Literature DB >> 30358443

Inflammation-induced upregulation of P2X4 expression augments mucin secretion in airway epithelia.

Veronika E Winkelmann1, Kristin E Thompson2, Kathrin Neuland1, Ana M Jaramillo3, Giorgio Fois1, Hanna Schmidt1, Oliver H Wittekindt1, Wei Han3, Michael J Tuvim3, Burton F Dickey3, Paul Dietl1, Manfred Frick1.   

Abstract

Mucus clearance provides an essential innate defense mechanism to keep the airways and lungs free of particles and pathogens. Baseline and stimulated mucin secretion from secretory airway epithelial cells need to be tightly regulated to prevent mucus hypersecretion and mucus plugging of the airways. It is well established that extracellular ATP is a potent stimulus for regulated mucus secretion. Previous studies revealed that ATP acts via metabotropic P2Y2 purinoreceptors on goblet cells. Extracellular ATP, however, is also a potent agonist for ionotropic P2X purinoreceptors. Expression of several P2X isoforms has been reported in airways, but cell type-specific expression and the function thereof remained elusive. With this study, we now provide evidence that P2X4 is the predominant P2X isoform expressed in secretory airway epithelial cells. After IL-13 treatment of either human primary tracheal epithelial cells or mice, P2X4 expression is upregulated in vitro and in vivo under conditions of chronic inflammation, mucous metaplasia, and hyperplasia. Upregulation of P2X4 is strongest in MUC5AC-positive goblet cells. Moreover, activation of P2X4 by extracellular ATP augments intracellular Ca2+ signals and mucin secretion, whereas Ca2+ signals and mucin secretion are dampened by inhibition of P2X4 receptors. These data provide new insights into the purinergic regulation of mucin secretion and add to the emerging picture that P2X receptors modulate exocytosis of large secretory organelles and secretion of macromolecular vesicle cargo.

Entities:  

Keywords:  IL-13; MUC5AC; P2X; goblet cells; mucin; mucus secretion

Mesh:

Substances:

Year:  2018        PMID: 30358443      PMCID: PMC6883286          DOI: 10.1152/ajplung.00157.2018

Source DB:  PubMed          Journal:  Am J Physiol Lung Cell Mol Physiol        ISSN: 1040-0605            Impact factor:   5.464


  74 in total

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6.  Generation and Characterization of Specific Monoclonal Antibodies and Nanobodies Directed Against the ATP-Gated Channel P2X4.

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Review 7.  Resolving the Ionotropic P2X4 Receptor Mystery Points Towards a New Therapeutic Target for Cardiovascular Diseases.

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Review 9.  Endolysosomal Cation Channels and Lung Disease.

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