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Effects of cytokines on mechanical and epithelial bioelectric responses to methacholine and hyperosmolarity in guinea-pig airways: an in vitro study.

Ismailoglu-UB; VanScott-MR; Fedan-JS
Eur J Pharmacol 2009 Jun; 612(1-3):115-121
We observed previously that lipopolysaccharide (LPS) 18 h after i.p. injection of guinea pigs increased transepithelial potential difference (V-t, hyperpolarization responses to methacholine, and hyperosmolarity-induced, epithelium-derived relaxing factor (EpDRF)-mediated relaxation responses, in excised and perfused tracheal segments. To investigate their roles in these changes, the effects of cytokines on in vitro epithelial bioelectric and smooth muscle mechanical responses were investigated using the isolated, perfused trachea preparation. Tracheas were incubated (6 h) with LPS or IL-beta, IL-13, IFN-gamma, TNF-alpha, singly or in combination. Incubation with LPS and cytomix (IL-1 beta, IL-4, IL-13, IFN-gamma, TNF-alpha together) had no effect oil muscle reactivity to methacholine, but potentiated D-mannitol-induced relaxation. Individually, IL-1 beta and IFN-gamma inhibited methacholine-induced contractions and potentiated D-mannitol-induced relaxation responses. TNF-alpha increased contractions to methacholine but had no effect on relaxation responses to D-mannitol. Methacholine elicited hyperpolarization in low concentrations and depolarization in high concentrations. The individual cytokines decreased the hyperpolarization response to low methacholine concentrations and increased the depolarization response to high methacholine concentrations but had no effect oil V-t responses to D-mannitol. Cytomix did not affect V-t responses to methacholine, but potentiated both the hyperpolarization and depolarization responses to D-mannitol. In Ussing chambers all agents except IL-i beta and IFN-gamma increased V-t decreased slightly but none of the other agents affected transepithelial resistance (R,). The results indicate that cytokines and LPS alter smooth muscle reactivity to methacholine, potentiate EpDRF-mediated relaxation responses and. thereby, mimic the effects of LPS treatment in vivo, but do not recapitulate LPS' effects on V-t responses.
Airway-obstruction; Biochemical-analysis; Biodynamics; Biological-effects; Biological-function; Cell-biology; Cell-function; Cell-metabolism; Cellular-function; Cellular-reactions; Chemical-hypersensitivity; Inhalation-studies; Laboratory-animals; Laboratory-testing; Muscle-function; Muscle-physiology; Muscle-relaxants; Muscles; Reaction-rates; Author Keywords: Epithelium-derived relaxing factor; Hyperosmolarity; Smooth muscle contractility; Transepithelial potential difference; Guinea-pig trachea; Lipopolysaccharide; Cytokine
Jeffrey S. Fedan, Pathology and Physiology Research Branch, Health Effects Laboratory Division, National Institute for Occupational Safety and Health, Morgantown, West Virginia 26505
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European Journal of Pharmacology
Page last reviewed: September 2, 2020
Content source: National Institute for Occupational Safety and Health Education and Information Division