Lung Epithelium Releases Growth Differentiation Factor 15 in Response to Pathogen-mediated Injury

Faraaz A. Shah, Harinath Bahudhanapati, Mao Jiang, Mohammadreza Tabary, Rick van der Geest, Nathanial J. Tolman, Megan Kochin, Zeyu Xiong, Nameer Al-Yousif, Khaled Sayed, Panayiotis V. Benos, Kristen Raffensperger, John Evankovich, Matthew D. Neal, Mark E. Snyder, Oliver Eickelberg, Prabir Ray, Charles Dela Cruz, Jessica Bon, Bryan J. McVerryAdam C. Straub, Michael J. Jurczak, Tomeka L. Suber, Yingze Zhang, Kong Chen, Georgios D. Kitsios, Janet S. Lee, Jonathan K. Alder, William G. Bain

Research output: Contribution to journalArticlepeer-review

1 Scopus citations

Abstract

GDF15 (growth differentiation factor 15) is a stress cytokine with several proposed roles, including support of stress erythropoiesis. Higher circulating GDF15 levels are prognostic of mortality during acute respiratory distress syndrome, but the cellular sources and downstream effects of GDF15 during pathogen-mediated lung injury are unclear. We quantified GDF15 in lower respiratory tract biospecimens and plasma from patients with acute respiratory failure. Publicly available data from severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection were reanalyzed. We used mouse models of hemorrhagic acute lung injury mediated by Pseudomonas aeruginosa exoproducts in wild-type mice and mice genetically deficient for Gdf15 or its putative receptor, Gfral. In critically ill humans, plasma levels of GDF15 correlated with lower respiratory tract levels and were higher in nonsurvivors. SARS-CoV-2 infection induced GDF15 expression in human lung epithelium, and lower respiratory tract GDF15 levels were higher in coronavirus disease (COVID-19) nonsurvivors. In mice, intratracheal P. aeruginosa type II secretion system exoproducts were sufficient to induce airspace and plasma release of GDF15, which was attenuated with epithelial-specific deletion of Gdf15. Mice with global Gdf15 deficiency had decreased airspace hemorrhage, an attenuated cytokine profile, and an altered lung transcriptional profile during injury induced by P. aeruginosa type II secretion system exoproducts, which was not recapitulated in mice deficient for Gfral. Airspace GDF15 reconstitution did not significantly modulate key lung cytokine levels but increased circulating erythrocyte counts. Lung epithelium releases GDF15 during pathogen injury, which is associated with plasma levels in humans and mice and can increase erythrocyte counts in mice, suggesting a novel lung–blood communication pathway.

Original languageEnglish
Pages (from-to)379-391
Number of pages13
JournalAmerican Journal of Respiratory Cell and Molecular Biology
Volume70
Issue number5
DOIs
StatePublished - May 2024

Keywords

  • GDF15
  • GFRAL
  • acute respiratory failure
  • cytokines
  • stress erythropoiesis

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