrence within spatially localized niches. Proteomic analyses identified plasma biomarkers of cell states and their impact on the extracellular matrix. Mediation and cell communication analyses revealed cell-autonomous and intercellular communication networks associated with disease. These data define the cellular landscape of COPD heterogeneity, revealing molecular drivers and biomarkers that could inform therapeutic strategies.

Original language	English (US)
Pages (from-to)	376-391
Number of pages	16
Journal	Nature Genetics
Volume	58
Issue number	2
DOIs	https://doi.org/10.1038/s41588-025-02480-z
State	Published - Feb 2026
Externally published	Yes

ASJC Scopus subject areas

Genetics

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Zhang, Y., Wei, H., Nouws, J., Jiang, W., Brewster, R. M., Nguyen, J. P., Liang, S. R., Pass, S. M., Wang, W., Collin, F., Oill, A. T., Kim, S. H., Siller, S. S., Liu, J., Zhao, A. Y., Hansbro, P., Dela Cruz, C., Britto, C., Gomez, J., ... Sauler, M. (2026). Aberrant cellular communities underlying disease heterogeneity in chronic obstructive pulmonary disease. Nature Genetics, 58(2), 376-391. https://doi.org/10.1038/s41588-025-02480-z

Zhang, Y, Wei, H, Nouws, J, Jiang, W, Brewster, RM, Nguyen, JP, Liang, SR, Pass, SM, Wang, W, Collin, F, Oill, AT, Kim, SH, Siller, SS, Liu, J, Zhao, AY, Hansbro, P, Dela Cruz, C, Britto, C, Gomez, J, Cloonan, SM, Herzog, EL, Lam, TKT, Banovich, NE, Raredon, MSB, Zhang, X, Mangiola, S, Homer, RJ, Kaminski, N, McDonough, J, Polverino, F, Yan, X & Sauler, M 2026, 'Aberrant cellular communities underlying disease heterogeneity in chronic obstructive pulmonary disease', Nature Genetics, vol. 58, no. 2, pp. 376-391. https://doi.org/10.1038/s41588-025-02480-z

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title = "Aberrant cellular communities underlying disease heterogeneity in chronic obstructive pulmonary disease",

abstract = "Chronic obstructive pulmonary disease (COPD) is clinically and molecularly heterogeneous. To investigate COPD heterogeneity, we profiled lung tissue by single-nucleus RNA sequencing from 141 study participants (1,516,727 nuclei) and identified shifts in cell composition and emergent cell states that correlated with lung function, emphysema and composite symptom scores. Epithelial regenerative states peaked in early COPD and declined thereafter, whereas inflamed nonimmune cells and profibrotic/remodeling states, together with select immune populations, expanded with disease progression. Clustering study participants by the proportion of pathologic cells coupled with spatial transcriptomics identified distinct patterns of cellular co-occurrence within spatially localized niches. Proteomic analyses identified plasma biomarkers of cell states and their impact on the extracellular matrix. Mediation and cell communication analyses revealed cell-autonomous and intercellular communication networks associated with disease. These data define the cellular landscape of COPD heterogeneity, revealing molecular drivers and biomarkers that could inform therapeutic strategies.",

author = "Yuening Zhang and Huanhuan Wei and Jessica Nouws and Wenhao Jiang and Brewster, \{Reginald M.\} and Nguyen, \{Jenny P.\} and Liang, \{Si Ru\} and Pass, \{Samuel M.\} and Weiwei Wang and Florine Collin and Oill, \{Angela Taravella\} and Kim, \{Sang Hun\} and Siller, \{Saul S.\} and Jinjiang Liu and Zhao, \{Amy Y.\} and Phillip Hansbro and \{Dela Cruz\}, Charles and Clemente Britto and Jose Gomez and Cloonan, \{Suzanne M.\} and Herzog, \{Erica L.\} and Lam, \{Tu Kiet T.\} and Banovich, \{Nicholas E.\} and Raredon, \{Micha Sam B.\} and Xuchen Zhang and Stefano Mangiola and Homer, \{Robert J.\} and Naftali Kaminski and John McDonough and Francesca Polverino and Xiting Yan and Maor Sauler",

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doi = "10.1038/s41588-025-02480-z",

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AU - Zhang, Yuening

AU - Wei, Huanhuan

AU - Nouws, Jessica

AU - Jiang, Wenhao

AU - Brewster, Reginald M.

AU - Nguyen, Jenny P.

AU - Liang, Si Ru

AU - Pass, Samuel M.

AU - Wang, Weiwei

AU - Collin, Florine

AU - Oill, Angela Taravella

AU - Kim, Sang Hun

AU - Siller, Saul S.

AU - Liu, Jinjiang

AU - Zhao, Amy Y.

AU - Hansbro, Phillip

AU - Dela Cruz, Charles

AU - Britto, Clemente

AU - Gomez, Jose

AU - Cloonan, Suzanne M.

AU - Herzog, Erica L.

AU - Lam, Tu Kiet T.

AU - Banovich, Nicholas E.

AU - Raredon, Micha Sam B.

AU - Zhang, Xuchen

AU - Mangiola, Stefano

AU - Homer, Robert J.

AU - Kaminski, Naftali

AU - McDonough, John

AU - Polverino, Francesca

AU - Yan, Xiting

AU - Sauler, Maor

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N2 - Chronic obstructive pulmonary disease (COPD) is clinically and molecularly heterogeneous. To investigate COPD heterogeneity, we profiled lung tissue by single-nucleus RNA sequencing from 141 study participants (1,516,727 nuclei) and identified shifts in cell composition and emergent cell states that correlated with lung function, emphysema and composite symptom scores. Epithelial regenerative states peaked in early COPD and declined thereafter, whereas inflamed nonimmune cells and profibrotic/remodeling states, together with select immune populations, expanded with disease progression. Clustering study participants by the proportion of pathologic cells coupled with spatial transcriptomics identified distinct patterns of cellular co-occurrence within spatially localized niches. Proteomic analyses identified plasma biomarkers of cell states and their impact on the extracellular matrix. Mediation and cell communication analyses revealed cell-autonomous and intercellular communication networks associated with disease. These data define the cellular landscape of COPD heterogeneity, revealing molecular drivers and biomarkers that could inform therapeutic strategies.

AB - Chronic obstructive pulmonary disease (COPD) is clinically and molecularly heterogeneous. To investigate COPD heterogeneity, we profiled lung tissue by single-nucleus RNA sequencing from 141 study participants (1,516,727 nuclei) and identified shifts in cell composition and emergent cell states that correlated with lung function, emphysema and composite symptom scores. Epithelial regenerative states peaked in early COPD and declined thereafter, whereas inflamed nonimmune cells and profibrotic/remodeling states, together with select immune populations, expanded with disease progression. Clustering study participants by the proportion of pathologic cells coupled with spatial transcriptomics identified distinct patterns of cellular co-occurrence within spatially localized niches. Proteomic analyses identified plasma biomarkers of cell states and their impact on the extracellular matrix. Mediation and cell communication analyses revealed cell-autonomous and intercellular communication networks associated with disease. These data define the cellular landscape of COPD heterogeneity, revealing molecular drivers and biomarkers that could inform therapeutic strategies.

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Aberrant cellular communities underlying disease heterogeneity in chronic obstructive pulmonary disease

Abstract

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