Preventing Acute Asthmatic Symptoms by Targeting a Neuronal Mechanism Involving Carotid Body Lysophosphatidic Acid Receptors

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

doi:10.1038/s41467-018-06189-y

Preventing Acute Asthmatic Symptoms by Targeting a Neuronal Mechanism Involving Carotid Body Lysophosphatidic Acid Receptors

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

Neuroscience, Cell Biology, and Physiology (NCBP)

Research output: Contribution to journal › Article › peer-review

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.

Original language	English
Article number	4030
Journal	Nature Communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-06189-y
State	Published - Dec 1 2018

ASJC Scopus Subject Areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

Disciplines

Medical Cell Biology
Medical Neurobiology
Medical Physiology
Medical Sciences
Medicine and Health Sciences
Neurosciences
Physiological Processes

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title = "Preventing Acute Asthmatic Symptoms by Targeting a Neuronal Mechanism Involving Carotid Body Lysophosphatidic Acid Receptors",

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.",

author = "Jendzjowsky, \{Nicholas G.\} and Arijit Roy and Barioni, \{Nicole O.\} and Kelly, \{Margaret M.\} and Green, \{Francis H.Y.\} and Wyatt, \{Christopher N.\} and Pye, \{Richard L.\} and Luana Tenorio-Lopes and Wilson, \{Richard J.A.\}",

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AU - Jendzjowsky, Nicholas G.

AU - Roy, Arijit

AU - Barioni, Nicole O.

AU - Kelly, Margaret M.

AU - Green, Francis H.Y.

AU - Wyatt, Christopher N.

AU - Pye, Richard L.

AU - Tenorio-Lopes, Luana

AU - Wilson, Richard J.A.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - 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.

AB - 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.

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Preventing Acute Asthmatic Symptoms by Targeting a Neuronal Mechanism Involving Carotid Body Lysophosphatidic Acid Receptors

Abstract

ASJC Scopus Subject Areas

Disciplines

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