Role of TNF-α in Virus-induced Airway Hyperresponsiveness and Neuronal M₂ Muscarinic Receptor Dysfunction

Overview

Journal Br J Pharmacol

Publisher Wiley

Specialty Pharmacology

Date 2011 Apr 5

PMID 21457223

Citations 24

Authors

Zhenying Nie

Gregory D Scott

Patrick D Weis

Asako Itakura

Allison D Fryer

David B Jacoby

Affiliations

Soon will be listed here.

Abstract

Background And Purpose: Infections with respiratory viruses induce exacerbations of asthma, increase acetylcholine release and potentiate vagally mediated bronchoconstriction by blocking inhibitory M₂ muscarinic receptors on parasympathetic neurons. Here we test whether virus-induced M₂ receptor dysfunction and airway hyperresponsiveness are tumour necrosis factor-alpha (TNF-α) dependent.

Experimental Approach: Guinea pigs were pretreated with etanercept or phosphate-buffered saline 24 h before intranasal infection with parainfluenza. Four days later, pulmonary inflation pressure, heart rate and blood pressure were measured. M₂ receptor function was assessed by the potentiation by gallamine (an M₂ receptor antagonist) of bronchoconstriction caused by electrical stimulation of the vagus nerves and measured as increased pulmonary inflation pressure. Human airway epithelial cells were infected with influenza and TNF-α concentration in supernatant was measured before supernatant was applied to human neuroblastoma cells. M₂ receptor expression in these neuroblastoma cells was measured by qRT-PCR.

Key Results: Influenza-infected animals were hyperresponsive to vagal stimulation but not to intravenous ACh. Gallamine did not potentiate vagally induced bronchoconstriction in virus-infected animals, indicating M₂ receptor dysfunction. Etanercept prevented virus-induced airway hyperresponsiveness and M₂ receptor dysfunction, without changing lung viral titres. Etanercept caused a non-significant decrease in total cells, macrophages and neutrophils in bronchoalveolar lavage. Influenza infection significantly increased TNF-α release from isolated epithelial cells, sufficient to decrease M₂ receptors in neuroblastoma cells. This ability of supernatants from infected epithelial cells to inhibit M₂ receptor expression was blocked by etanercept.

Conclusions And Implications: TNF-α is a key mediator of virus-induced M₂ muscarinic receptor dysfunction and airway hyperresponsiveness.

Citing Articles

Maternal high-fat diet programs offspring airway hyperinnervation and hyperresponsiveness.

Williams K, Bright H, Fryer A, Jacoby D, Nie Z JCI Insight. 2025; 10(1.

PMID: 39782687 PMC: 11721309. DOI: 10.1172/jci.insight.181070.

Maternal high-fat diet increases airway sensory innervation and reflex bronchoconstriction in adult offspring.

Calco G, Alharithi Y, Williams K, Jacoby D, Fryer A, Maloyan A Am J Physiol Lung Cell Mol Physiol. 2023; 325(1):L66-L73.

PMID: 37280517 PMC: 10390047. DOI: 10.1152/ajplung.00115.2023.

Bioinformatic analysis and experimental validation of the potential gene in the airway inflammation of steroid-resistant asthma.

Wei C, Wang Y, Hu C Sci Rep. 2023; 13(1):8098.

PMID: 37208441 PMC: 10199006. DOI: 10.1038/s41598-023-35214-4.

Airway Sensory Nerve Plasticity in Asthma and Chronic Cough.

Drake M, Cook M, Fryer A, Jacoby D, Scott G Front Physiol. 2021; 12:720538.

PMID: 34557110 PMC: 8452850. DOI: 10.3389/fphys.2021.720538.

TLR7 is expressed by support cells, but not sensory neurons, in ganglia.

Proskocil B, Wai K, Lebold K, Norgard M, Michaelis K, De La Torre U J Neuroinflammation. 2021; 18(1):209.

PMID: 34530852 PMC: 8447680. DOI: 10.1186/s12974-021-02269-x.

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