Science and Research

CXCL10 deficiency limits macrophage infiltration, preserves lung matrix, and enables lung growth in bronchopulmonary dysplasia

Preterm infants with oxygen supplementation are at high risk for bronchopulmonary dysplasia (BPD), a neonatal chronic lung disease. Inflammation with macrophage activation is central to the pathogenesis of BPD. CXCL10, a chemotactic and pro-inflammatory chemokine, is elevated in the lungs of infants evolving BPD and in hyperoxia-based BPD in mice. Here, we tested if CXCL10 deficiency preserves lung growth after neonatal hyperoxia by preventing macrophage activation. To this end, we exposed Cxcl10 knockout (Cxcl10(-/-)) and wild-type mice to an experimental model of hyperoxia (85% O(2))-induced neonatal lung injury and subsequent regeneration. In addition, cultured primary human macrophages and murine macrophages (J744A.1) were treated with CXCL10 and/or CXCR3 antagonist. Our transcriptomic analysis identified CXCL10 as a central hub in the inflammatory network of neonatal mouse lungs after hyperoxia. Quantitative histomorphometric analysis revealed that Cxcl10(-/-) mice are in part protected from reduced alveolar. These findings were related to the preserved spatial distribution of elastic fibers, reduced collagen deposition, and protection from macrophage recruitment/infiltration to the lungs in Cxcl10(-/-) mice during acute injury and regeneration. Complimentary, studies with cultured human and murine macrophages showed that hyperoxia induces Cxcl10 expression that in turn triggers M1-like activation and migration of macrophages through CXCR3. Finally, we demonstrated a temporal increase of macrophage-related CXCL10 in the lungs of infants with BPD. In conclusion, our data demonstrate macrophage-derived CXCL10 in experimental and clinical BPD that drives macrophage chemotaxis through CXCR3, causing pro-fibrotic lung remodeling and arrest of alveolarization. Thus, targeting the CXCL10-CXCR3 axis could offer a new therapeutic avenue for BPD.

  • Hirani, D. V.
  • Thielen, F.
  • Mansouri, S.
  • Danopoulos, S.
  • Vohlen, C.
  • Haznedar-Karakaya, P.
  • Mohr, J.
  • Wilke, R.
  • Selle, J.
  • Grosch, T.
  • Mizik, I.
  • Odenthal, M.
  • Alvira, C. M.
  • Kuiper-Makris, C.
  • Pryhuber, G. S.
  • Pallasch, C.
  • van Koningsbruggen-Rietschel, S.
  • Al-Alam, D.
  • Seeger, W.
  • Savai, R.
  • Dötsch, J.
  • Alejandre Alcazar, M. A.

Keywords

  • Bronchopulmonary dysplasia
  • Cxcl10
  • Collagen
  • Elastic fibers
  • Hyperoxia
  • Lung matrix remodeling
Publication details
DOI: 10.1186/s41232-023-00301-6
Journal: Inflamm Regen
Pages: 52 
Number: 1
Work Type: Original
Location: UGMLC
Disease Area: DPLD
Partner / Member: JLU, MPI-BN
Access-Number: 37876024

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