Eosinophil-derived IFN-gamma Induces Airway Hyperresponsiveness and Lung Inflammation in the Absence of Lymphocytes

Overview

Journal J Allergy Clin Immunol

Specialty Allergy & Immunology

Date 2009 Jun 23

PMID 19539982

Citations 30

Authors

Akira Kanda

Virginie Driss

Nicolas Hornez

Marwan Abdallah

Thomas Roumier

Georges Abboud

Fanny Legrand

Delphine Staumont-Salle

Severine Queant

Julie Bertout

Sebastien Fleury

Patrick Remy

Jean-Paul Papin

Valerie Julia

Monique Capron

David Dombrowicz

Affiliations

Soon will be listed here.

Abstract

Background: Eosinophils are key players in T(H)2-driven pathologies, such as allergic lung inflammation. After IL-5- and eotaxin-mediated tissue recruitment, they release several cytotoxic and inflammatory mediators. However, their exact contribution to asthma remains controversial. Indeed, in human subjects anti-IL-5 treatment inhibits eosinophilia but not antigen-induced airway hyperresponsiveness (AHR). Likewise, lung fibrosis is abrogated in 2 strains of eosinophil-deficient mice, whereas AHR is inhibited in only one of them. Finally, eosinophils have been shown to attract T(H)2 lymphocytes at the inflammatory site.

Objective: The ability of eosinophils to promote AHR and lung inflammation independently of lymphocytes was investigated.

Methods: Adoptive transfers of resting or activated eosinophils from IL-5 transgenic mice were performed into naive BALB/c mice, mice with severe combined immunodeficiency, and IFN-gamma-deficient BALB/c recipients.

Results: Adoptively transferred eosinophils induced lung inflammation, fibrosis, collagen deposition, and AHR not only in BALB/c mice but also in recipient mice with severe combined immunodeficiency. Surprisingly, IFN-gamma expression was increased in lungs from eosinophil-transferred animals. Furthermore, IFN-gamma neutralization in recipients partially inhibited eosinophil-induced AHR. Moreover, IFN-gamma-deficient eosinophils or eosinophils treated with a blocking anti-IFN-gamma receptor antibody failed to induce AHR in IFN-gamma-deficient recipients. Finally, in vitro and at low concentrations, IFN-gamma increased eosinophil peroxidase release, potentiated chemotaxis, and prolonged survival, suggesting the existence of an autocrine mechanism.

Conclusions: These results support the important and previously unsuspected contribution of eosinophils to lung inflammation independently of lymphocytes through production of IFN-gamma, the prototypical T(H)1 cytokine.

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