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Dual inhibition of airway inflammation and fibrosis by common ß cytokine receptor blockade.
Wang, Hao; Yip, Kwok Ho; Keam, Simon P; Vlahos, Ross; Nichol, Kristy; Wark, Peter; Toubia, John; Kral, Anita C; Cildir, Gökhan; Pant, Harshita; Hercus, Timothy R; Wilson, Nick; Owczarek, Catherine; Lopez, Angel F; Bozinovski, Steven; Tumes, Damon J.
  • Wang H; School of Health and Biomedical Sciences, RMIT University, Bundoora, Australia.
  • Yip KH; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia.
  • Keam SP; Research and Development, CSL Limited, Bio21 Molecular Science and Biotechnology Institute, Parkville, Australia.
  • Vlahos R; School of Health and Biomedical Sciences, RMIT University, Bundoora, Australia.
  • Nichol K; Immune Health Research Program, Hunter Medical Research Institute and University of Newcastle, Newcastle, Australia; Department of Respiratory and Sleep Medicine, John Hunter Hospital, Newcastle, Australia.
  • Wark P; Immune Health Research Program, Hunter Medical Research Institute and University of Newcastle, Newcastle, Australia; Department of Respiratory and Sleep Medicine, John Hunter Hospital, Newcastle, Australia.
  • Toubia J; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia.
  • Kral AC; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia.
  • Cildir G; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia.
  • Pant H; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia; Faculty of Medicine, University of Adelaide, Adelaide, Australia.
  • Hercus TR; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia.
  • Wilson N; Research and Development, CSL Limited, Bio21 Molecular Science and Biotechnology Institute, Parkville, Australia.
  • Owczarek C; Research and Development, CSL Limited, Bio21 Molecular Science and Biotechnology Institute, Parkville, Australia.
  • Lopez AF; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia; Faculty of Medicine, University of Adelaide, Adelaide, Australia.
  • Bozinovski S; School of Health and Biomedical Sciences, RMIT University, Bundoora, Australia. Electronic address: steven.bozinovski@rmit.edu.au.
  • Tumes DJ; Centre for Cancer Biology, SA Pathology and the University of South Australia, Adelaide, Australia. Electronic address: damon.tumes@unisa.edu.au.
J Allergy Clin Immunol ; 153(3): 672-683.e6, 2024 Mar.
Article en En | MEDLINE | ID: mdl-37931708
BACKGROUND: Patients with severe asthma can present with eosinophilic type 2 (T2), neutrophilic, or mixed inflammation that drives airway remodeling and exacerbations and represents a major treatment challenge. The common ß (ßc) receptor signals for 3 cytokines, GM-CSF, IL-5, and IL-3, which collectively mediate T2 and neutrophilic inflammation. OBJECTIVE: To determine the pathogenesis of ßc receptor-mediated inflammation and remodeling in severe asthma and to investigate ßc antagonism as a therapeutic strategy for mixed granulocytic airway disease. METHODS: ßc gene expression was analyzed in bronchial biopsy specimens from patients with mild-to-moderate and severe asthma. House dust mite extract and Aspergillus fumigatus extract (ASP) models were used to establish asthma-like pathology and airway remodeling in human ßc transgenic mice. Lung tissue gene expression was analyzed by RNA sequencing. The mAb CSL311 targeting the shared cytokine binding site of ßc was used to block ßc signaling. RESULTS: ßc gene expression was increased in patients with severe asthma. CSL311 potently reduced lung neutrophils, eosinophils, and interstitial macrophages and improved airway pathology and lung function in the acute steroid-resistant house dust mite extract model. Chronic intranasal ASP exposure induced airway inflammation and fibrosis and impaired lung function that was inhibited by CSL311. CSL311 normalized the ASP-induced fibrosis-associated extracellular matrix gene expression network and strongly reduced signatures of cellular inflammation in the lung. CONCLUSIONS: ßc cytokines drive steroid-resistant mixed myeloid cell airway inflammation and fibrosis. The anti-ßc antibody CSL311 effectively inhibits mixed T2/neutrophilic inflammation and severe asthma-like pathology and reverses fibrosis gene signatures induced by exposure to commonly encountered environmental allergens.
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Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Asma / Receptores de Citocinas Límite: Animals / Humans Idioma: En Año: 2024 Tipo del documento: Article

Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Asma / Receptores de Citocinas Límite: Animals / Humans Idioma: En Año: 2024 Tipo del documento: Article