Natalie M Niessen1,2,3, Katherine J Baines1,3, Jodie L Simpson1,3,4, Hayley A Scott1,3, Ling Qin5, Peter G Gibson1,2,3,4, Michael Fricker1,2,3. 1. Priority Research Centre for Healthy Lungs, The University of Newcastle, Newcastle, NSW, Australia. 2. National Health and Medical Research Council Centre of Excellence in Severe Asthma, Newcastle, NSW, Australia. 3. Hunter Medical Research Institute, Newcastle, NSW, Australia. 4. Department of Respiratory and Sleep Medicine, John Hunter Hospital, Newcastle, NSW, Australia. 5. Department of Respiratory Medicine (Department of Pulmonary and Critical Care Medicine), Xiangya Hospital, Central South University, Changsha, China.
Abstract
BACKGROUND: Monocytes and macrophages are critical innate immune cells of the airways. Despite their differing functions, few clinical studies discriminate between them and little is known about their regulation in asthma. OBJECTIVE: We aimed to distinguish and quantify macrophages, monocytes and monocyte subsets in induced sputum and blood and examine their relationship with inflammatory and clinical features of asthma. METHODS: We applied flow cytometry to distinguish macrophages, monocytes and subsets in sputum and blood (n = 53; 45 asthma, 8 non-asthma) and a second asthma sputum cohort (n = 26). Monocyte subsets were identified by surface CD14/CD16 (CD14++ CD16- classical, CD14+ CD16+ intermediate and CD14+ CD16++ non-classical monocytes). Surface CD206, a marker of monocyte tissue differentiation, was measured in sputum. Relationship to airway inflammatory phenotype (neutrophilic n = 9, eosinophilic n = 14, paucigranulocytic n = 22) and asthma severity (severe n = 12, non-severe n = 33) was assessed. RESULTS: Flow cytometry- and microscope-quantified sputum differential cell proportions were significantly correlated. Sputum macrophage number was reduced (p = .036), while classical monocyte proportion was increased in asthma vs non-asthma (p = .032). Sputum classical monocyte number was significantly higher in neutrophilic vs paucigranulocytic asthma (p = .013). CD206- monocyte proportion and number were increased in neutrophilic vs eosinophilic asthma (p < .001, p = .013). Increased sputum classical and CD206- monocyte numbers in neutrophilic asthma were confirmed in the second cohort. Blood monocytes did not vary with airway inflammatory phenotype, but blood classical monocyte proportion and number were increased in severe vs non-severe asthma (p = .022, p = .011). CONCLUSION AND CLINICAL RELEVANCE: Flow cytometry allowed distinction of sputum macrophages, monocytes and subsets, revealing compartment-specific dysregulation of monocytes in asthma. We observed an increase in classical and CD206- monocytes in sputum in neutrophilic asthma, suggesting co-recruitment of monocytes and neutrophils to the airways in asthma. Our data suggest further investigation of how airway monocyte dysregulation impacts on asthma-related disease activity is merited.
BACKGROUND: Monocytes and macrophages are critical innate immune cells of the airways. Despite their differing functions, few clinical studies discriminate between them and little is known about their regulation in asthma. OBJECTIVE: We aimed to distinguish and quantify macrophages, monocytes and monocyte subsets in induced sputum and blood and examine their relationship with inflammatory and clinical features of asthma. METHODS: We applied flow cytometry to distinguish macrophages, monocytes and subsets in sputum and blood (n = 53; 45 asthma, 8 non-asthma) and a second asthma sputum cohort (n = 26). Monocyte subsets were identified by surface CD14/CD16 (CD14++ CD16- classical, CD14+ CD16+ intermediate and CD14+ CD16++ non-classical monocytes). Surface CD206, a marker of monocyte tissue differentiation, was measured in sputum. Relationship to airway inflammatory phenotype (neutrophilic n = 9, eosinophilic n = 14, paucigranulocytic n = 22) and asthma severity (severe n = 12, non-severe n = 33) was assessed. RESULTS: Flow cytometry- and microscope-quantified sputum differential cell proportions were significantly correlated. Sputum macrophage number was reduced (p = .036), while classical monocyte proportion was increased in asthma vs non-asthma (p = .032). Sputum classical monocyte number was significantly higher in neutrophilic vs paucigranulocytic asthma (p = .013). CD206- monocyte proportion and number were increased in neutrophilic vs eosinophilic asthma (p < .001, p = .013). Increased sputum classical and CD206- monocyte numbers in neutrophilic asthma were confirmed in the second cohort. Blood monocytes did not vary with airway inflammatory phenotype, but blood classical monocyte proportion and number were increased in severe vs non-severe asthma (p = .022, p = .011). CONCLUSION AND CLINICAL RELEVANCE: Flow cytometry allowed distinction of sputum macrophages, monocytes and subsets, revealing compartment-specific dysregulation of monocytes in asthma. We observed an increase in classical and CD206- monocytes in sputum in neutrophilic asthma, suggesting co-recruitment of monocytes and neutrophils to the airways in asthma. Our data suggest further investigation of how airway monocyte dysregulation impacts on asthma-related disease activity is merited.
Authors: Michael Fricker; Ling Qin; Stephany Sánchez-Ovando; Jodie L Simpson; Katherine J Baines; Carlos Riveros; Hayley A Scott; Lisa G Wood; Peter Ab Wark; Nazanin Z Kermani; Kian Fan Chung; Peter G Gibson Journal: Allergy Date: 2021-09-28 Impact factor: 14.710
Authors: Natalie M Niessen; Peter G Gibson; Jodie L Simpson; Hayley A Scott; Katherine J Baines; Michael Fricker Journal: ERJ Open Res Date: 2021-07-19