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Single-cell analysis reveals prognostic fibroblast subpopulations linked to molecular and immunological subtypes of lung cancer

Single-cell analysis reveals prognostic fibroblast subpopulations linked to molecular and immunological subtypes of lung cancer
Single-cell analysis reveals prognostic fibroblast subpopulations linked to molecular and immunological subtypes of lung cancer

Fibroblasts are poorly characterised cells that variably impact tumour progression. Here, we use single cell RNA-sequencing, multiplexed immunohistochemistry and digital cytometry (CIBERSORTx) to identify and characterise three major fibroblast subpopulations in human non-small cell lung cancer: adventitial, alveolar and myofibroblasts. Alveolar and adventitial fibroblasts (enriched in control tissue samples) localise to discrete spatial niches in histologically normal lung tissue and indicate improved overall survival rates when present in lung adenocarcinomas (LUAD). Trajectory inference identifies three phases of control tissue fibroblast activation, leading to myofibroblast enrichment in tumour samples: initial upregulation of inflammatory cytokines, followed by stress-response signalling and ultimately increased expression of fibrillar collagens. Myofibroblasts correlate with poor overall survival rates in LUAD, associated with loss of epithelial differentiation, TP53 mutations, proximal molecular subtypes and myeloid cell recruitment. In squamous carcinomas myofibroblasts were not prognostic despite being transcriptomically equivalent. These findings have important implications for developing fibroblast-targeting strategies for cancer therapy.

adenocarcinoma oflLung/genetics, carcinoma, non-small-cell lung/genetics, fibroblasts, humans, lung neoplasms/genetics, single-cell analysis
2041-1723
Hanley, Christopher J.
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Waise, Sara
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Ellis, Matthew J.
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Lopez, Maria A.
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Pun, Wai Y.
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Taylor, Julian
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Parker, Rachel
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Kimbley, Lucy M.
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Chee, Serena J.
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Shaw, Emily C.
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West, Jonathan
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Alzetani, Aiman
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Woo, Edwin
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Ottensmeier, Christian H.
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Rose-Zerilli, Matthew J.J.
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Thomas, Gareth J.
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Hanley, Christopher J.
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Waise, Sara
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Ellis, Matthew J.
afbca752-ced4-40dd-b0af-d9ecffbd5b63
Lopez, Maria A.
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Pun, Wai Y.
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Taylor, Julian
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Parker, Rachel
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Kimbley, Lucy M.
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Chee, Serena J.
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Shaw, Emily C.
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West, Jonathan
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Alzetani, Aiman
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Woo, Edwin
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Ottensmeier, Christian H.
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Rose-Zerilli, Matthew J.J.
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Thomas, Gareth J.
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Hanley, Christopher J., Waise, Sara, Ellis, Matthew J., Lopez, Maria A., Pun, Wai Y., Taylor, Julian, Parker, Rachel, Kimbley, Lucy M., Chee, Serena J., Shaw, Emily C., West, Jonathan, Alzetani, Aiman, Woo, Edwin, Ottensmeier, Christian H., Rose-Zerilli, Matthew J.J. and Thomas, Gareth J. (2023) Single-cell analysis reveals prognostic fibroblast subpopulations linked to molecular and immunological subtypes of lung cancer. Nature Communications, 14, [387]. (doi:10.1038/s41467-023-35832-6).

Record type: Article

Abstract

Fibroblasts are poorly characterised cells that variably impact tumour progression. Here, we use single cell RNA-sequencing, multiplexed immunohistochemistry and digital cytometry (CIBERSORTx) to identify and characterise three major fibroblast subpopulations in human non-small cell lung cancer: adventitial, alveolar and myofibroblasts. Alveolar and adventitial fibroblasts (enriched in control tissue samples) localise to discrete spatial niches in histologically normal lung tissue and indicate improved overall survival rates when present in lung adenocarcinomas (LUAD). Trajectory inference identifies three phases of control tissue fibroblast activation, leading to myofibroblast enrichment in tumour samples: initial upregulation of inflammatory cytokines, followed by stress-response signalling and ultimately increased expression of fibrillar collagens. Myofibroblasts correlate with poor overall survival rates in LUAD, associated with loss of epithelial differentiation, TP53 mutations, proximal molecular subtypes and myeloid cell recruitment. In squamous carcinomas myofibroblasts were not prognostic despite being transcriptomically equivalent. These findings have important implications for developing fibroblast-targeting strategies for cancer therapy.

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s41467-023-35832-6 - Version of Record
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Accepted/In Press date: 4 January 2023
Published date: 31 January 2023
Keywords: adenocarcinoma oflLung/genetics, carcinoma, non-small-cell lung/genetics, fibroblasts, humans, lung neoplasms/genetics, single-cell analysis

Identifiers

Local EPrints ID: 477109
URI: http://eprints.soton.ac.uk/id/eprint/477109
ISSN: 2041-1723
PURE UUID: ba64aaa7-b512-4827-9b96-2b64478f06b8
ORCID for Christopher J. Hanley: ORCID iD orcid.org/0000-0003-3816-7220
ORCID for Jonathan West: ORCID iD orcid.org/0000-0002-5709-6790
ORCID for Matthew J.J. Rose-Zerilli: ORCID iD orcid.org/0000-0002-1064-5350

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Date deposited: 26 May 2023 16:46
Last modified: 17 Mar 2024 03:37

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Contributors

Author: Sara Waise
Author: Matthew J. Ellis
Author: Maria A. Lopez
Author: Wai Y. Pun
Author: Julian Taylor
Author: Rachel Parker
Author: Lucy M. Kimbley
Author: Serena J. Chee
Author: Emily C. Shaw
Author: Jonathan West ORCID iD
Author: Aiman Alzetani
Author: Edwin Woo

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