Laurens J De Sadeleer1,2, John E McDonough1,3, Jonas C Schupp3,4, Xiting Yan3, Arno Vanstapel1,5, Anke Van Herck1, Stephanie Everaerts1,2, Vincent Geudens1, Annelore Sacreas1, Tinne Goos1,2, Celine Aelbrecht1, Tim S Nawrot6,7, Dries S Martens7, Dominique Schols8, Sandra Claes8, Johny A Verschakelen9, Eric K Verbeken5, Maximilian Ackermann10,11, Anabelle Decottignies12, Manon Mahieu12, Tillie-Louise Hackett13, James C Hogg13, Bart M Vanaudenaerde1, Stijn E Verleden1,14, Naftali Kaminski3, Wim A Wuyts1,2. 1. Laboratory of Respiratory Diseases and Thoracic Surgery (BREATHE), Department of Chronic Diseases and Metabolism (CHROMETA). 2. Unit for Interstitial Lung Diseases, Department of Respiratory Diseases. 3. Pulmonary, Critical Care, and Sleep Medicine, Yale University School of Medicine, New Haven, Connecticut. 4. Department of Respiratory Medicine, Hannover Medical School, Hannover, Germany. 5. Department of Histopathology, and. 6. Department of Public Health and Primary Care, and. 7. Centre for Environmental Sciences, Hasselt University, Hasselt, Belgium. 8. Department of Microbiology, Immunology, and Transplantation, Rega Institute, KU Leuven, Leuven, Belgium. 9. Department of Radiology, University Hospitals Leuven, Leuven, Belgium. 10. Institute of Functional and Clinical Anatomy, University Medical Center of the Johannes Gutenberg University Mainz, Mainz, Germany. 11. Institute of Pathology and Molecular Pathology, Helios University Clinic Wuppertal, University of Witten/Herdecke, Wuppertal, Germany. 12. Telomeres Research Group, Genetic and Epigenetic Alterations of Genomes, de Duve Institute, Université Catholique de Louvain, Brussels, Belgium. 13. Centre for Heart Lung Innovation, University of British Columbia, Vancouver, British Columbia, Canada; and. 14. Antwerp Surgical Training, Anatomy and Research Centre, Antwerp University, Antwerp, Belgium.
Abstract
Rationale: Fibrotic hypersensitivity pneumonitis (fHP) is an interstitial lung disease caused by sensitization to an inhaled allergen. Objectives: To identify the molecular determinants associated with progression of fibrosis. Methods: Nine fHP explant lungs and six unused donor lungs (as controls) were systematically sampled (4 samples/lung). According to microcomputed tomography measures, fHP cores were clustered into mild, moderate, and severe fibrosis groups. Gene expression profiles were assessed using weighted gene co-expression network analysis, xCell, gene ontology, and structure enrichment analysis. Gene expression of the prevailing molecular traits was also compared with idiopathic pulmonary fibrosis (IPF). The explant lung findings were evaluated in separate clinical fHP cohorts using tissue, BAL samples, and computed tomography scans. Measurements and Main Results: We found six molecular traits that associated with differential lung involvement. In fHP, extracellular matrix and antigen presentation/sensitization transcriptomic signatures characterized lung zones with only mild structural and histological changes, whereas signatures involved in honeycombing and B cells dominated the transcriptome in the most severely affected lung zones. With increasing disease severity, endothelial function was progressively lost, and progressive disruption in normal cellular homeostatic processes emerged. All six were also found in IPF, with largely similar associations with disease microenvironments. The molecular traits correlated with in vivo disease behavior in a separate clinical fHP cohort. Conclusions: We identified six molecular traits that characterize the morphological progression of fHP and associate with in vivo clinical behavior. Comparing IPF with fHP, the transcriptome landscape was determined considerably by local disease extent rather than by diagnosis alone.
Rationale: Fibrotic hypersensitivity pneumonitis (fHP) is an interstitial lung disease caused by sensitization to an inhaled allergen. Objectives: To identify the molecular determinants associated with progression of fibrosis. Methods: Nine fHP explant lungs and six unused donor lungs (as controls) were systematically sampled (4 samples/lung). According to microcomputed tomography measures, fHP cores were clustered into mild, moderate, and severe fibrosis groups. Gene expression profiles were assessed using weighted gene co-expression network analysis, xCell, gene ontology, and structure enrichment analysis. Gene expression of the prevailing molecular traits was also compared with idiopathic pulmonary fibrosis (IPF). The explant lung findings were evaluated in separate clinical fHP cohorts using tissue, BAL samples, and computed tomography scans. Measurements and Main Results: We found six molecular traits that associated with differential lung involvement. In fHP, extracellular matrix and antigen presentation/sensitization transcriptomic signatures characterized lung zones with only mild structural and histological changes, whereas signatures involved in honeycombing and B cells dominated the transcriptome in the most severely affected lung zones. With increasing disease severity, endothelial function was progressively lost, and progressive disruption in normal cellular homeostatic processes emerged. All six were also found in IPF, with largely similar associations with disease microenvironments. The molecular traits correlated with in vivo disease behavior in a separate clinical fHP cohort. Conclusions: We identified six molecular traits that characterize the morphological progression of fHP and associate with in vivo clinical behavior. Comparing IPF with fHP, the transcriptome landscape was determined considerably by local disease extent rather than by diagnosis alone.
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