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Fungal melanin suppresses airway epithelial chemokine secretion through blockade of calcium fluxing

Author

Listed:
  • Jennifer L. Reedy

    (Massachusetts General Hospital
    Harvard Medical School)

  • Kirstine Nolling Jensen

    (Massachusetts General Hospital
    Harvard Medical School)

  • Arianne J. Crossen

    (Massachusetts General Hospital)

  • Kyle J. Basham

    (Massachusetts General Hospital)

  • Rebecca A. Ward

    (Massachusetts General Hospital)

  • Christopher M. Reardon

    (Massachusetts General Hospital)

  • Hannah Brown Harding

    (Massachusetts General Hospital
    Harvard Medical School)

  • Olivia W. Hepworth

    (Massachusetts General Hospital
    Harvard Medical School)

  • Patricia Simaku

    (Massachusetts General Hospital)

  • Geneva N. Kwaku

    (Massachusetts General Hospital)

  • Kazuya Tone

    (Institute of Medical Sciences
    The Jikei University School of Medicine)

  • Janet A. Willment

    (Institute of Medical Sciences
    University of Exeter)

  • Delyth M. Reid

    (Institute of Medical Sciences)

  • Mark H. T. Stappers

    (Institute of Medical Sciences
    University of Exeter)

  • Gordon D. Brown

    (Institute of Medical Sciences
    University of Exeter)

  • Jayaraj Rajagopal

    (Massachusetts General Hospital
    Massachusetts General Hospital
    Harvard Stem Cell Institute
    Broad Institute of Massachusetts Institute of Technology and Harvard)

  • Jatin M. Vyas

    (Massachusetts General Hospital
    Harvard Medical School)

Abstract

Respiratory infections caused by the human fungal pathogen Aspergillus fumigatus are a major cause of mortality for immunocompromised patients. Exposure to these pathogens occurs through inhalation, although the role of the respiratory epithelium in disease pathogenesis has not been fully defined. Employing a primary human airway epithelial model, we demonstrate that fungal melanins potently block the post-translational secretion of the chemokines CXCL1 and CXCL8 independent of transcription or the requirement of melanin to be phagocytosed, leading to a significant reduction in neutrophil recruitment to the apical airway both in vitro and in vivo. Aspergillus-derived melanin, a major constituent of the fungal cell wall, dampened airway epithelial chemokine secretion in response to fungi, bacteria, and exogenous cytokines. Furthermore, melanin muted pathogen-mediated calcium fluxing and hindered actin filamentation. Taken together, our results reveal a critical role for melanin interaction with airway epithelium in shaping the host response to fungal and bacterial pathogens.

Suggested Citation

  • Jennifer L. Reedy & Kirstine Nolling Jensen & Arianne J. Crossen & Kyle J. Basham & Rebecca A. Ward & Christopher M. Reardon & Hannah Brown Harding & Olivia W. Hepworth & Patricia Simaku & Geneva N. K, 2024. "Fungal melanin suppresses airway epithelial chemokine secretion through blockade of calcium fluxing," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50100-x
    DOI: 10.1038/s41467-024-50100-x
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    References listed on IDEAS

    as
    1. Daniel T. Montoro & Adam L. Haber & Moshe Biton & Vladimir Vinarsky & Brian Lin & Susan E. Birket & Feng Yuan & Sijia Chen & Hui Min Leung & Jorge Villoria & Noga Rogel & Grace Burgin & Alexander M. T, 2018. "A revised airway epithelial hierarchy includes CFTR-expressing ionocytes," Nature, Nature, vol. 560(7718), pages 319-324, August.
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