Single-Cell Transcriptomic Analysis of Human Lung Provides Insights into the Pathobiology of Pulmonary Fibrosis

Paul A. Reyfman , James M. Walter , Nikita Joshi , Paul A. Reyfman , James M. Walter , Nikita Joshi , Kishore R. Anekalla , Alexandra C. McQuattie‐Pimentel , Stephen Chiu , Ramiro Fernandez , Mahzad Akbarpour , Ching-I Chen , Ziyou Ren , Rohan Verma , Hiam Abdala‐Valencia , Ki-Won Nam , Monica Chi , SeungHye Han , Francisco J. González-González , Saul Soberanes , Satoshi Watanabe , Kinola J.N. Williams , Annette S. Flozak , Trevor T. Nicholson , Vince K. Morgan , Deborah R. Winter , Monique Hinchcliff , Cara L. Hrusch , Robert D. Guzy , Catherine A. Bonham , Anne I. Sperling , Remzi Bag , Robert B. Hamanaka , Gökhan M. Mutlu , Anjana V. Yeldandi , Stacy A. Marshall , Ali Shilatifard , Luı́s A. Nunes Amaral , Harris Perlman , Jacob I. Sznajder , A. Christine Argento , Colin T. Gillespie , Jane E. Dematte , Manu Jain , Benjamin D. Singer , Karen M. Ridge , Anna P. Lam , Ankit Bharat , Sangeeta Bhorade , Cara J. Gottardi , G. R. Scott Budinger , Alexander V. Misharin
2018 American Journal of Respiratory and Critical Care Medicine 1,198 citations

Abstract

<b>Rationale:</b> The contributions of diverse cell populations in the human lung to pulmonary fibrosis pathogenesis are poorly understood. Single-cell RNA sequencing can reveal changes within individual cell populations during pulmonary fibrosis that are important for disease pathogenesis. <b>Objectives:</b> To determine whether single-cell RNA sequencing can reveal disease-related heterogeneity within alveolar macrophages, epithelial cells, or other cell types in lung tissue from subjects with pulmonary fibrosis compared with control subjects. <b>Methods:</b> We performed single-cell RNA sequencing on lung tissue obtained from eight transplant donors and eight recipients with pulmonary fibrosis and on one bronchoscopic cryobiospy sample from a patient with idiopathic pulmonary fibrosis. We validated these data using <i>in situ</i> RNA hybridization, immunohistochemistry, and bulk RNA-sequencing on flow-sorted cells from 22 additional subjects. <b>Measurements and Main Results:</b> We identified a distinct, novel population of profibrotic alveolar macrophages exclusively in patients with fibrosis. Within epithelial cells, the expression of genes involved in Wnt secretion and response was restricted to nonoverlapping cells. We identified rare cell populations including airway stem cells and senescent cells emerging during pulmonary fibrosis. We developed a web-based tool to explore these data. <b>Conclusions:</b> We generated a single-cell atlas of pulmonary fibrosis. Using this atlas, we demonstrated heterogeneity within alveolar macrophages and epithelial cells from subjects with pulmonary fibrosis. These results support the feasibility of discovery-based approaches using next-generation sequencing technologies to identify signaling pathways for targeting in the development of personalized therapies for patients with pulmonary fibrosis.

Keywords

Pulmonary fibrosisLungMedicineIdiopathic pulmonary fibrosisFibrosisCellPathologySingle-cell analysisWnt signaling pathwayCell typeTranscriptomeImmunologyBiologyGene expressionGeneInternal medicineGenetics

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Year
2018
Type
article
Volume
199
Issue
12
Pages
1517-1536
Citations
1198
Access
Closed

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Paul A. Reyfman, James M. Walter, Nikita Joshi et al. (2018). Single-Cell Transcriptomic Analysis of Human Lung Provides Insights into the Pathobiology of Pulmonary Fibrosis. American Journal of Respiratory and Critical Care Medicine , 199 (12) , 1517-1536. https://doi.org/10.1164/rccm.201712-2410oc

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DOI
10.1164/rccm.201712-2410oc