Nature Communications (Jun 2024)

Lung injury-induced activated endothelial cell states persist in aging-associated progressive fibrosis

  • Ahmed A. Raslan,
  • Tho X. Pham,
  • Jisu Lee,
  • Konstantinos Kontodimas,
  • Andrew Tilston-Lunel,
  • Jillian Schmottlach,
  • Jeongmin Hong,
  • Taha Dinc,
  • Andreea M. Bujor,
  • Nunzia Caporarello,
  • Aude Thiriot,
  • Ulrich H. von Andrian,
  • Steven K. Huang,
  • Roberto F. Nicosia,
  • Maria Trojanowska,
  • Xaralabos Varelas,
  • Giovanni Ligresti

DOI
https://doi.org/10.1038/s41467-024-49545-x
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 20

Abstract

Read online

Abstract Progressive lung fibrosis is associated with poorly understood aging-related endothelial cell dysfunction. To gain insight into endothelial cell alterations in lung fibrosis we performed single cell RNA-sequencing of bleomycin-injured lungs from young and aged mice. Analysis reveals activated cell states enriched for hypoxia, glycolysis and YAP/TAZ activity in ACKR1+ venous and TrkB+ capillary endothelial cells. Endothelial cell activation is prevalent in lungs of aged mice and can also be detected in human fibrotic lungs. Longitudinal single cell RNA-sequencing combined with lineage tracing demonstrate that endothelial activation resolves in young mouse lungs but persists in aged ones, indicating a failure of the aged vasculature to return to quiescence. Genes associated with activated lung endothelial cells states in vivo can be induced in vitro by activating YAP/TAZ. YAP/TAZ also cooperate with BDNF, a TrkB ligand that is reduced in fibrotic lungs, to promote capillary morphogenesis. These findings offer insights into aging-related lung endothelial cell dysfunction that may contribute to defective lung injury repair and persistent fibrosis.