Innate and adaptive T cells in asthmatic patients: relationship to severity and disease mechanisms

• Main Authors: Hinks, Timothy (Author), Zhou, Xiaoying (Author), Staples, Karl J. (Author), Dimitrov, Borislav D. (Author), Manta, Alexander (Author), Petrossian, Tanya (Author), Lum, Pek Y. (Author), Smith, Caroline G. (Author), Ward, Jon A. (Author), Howarth, Peter H. (Author), Walls, Andrew F. (Author), Gadola, Stephan D. (Author), Djukanović, Ratko (Author)
• Format: Article
• Language: English
• Published: 2015-08.
• Subjects: Article
• Online Access: Get fulltext; Get fulltext; Get fulltext; Get fulltext; Get fulltext

 Background Asthma is a chronic inflammatory disease involving diverse cells and mediators whose interconnectivity and relationships to asthma severity are unclear. Objective We performed a comprehensive assessment of TH17 cells, regulatory T cells, mucosal-associated invariant T (MAIT) cells, other T-cell subsets, and granulocyte mediators in asthmatic patients. Methods Sixty patients with mild-to-severe asthma and 24 control subjects underwent detailed clinical assessment and provided induced sputum, endobronchial biopsy, bronchoalveolar lavage, and blood samples. Adaptive and invariant T-cell subsets, cytokines, mast cells, and basophil mediators were analyzed. Results Significant heterogeneity of T-cell phenotypes was observed, with levels of IL-13-secreting T cells and type 2 cytokines increased at some, but not all, asthma severities. TH17 cells and ??-17 cells, proposed drivers of neutrophilic inflammation, were not strongly associated with asthma, even in severe neutrophilic forms. MAIT cell frequencies were strikingly reduced in both blood and lung tissue in relation to corticosteroid therapy and vitamin D levels, especially in patients with severe asthma in whom bronchoalveolar lavage regulatory T-cell numbers were also reduced. Bayesian network analysis identified complex relationships between pathobiologic and clinical parameters. Topological data analysis identified 6 novel clusters that are associated with diverse underlying disease mechanisms, with increased mast cell mediator levels in patients with severe asthma both in its atopic (type 2 cytokine-high) and nonatopic forms. Conclusion The evidence for a role for TH17 cells in patients with severe asthma is limited. Severe asthma is associated with a striking deficiency of MAIT cells and high mast cell mediator levels. This study provides proof of concept for disease mechanistic networks in asthmatic patients with clusters that could inform the development of new therapies.