Dog allergen-induced asthma in mice: a relevant model of T2low severe asthma with airway remodelling

Objective and design Airway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog allergen-induced murine asthma model characterized by T2 low Th17-driven neutrophilic airway inflammation and AR. To assess its releva...

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Published in	Inflammation research Vol. 74; no. 1; p. 52
Main Authors	Margelidon-Cozzolino, Victor, Balsamelli, Joanne, Carrard, Julie, Ait Yahia, Saliha, Gevaert, Marie-Hélène, Demoulin-Alexikova, Silvia, Pichavant, Muriel, Tsicopoulos, Anne, Chenivesse, Cécile, Lejeune, Stéphanie, de Nadai, Patricia
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.12.2025 Springer Nature B.V
Subjects	Allergens Allergology Animal models Asthma Biomedical and Life Sciences Biomedicine Bronchus Dermatology Dexamethasone Dogs Fibrosis Helper cells Hypertrophy Immunology Inflammation Lavage Leukocytes (neutrophilic) Lymphocytes T Methacholine Neurology Original Research Paper Pharmacology/Toxicology Respiratory tract diseases Rheumatology Smooth muscle Steroid hormones Steroids Therapeutic targets Dog allergen Airway remodelling Th17 inflammation Neutrophils Asthma Steroids
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ISSN	1023-3830 1420-908X 1420-908X
DOI	10.1007/s00011-025-02004-9

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Abstract	Objective and design Airway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog allergen-induced murine asthma model characterized by T2 low Th17-driven neutrophilic airway inflammation and AR. To assess its relevance to human AR associated with T2 low severe asthma, a condition characterised by poor response to inhaled steroids, we tested the steroid sensitivity of the key features of this model. Material Asthma was induced in C57BL/6 J mice by intranasal sensitization, followed by a three-week challenge with dog allergen. Treatment : Daily intraperitoneal 1 mg kg −1 dexamethasone was administrated during the last week of challenge. Methods : We measured airway resistances in response to methacholine, cellular inflammation in bronchoalveolar lavage, lung cytokines, and quantified AR features, in response to dexamethasone. Results Dexamethasone-treated mice showed persistent airway hyperresponsiveness, neutrophilic inflammation, and Il17 a overexpression, whereas Il22 expression was abrogated. Pathological AR features, including mucus hyperproduction, subepithelial fibrosis and smooth muscle hypertrophy were not eliminated by dexamethasone. Conclusions Our dog allergen-induced murine model of asthma mirrors the steroid-insensitive traits of human severe T2 low asthma with AR, making it a relevant tool for identifying novel therapeutic targets in this orphan asthma subset.
AbstractList	Airway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog allergen-induced murine asthma model characterized by T2low Th17-driven neutrophilic airway inflammation and AR. To assess its relevance to human AR associated with T2low severe asthma, a condition characterised by poor response to inhaled steroids, we tested the steroid sensitivity of the key features of this model.OBJECTIVE AND DESIGNAirway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog allergen-induced murine asthma model characterized by T2low Th17-driven neutrophilic airway inflammation and AR. To assess its relevance to human AR associated with T2low severe asthma, a condition characterised by poor response to inhaled steroids, we tested the steroid sensitivity of the key features of this model.Asthma was induced in C57BL/6 J mice by intranasal sensitization, followed by a three-week challenge with dog allergen.MATERIALAsthma was induced in C57BL/6 J mice by intranasal sensitization, followed by a three-week challenge with dog allergen.Daily intraperitoneal 1 mg kg-1 dexamethasone was administrated during the last week of challenge.TREATMENTDaily intraperitoneal 1 mg kg-1 dexamethasone was administrated during the last week of challenge.We measured airway resistances in response to methacholine, cellular inflammation in bronchoalveolar lavage, lung cytokines, and quantified AR features, in response to dexamethasone.METHODSWe measured airway resistances in response to methacholine, cellular inflammation in bronchoalveolar lavage, lung cytokines, and quantified AR features, in response to dexamethasone.Dexamethasone-treated mice showed persistent airway hyperresponsiveness, neutrophilic inflammation, and Il17a overexpression, whereas Il22 expression was abrogated. Pathological AR features, including mucus hyperproduction, subepithelial fibrosis and smooth muscle hypertrophy were not eliminated by dexamethasone.RESULTSDexamethasone-treated mice showed persistent airway hyperresponsiveness, neutrophilic inflammation, and Il17a overexpression, whereas Il22 expression was abrogated. Pathological AR features, including mucus hyperproduction, subepithelial fibrosis and smooth muscle hypertrophy were not eliminated by dexamethasone.Our dog allergen-induced murine model of asthma mirrors the steroid-insensitive traits of human severe T2low asthma with AR, making it a relevant tool for identifying novel therapeutic targets in this orphan asthma subset.CONCLUSIONSOur dog allergen-induced murine model of asthma mirrors the steroid-insensitive traits of human severe T2low asthma with AR, making it a relevant tool for identifying novel therapeutic targets in this orphan asthma subset. Objective and design Airway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog allergen-induced murine asthma model characterized by T2 low Th17-driven neutrophilic airway inflammation and AR. To assess its relevance to human AR associated with T2 low severe asthma, a condition characterised by poor response to inhaled steroids, we tested the steroid sensitivity of the key features of this model. Material Asthma was induced in C57BL/6 J mice by intranasal sensitization, followed by a three-week challenge with dog allergen. Treatment : Daily intraperitoneal 1 mg kg −1 dexamethasone was administrated during the last week of challenge. Methods : We measured airway resistances in response to methacholine, cellular inflammation in bronchoalveolar lavage, lung cytokines, and quantified AR features, in response to dexamethasone. Results Dexamethasone-treated mice showed persistent airway hyperresponsiveness, neutrophilic inflammation, and Il17 a overexpression, whereas Il22 expression was abrogated. Pathological AR features, including mucus hyperproduction, subepithelial fibrosis and smooth muscle hypertrophy were not eliminated by dexamethasone. Conclusions Our dog allergen-induced murine model of asthma mirrors the steroid-insensitive traits of human severe T2 low asthma with AR, making it a relevant tool for identifying novel therapeutic targets in this orphan asthma subset. Objective and designAirway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog allergen-induced murine asthma model characterized by T2low Th17-driven neutrophilic airway inflammation and AR. To assess its relevance to human AR associated with T2low severe asthma, a condition characterised by poor response to inhaled steroids, we tested the steroid sensitivity of the key features of this model.MaterialAsthma was induced in C57BL/6 J mice by intranasal sensitization, followed by a three-week challenge with dog allergen. Treatment: Daily intraperitoneal 1 mg kg−1 dexamethasone was administrated during the last week of challenge. Methods: We measured airway resistances in response to methacholine, cellular inflammation in bronchoalveolar lavage, lung cytokines, and quantified AR features, in response to dexamethasone.ResultsDexamethasone-treated mice showed persistent airway hyperresponsiveness, neutrophilic inflammation, and Il17a overexpression, whereas Il22 expression was abrogated. Pathological AR features, including mucus hyperproduction, subepithelial fibrosis and smooth muscle hypertrophy were not eliminated by dexamethasone.ConclusionsOur dog allergen-induced murine model of asthma mirrors the steroid-insensitive traits of human severe T2low asthma with AR, making it a relevant tool for identifying novel therapeutic targets in this orphan asthma subset.
ArticleNumber	52
Author	Margelidon-Cozzolino, Victor Balsamelli, Joanne de Nadai, Patricia Gevaert, Marie-Hélène Tsicopoulos, Anne Demoulin-Alexikova, Silvia Chenivesse, Cécile Ait Yahia, Saliha Carrard, Julie Pichavant, Muriel Lejeune, Stéphanie
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Keywords	Dog allergen Airway remodelling Th17 inflammation Neutrophils Asthma Steroids
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Snippet	Objective and design Airway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed... Objective and designAirway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed... Airway remodelling (AR) is a disabling phenomenon in patients with severe asthma, yet suitable models are lacking. We previously developed a dog...
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SubjectTerms	Allergens Allergology Animal models Asthma Biomedical and Life Sciences Biomedicine Bronchus Dermatology Dexamethasone Dogs Fibrosis Helper cells Hypertrophy Immunology Inflammation Lavage Leukocytes (neutrophilic) Lymphocytes T Methacholine Neurology Original Research Paper Pharmacology/Toxicology Respiratory tract diseases Rheumatology Smooth muscle Steroid hormones Steroids Therapeutic targets
Title	Dog allergen-induced asthma in mice: a relevant model of T2low severe asthma with airway remodelling
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