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Alveolar macrophage metabolic programming via a C-type lectin receptor protects against lipo-toxicity and cell death

Author

Listed:
  • Michal Scur

    (Dalhousie University)

  • Ahmad Bakur Mahmoud

    (Taibah University)

  • Sayanti Dey

    (Dalhousie University)

  • Farah Abdalbarri

    (McGill University)

  • Iona Stylianides

    (Dalhousie University)

  • Daniel Medina-Luna

    (Dalhousie University
    Beatrice Hunter Cancer Research Institute)

  • Gayani S. Gamage

    (Dalhousie University)

  • Aaron Woblistin

    (Dalhousie University)

  • Alexa N. M. Wilson

    (Dalhousie University)

  • Haggag S. Zein

    (Dalhousie University
    King Abdullah International Medical Research Centre)

  • Ashley Stueck

    (Dalhousie University)

  • Andrew Wight

    (Dana-Farber Cancer Institute)

  • Oscar A. Aguilar

    (University of California)

  • Francesca Di Cara

    (Dalhousie University)

  • Brendon D. Parsons

    (Dalhousie University)

  • Mir Munir A. Rahim

    (University of Windsor)

  • James R. Carlyle

    (University of Toronto)

  • Andrew P. Makrigiannis

    (Dalhousie University
    Beatrice Hunter Cancer Research Institute)

Abstract

Alveolar macrophages (AM) hold lung homeostasis intact. In addition to the defense against inhaled pathogens and deleterious inflammation, AM also maintain pulmonary surfactant homeostasis, a vital lung function that prevents pulmonary alveolar proteinosis. Signals transmitted between AM and pneumocytes of the pulmonary niche coordinate these specialized functions. However, the mechanisms that guide the metabolic homeostasis of AM remain largely elusive. We show that the NK cell-associated receptor, NKR-P1B, is expressed by AM and is essential for metabolic programming. Nkrp1b−/− mice are vulnerable to pneumococcal infection due to an age-dependent collapse in the number of AM and the formation of lipid-laden AM. The AM of Nkrp1b−/− mice show increased uptake but defective metabolism of surfactant lipids. We identify a physical relay between AM and alveolar type-II pneumocytes that is dependent on pneumocyte Clr-g expression. These findings implicate the NKR-P1B:Clr-g signaling axis in AM-pneumocyte communication as being important for maintaining metabolism in AM.

Suggested Citation

  • Michal Scur & Ahmad Bakur Mahmoud & Sayanti Dey & Farah Abdalbarri & Iona Stylianides & Daniel Medina-Luna & Gayani S. Gamage & Aaron Woblistin & Alexa N. M. Wilson & Haggag S. Zein & Ashley Stueck & , 2022. "Alveolar macrophage metabolic programming via a C-type lectin receptor protects against lipo-toxicity and cell death," Nature Communications, Nature, vol. 13(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34935-w
    DOI: 10.1038/s41467-022-34935-w
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    References listed on IDEAS

    as
    1. Gautham R. Balaji & Oscar A. Aguilar & Miho Tanaka & Miguel A. Shingu-Vazquez & Zhihui Fu & Benjamin S. Gully & Lewis L. Lanier & James R. Carlyle & Jamie Rossjohn & Richard Berry, 2018. "Recognition of host Clr-b by the inhibitory NKR-P1B receptor provides a basis for missing-self recognition," Nature Communications, Nature, vol. 9(1), pages 1-12, December.
    2. Cormac McCarthy & Elinor Lee & James P. Bridges & Anthony Sallese & Takuji Suzuki & Jason C. Woods & Brian J. Bartholmai & Tisha Wang & Claudia Chalk & Brenna C. Carey & Paritha Arumugam & Kenjiro Shi, 2018. "Statin as a novel pharmacotherapy of pulmonary alveolar proteinosis," Nature Communications, Nature, vol. 9(1), pages 1-9, December.
    3. Kristin Westphalen & Galina A. Gusarova & Mohammad N. Islam & Manikandan Subramanian & Taylor S. Cohen & Alice S. Prince & Jahar Bhattacharya, 2014. "Sessile alveolar macrophages communicate with alveolar epithelium to modulate immunity," Nature, Nature, vol. 506(7489), pages 503-506, February.
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