Immunological cross talk between mucosal tissues such as the intestine and the lung is poorly defined during homeostasis and disease. Here, we show that a low-dose infection with the intestinally restricted helminth parasite Trichuris muris results in the production of Th1 cell-dependent gamma interferon (IFN-γ) and myeloid cell-derived interleukin-10 (IL-10) in the lung without causing overt airway pathology. This cross-mucosal immune response in the lung inhibits the development of papain-induced allergic airway inflammation, an innate cell-mediated type 2 airway inflammatory disease. Thus, we identify convergent and nonredundant roles of adaptive and innate immunity in mediating cross-mucosal suppression of type 2 airway inflammation during low-dose helminth-induced intestinal inflammation. These results provide further insight in identifying novel intersecting immune pathways elicited by gut-to-lung mucosal cross talk

Antignano, Frann

Burrows, Kyle

Chenery, Alistair L.

Perona-Wright, Georgia

Scheer, Sebastian

Zaph, Colby

Infection and Immunity

English

PubMed

ABSTRACT
          
            Immunological cross talk between mucosal tissues such as the intestine and the lung is poorly defined during homeostasis and disease. Here, we show that a low-dose infection with the intestinally restricted helminth parasite
            Trichuris muris
            results in the production of Th1 cell-dependent gamma interferon (IFN-γ) and myeloid cell-derived interleukin-10 (IL-10) in the lung without causing overt airway pathology. This cross-mucosal immune response in the lung inhibits the development of papain-induced allergic airway inflammation, an innate cell-mediated type 2 airway inflammatory disease. Thus, we identify convergent and nonredundant roles of adaptive and innate immunity in mediating cross-mucosal suppression of type 2 airway inflammation during low-dose helminth-induced intestinal inflammation. These results provide further insight in identifying novel intersecting immune pathways elicited by gut-to-lung mucosal cross talk.
          </jats:p

Alistair L. Chenery

Frann Antignano

Kyle Burrows

Sebastian Scheer

Georgia Perona-Wright

Colby Zaph

Crossref

Low-Dose Intestinal Trichuris muris Infection Alters the Lung Immune Microenvironment and Can Suppress Allergic Airway Inflammation

Immunological cross talk between mucosal tissues such as the intestine and the lung is poorly defined during homeostasis anddisease. Here, we show that a low-dose infection with the intestinally restricted helminth parasite Trichuris muris results in the production of Th1 cell-dependent gamma interferon (IFN-γ) and myeloid cell-derived interleukin-10 (IL-10) in the lung without causing overt airway pathology. This cross-mucosal immune response in the lung inhibits the development of papain-induced allergic airway inflammation, an innate cell-mediated type 2 airway inflammatory disease. Thus, we identify convergent and nonredundant roles of adaptive and innate immunity in mediating cross-mucosal suppression of type 2 airway inflammation during low-dose helminth-induced intestinal inflammation. These results provide further insight in identifying novel intersecting immune pathways elicited by gut-to-lung mucosal cross talk

Monash University Research Portal

Low-dose intestinal <i>Trichuris muris</i> infection alters the lung immune microenvironment and can suppress allergic airway inflammation

Enlighten: Publications

Low-dose intestinal Trichuris muris infection alters the lung immune microenvironment and can suppress allergic airway inflammation

Enlighten

http://eprints.gla.ac.uk/134485/1/134485.pdf

Low-dose intestinal Trichuris muris infection alters the lung immune microenvironment and can suppress allergic airway inflammation

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Monash University Research Portal

Enlighten: Publications

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