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Preventing acute asthmatic symptoms by targeting a neuronal mechanism involving carotid body lysophosphatidic acid receptors

Author

Listed:
  • Nicholas G. Jendzjowsky

    (University of Calgary)

  • Arijit Roy

    (University of Calgary)

  • Nicole O. Barioni

    (University of Calgary)

  • Margaret M. Kelly

    (University of Calgary
    University of Calgary)

  • Francis H. Y. Green

    (University of Calgary
    University of Calgary)

  • Christopher N. Wyatt

    (Wright State University)

  • Richard L. Pye

    (Wright State University)

  • Luana Tenorio-Lopes

    (University of Calgary)

  • Richard J. A. Wilson

    (University of Calgary)

Abstract

Asthma accounts for 380,000 deaths a year. Carotid body denervation has been shown to have a profound effect on airway hyper-responsiveness in animal models but a mechanistic explanation is lacking. Here we demonstrate, using a rat model of asthma (OVA-sensitized), that carotid body activation during airborne allergic provocation is caused by systemic release of lysophosphatidic acid (LPA). Carotid body activation by LPA involves TRPV1 and LPA-specific receptors, and induces parasympathetic (vagal) activity. We demonstrate that this activation is sufficient to cause acute bronchoconstriction. Moreover, we show that prophylactic administration of TRPV1 (AMG9810) and LPA (BrP-LPA) receptor antagonists prevents bradykinin-induced asthmatic bronchoconstriction and, if administered following allergen exposure, reduces the associated respiratory distress. Our discovery provides mechanistic insight into the critical roles of carotid body LPA receptors in allergen-induced respiratory distress and suggests alternate treatment options for asthma.

Suggested Citation

  • Nicholas G. Jendzjowsky & Arijit Roy & Nicole O. Barioni & Margaret M. Kelly & Francis H. Y. Green & Christopher N. Wyatt & Richard L. Pye & Luana Tenorio-Lopes & Richard J. A. Wilson, 2018. "Preventing acute asthmatic symptoms by targeting a neuronal mechanism involving carotid body lysophosphatidic acid receptors," Nature Communications, Nature, vol. 9(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06189-y
    DOI: 10.1038/s41467-018-06189-y
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