IRF7-Associated Immunophenotypes Have Dichotomous Responses to Virus/Allergen Coexposure and OM-85-Induced Reprogramming

IRF7-Associated Immunophenotypes Have Dichotomous Responses to Virus/Allergen Coexposure and OM-85-Induced Reprogramming

High risk for virus-induced asthma exacerbations in children is associated with an IRF7lo immunophenotype, but the underlying mechanisms are unclear. Here, we applied a Systems Biology approach to an animal model comprising rat strains manifesting high (BN) versus low susceptibility (PVG) to experim...

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Bibliographic Details
Main Authors: de Jong, E., Lauzon-Joset, J.F., Leffler, J., Serralha, M., Larcombe, Alexander, Christophersen, Claus, Holt, P.G., Strickland, D.H., Bosco, A.
Format: Journal Article
Language:English
Published: FRONTIERS MEDIA SA 2021
Subjects:
Science & Technology
Life Sciences & Biomedicine
Immunology
asthma exacerbation
rhinovirus
allergen
immunomodulation
IRF7
systems biology
GROWTH-FACTOR-BETA
ASTHMA EXACERBATIONS
ADHESION MOLECULES
IMMUNE-RESPONSES
DENDRITIC CELLS
RISK
SUSCEPTIBILITY
INFECTION
SEVERITY
ATOPY
Online Access:http://purl.org/au-research/grants/nhmrc/1129996
http://hdl.handle.net/20.500.11937/86510
Description
Summary:High risk for virus-induced asthma exacerbations in children is associated with an IRF7lo immunophenotype, but the underlying mechanisms are unclear. Here, we applied a Systems Biology approach to an animal model comprising rat strains manifesting high (BN) versus low susceptibility (PVG) to experimental asthma, induced by virus/allergen coexposure, to elucidate the mechanism(s)-of-action of the high-risk asthma immunophenotype. We also investigated potential risk mitigation via pretreatment with the immune training agent OM-85. Virus/allergen coexposure in low-risk PVG rats resulted in rapid and transient airways inflammation alongside IRF7 gene network formation. In contrast, responses in high-risk BN rats were characterized by severe airways eosinophilia and exaggerated proinflammatory responses that failed to resolve, and complete absence of IRF7 gene networks. OM-85 had more profound effects in high-risk BN rats, inducing immune-related gene expression changes in lung at baseline and reducing exaggerated airway inflammatory responses to virus/allergen coexposure. In low-risk PVG rats, OM-85 boosted IRF7 gene networks in the lung but did not alter baseline gene expression or cellular influx. Distinct IRF7-associated asthma risk immunophenotypes have dichotomous responses to virus/allergen coexposure and respond differentially to OM-85 pretreatment. Extrapolating to humans, our findings suggest that the beneficial effects OM-85 pretreatment may preferentially target those in high-risk subgroups.

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