The intestinal commensal fungus Wallemia mellicola enhances asthma in mice through Dectin-2

Amjad N. Kanj; Irene Riestra Guiance; Theodore J. Kottom; Kyle J. Schaefbauer; Malay Choudhury; Andrew H. Limper; Joseph H. Skalski

doi:10.1093/mmy/myae004

The intestinal commensal fungus Wallemia mellicola enhances asthma in mice through Dectin-2

Amjad N. Kanj, Irene Riestra Guiance, Theodore J. Kottom, Kyle J. Schaefbauer, Malay Choudhury, Andrew H. Limper, Joseph H. Skalski

Pulmonary and Critical Care Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Overgrowth of the fungus Wallemia mellicola in the intestines of mice enhances the severity of asthma. Wallemia mellicola interacts with the immune system through Dectin-2 expressed on the surface of myeloid and intestinal epithelial cells. Using Dectin-2-deficient mice, we show that the interaction of W. mellicola with Dectin-2 is essential for the gut-lung pathways, enhancing the severity of asthma in mice with W. mellicola intestinal dysbiosis. These findings offer better insight into dysbiosis-associated inflammation and highlight the role pattern recognition receptors have in immune recognition of commensal fungi in the gut, leading to alterations in immune function in the lungs.

Original language	English (US)
Article number	myae004
Journal	Medical mycology
Volume	62
Issue number	2
DOIs	https://doi.org/10.1093/mmy/myae004
State	Published - Feb 1 2024

ASJC Scopus subject areas

Infectious Diseases

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title = "The intestinal commensal fungus Wallemia mellicola enhances asthma in mice through Dectin-2",

abstract = "Overgrowth of the fungus Wallemia mellicola in the intestines of mice enhances the severity of asthma. Wallemia mellicola interacts with the immune system through Dectin-2 expressed on the surface of myeloid and intestinal epithelial cells. Using Dectin-2-deficient mice, we show that the interaction of W. mellicola with Dectin-2 is essential for the gut-lung pathways, enhancing the severity of asthma in mice with W. mellicola intestinal dysbiosis. These findings offer better insight into dysbiosis-associated inflammation and highlight the role pattern recognition receptors have in immune recognition of commensal fungi in the gut, leading to alterations in immune function in the lungs.",

author = "Kanj, {Amjad N.} and Guiance, {Irene Riestra} and Kottom, {Theodore J.} and Schaefbauer, {Kyle J.} and Malay Choudhury and Limper, {Andrew H.} and Skalski, {Joseph H.}",

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AU - Kanj, Amjad N.

AU - Guiance, Irene Riestra

AU - Kottom, Theodore J.

AU - Schaefbauer, Kyle J.

AU - Choudhury, Malay

AU - Limper, Andrew H.

AU - Skalski, Joseph H.

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AB - Overgrowth of the fungus Wallemia mellicola in the intestines of mice enhances the severity of asthma. Wallemia mellicola interacts with the immune system through Dectin-2 expressed on the surface of myeloid and intestinal epithelial cells. Using Dectin-2-deficient mice, we show that the interaction of W. mellicola with Dectin-2 is essential for the gut-lung pathways, enhancing the severity of asthma in mice with W. mellicola intestinal dysbiosis. These findings offer better insight into dysbiosis-associated inflammation and highlight the role pattern recognition receptors have in immune recognition of commensal fungi in the gut, leading to alterations in immune function in the lungs.

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The intestinal commensal fungus Wallemia mellicola enhances asthma in mice through Dectin-2

Abstract

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