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Common denominator that triggers asthma in favorable environments

Date:
October 7, 2019
Source:
University of Liege
Summary:
Some so-called pro-allergic environments strongly promote the development of asthma and are responsible for the dramatic increase in the prevalence of asthma, especially in industrialized countries. Researchers at the GIGA of the University of Liège have identified how all these pro-allergic environments act in the same way on the pulmonary immune system to induce the development of allergic asthma.
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FULL STORY

In recent decades, asthma has become a major public health problem. The exponential increase in asthma cases in industrialized countries over the past 50 years is due to major changes in our environment. Among these environmental factors: excessive hygiene, ambient air pollution or respiratory viral infections... Until now, the mechanism by which these particular environments induce the development of asthma was unknown. In a study published inNature Immunology, Professors Thomas Marichal (FRS-FNRS Research Associate, Welbio and ERC investigator) and Fabrice Bureau (Welbio investigator) and their teams from GIGA ULiège identified a totally unexpected actor who represents a common denominator in different pro-allergic environments: particular neutrophils are recruited into the lung and are responsible for allergic sensitization and asthma development. This discovery allows new therapeutic options to be considered in the prevention and treatment of allergic asthma.

Coraline Radermecker, the first author of the study, first developed three models of asthma in mice induced by pro-allergic environments: excess hygiene, exposure to ozone (an air pollutant) and infection with the influenza virus. In all three models, only mice exposed to pro-allergic environments and then exposed to mites, major allergens in humans, developed symptoms of allergic asthma. She and her colleagues then observed the recruitment of specific innate immune cells, neutrophils, only in the lungs of mice exposed to pro-allergic environments. These neutrophils, once in the lung, release their DNA, causing inflammation that is conducive to the development of an allergic response such as asthma. Surprisingly, when mice exposed to pro-allergic environments are treated with compounds that prevent the recruitment of these neutrophils or the release of their DNA, mice are protected from disease development.

A recent study identified this same type of particular neutrophils in the blood of a population of American farmers, the Hutterites, exposed to a very high rate of hygiene and having a very high prevalence of allergic asthma. The latter suggests that these neutrophils are also present in humans and may be involved in the development of asthma in humans.

In addition, a molecule already used in human medicine to treat cystic fibrosis, pulmozyme, could be used to destroy DNA released by neutrophils and prevent the development of asthma in people exposed to high-risk environments.

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Materialsprovided byUniversity of Liege.Note: Content may be edited for style and length.


Journal Reference:

  1. Coraline Radermecker, Catherine Sabatel, Céline Vanwinge, Cecilia Ruscitti, Pauline Maréchal, Fabienne Perin, Joey Schyns, Natacha Rocks, Marie Toussaint, Didier Cataldo, Sebastian L Johnston, Fabrice Bureau, Thomas Marichal.Locally instructed CXCR4hi neutrophils trigger environment-driven allergic asthma through the release of neutrophil extracellular traps.Nature Immunology, 2019; DOI:10.1038 / s41590 - 019 - 0496 - 9

Cite This Page:

University of Liege. "Common denominator that triggers asthma in favorable environments." ScienceDaily. ScienceDaily, 7 October 2019. .
University of Liege. (2019, October 7). Common denominator that triggers asthma in favorable environments.ScienceDaily. Retrieved June 19, 2023 from www.koonmotors.com/releases/2019/10/191007180039.htm
University of Liege. "Common denominator that triggers asthma in favorable environments." ScienceDaily. www.koonmotors.com/releases/2019/10/191007180039.htm (accessed June 19, 2023).

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