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1. CD48 on blood leukocytes and in serum of asthma patients varies with severity

Author

Gangwar, R. S., primary, Minai-Fleminger, Y., additional, Seaf, M., additional, Gutgold, A., additional, Shikotra, A., additional, Barber, C., additional, Chauhan, A., additional, Holgate, S., additional, Bradding, P., additional, Howarth, P., additional, Eliashar, R., additional, Berkman, N., additional, and Levi-Schaffer, F., additional

Published
2016
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3. CD48 on blood leukocytes and in serum of asthma patients varies with severity.

Author

Gangwar, R. S., Minai‐Fleminger, Y., Seaf, M., Gutgold, A., Shikotra, A., Barber, C., Chauhan, A., Holgate, S., Bradding, P., Howarth, P., Eliashar, R., Berkman, N., and Levi‐Schaffer, F.

Subjects
ASTHMATICS, EOSINOPHILS, MAST cells, ASTHMA diagnosis, LEUCOCYTES
Abstract

Background CD48 is a membrane receptor ( mCD48) on eosinophils and mast cells and exists in a soluble form ( sCD48). CD48 has a pivotal role in murine asthma and in the proinflammatory interactions of mast cells with eosinophils via its ligand CD244. Thus, CD48 might be important in human asthma. Methods Therefore, two separate cohorts ( IL and UK) comprising mild, moderate, and severe asthma and healthy volunteers were evaluated for blood leukocyte mCD48 expression and sCD48 in serum. Asthmatic bronchial biopsies were immunostained for CD48. sCD48 effect on CD244-dependent eosinophil activation was evaluated. Results Eosinophil mCD48 expression was significantly elevated in moderate while downregulated in severe asthma. mCD48 expression on B, T, and NK cells and monocytes in severe asthma was significantly increased. sCD48 levels were significantly higher in mild while reduced in severe asthma. sCD48 optimal cutoff values for differentiating asthma from health were identified as >1482 pg/ml ( IL) and >1619 pg/ml ( UK). In asthmatic bronchial biopsies, mCD48 was expressed predominantly by eosinophils. sCD48 inhibited anti- CD244-induced eosinophil activation. Conclusions mCD48 and sCD48 are differentially expressed in the peripheral blood of asthma patients of varying severity. sCD48 inhibits CD244-mediated eosinophil activation. These findings suggest that CD48 may play an important role in human asthma. [ABSTRACT FROM AUTHOR]

Published
2017
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4. Protein phosphatase 5 mediates corticosteroid insensitivity in airway smooth muscle in patients with severe asthma.

Author

Chachi, L., Abbasian, M., Gavrila, A., Alzahrani, A., Tliba, O., Bradding, P., Wardlaw, A. J., Brightling, C., and Amrani, Y.

Subjects
PHOSPHOPROTEIN phosphatases, CORTICOSTEROIDS, HORMONE therapy, AIRWAY (Anatomy), SMOOTH muscle, ASTHMATICS, CHEMOKINES
Abstract

Background The mechanisms driving glucocorticoid ( GC) insensitivity in patients with severe asthma are still unknown. Recent evidence suggests the existence of GC-insensitive pathways in airway smooth muscle ( ASM) caused by a defect in GC receptor ( GRα) function. We examined whether other mechanisms could potentially explain the reduced sensitivity of ASM cells to GC in severe asthmatics. Methods Airway smooth muscle cells from healthy and severe asthmatic subjects were treated with TNF-α and responses to corticosteroids in both cohorts were compared by ELISA, immunoblot, immunohistochemistry and real-time PCR. Immunohistochemistry and flow cytometry assays were used to assess the expression of the protein phosphatase PP5 in endobronchial biopsies and ASM cells. Results The production of CCL11 and CCL5 by TNF-α was insensitive to both fluticasone and dexamethasone in ASM cells from severe asthmatic compared to that in healthy subjects. Fluticasone-induced GRα nuclear translocation, phosphorylation at serine 211 and expression of GC-induced leucine zipper ( GILZ) were significantly reduced in ASM cells from severe asthmatics compared to responses in healthy subjects. Levels of PP5 were increased in ASM cells from severe asthmatics and PP5 knockdown using si RNA restored fluticasone repressive action on chemokine production and its ability to induce GRα nuclear translocation and GRE-dependent GILZ expression. In vivo PP5 expression was also increased in the ASM bundles in endobronchial biopsies in severe asthmatics. Conclusions PP5-dependent impairment of GRα function represents a novel mechanism driving GC insensitivity in ASM in severe asthma. [ABSTRACT FROM AUTHOR]

Published
2017
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10. Physical interactions between mast cells and eosinophils: a novel mechanism enhancing eosinophil survival in vitro.

Author

Elishmereni, M., Alenius, H. T., Bradding, P., Mizrahi, S., Shikotra, A., Minai-Fleminger, Y., Mankuta, D., Eliashar, R., Zabucchi, G., and Levi-Schaffer, F.

Subjects
ALLERGIES, MAST cells, EOSINOPHILS, FLOW cytometry, INFLAMMATION, CELL receptors, BRONCHI examination
Abstract

Background: Mast cells (MCs) and eosinophils (Eos) are the key effector cells of the allergic reaction. Although classically associated with different stages of the response, the cells co-exist in the inflamed tissue in the late and chronic phases in high numbers and are likely to cross-talk. While some mediators of MCs are known to affect Eos biology and vice versa, paracrine and physical interplay between the two cells has not been described yet. We aimed to investigate whether intercellular MC-Eos communication could take place in the allergic response and exert functional bidirectional changes on the cells. Methods: Tissue sections from various allergic disorders were specifically stained for both cells. Human cord blood-derived MCs and peripheral blood Eos, co-cultured under different conditions, were studied by advanced microscopy and flow cytometry. Results: Several co-localized MC-Eos pairs were detected in human nasal polypsand asthmatic bronchi, as well in mouse atopic dermatitis. In vitro, MCs and Eos formed stable conjugates at high rates, with clear membrane contact. In the presence of MCs, Eos were significantly more viable under several co-culture conditions and at both IgE-activated and steroid-inhibited settings. MC regulation of Eos survival required communication through soluble mediators but was even more dependent on physical cell-cell contact.Conclusions: Our findings provide the first evidence for a complex network of paracrine and membrane interactions between MCs and Eos. The prosurvival phenotype induced by this MC-Eos interplay may be critical for sustaining chronic allergic inflammation. [ABSTRACT FROM AUTHOR]

Published
2011
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11. Mast cells express IL-13R α1: IL-13 promotes human lung mast cell proliferation and Fc ℇRI expression.

Author

Kaur, D., Hollins, F., Woodman, L., Yang, W., Monk, P., May, R., Bradding, P., and Brightling, C. E.

Subjects
ALLERGIES, INTERLEUKIN-13, ASTHMA, CYTOKINES, CELL proliferation, CELLULAR immunity
Abstract

Background: The Th2 cytokine interleukin (IL)-13 is implicated in the development of various allergic diseases including asthma. The IL-13 receptor, IL-13Rα1, is expressed on most leukocytes, except T-cells. Evidence to support IL-13Rα1 expression on mast cells is limited. Methods: We investigated: (i) IL-13Rα1 expression by human lung mast cells (HLMC); (ii) the number of IL-13Rα1 + bronchial submucosal mast cells in subjects with asthma and normal controls and (iii) the effect of IL-13 priming on HLMC expression of high-affinity IgE receptor (FcϵRI), stem cell factor receptor (CD117), histamine release, proliferation, and survival. Results: Human lung mast cell expressed IL-13Rα1 mRNA. IL-13Rα1 was highly expressed on the surface HLMC (82 ± 9%). Bronchial submucosal mast cell IL-13Rα1 expression was higher in asthmatics (86 ± 2%) than normal controls (78 ± 2%; P = 0.015). IL-13 priming for 30 min did not increase HLMC histamine release, in the presence or absence of SCF or in response to IgE/anti-IgE activation. IL-13 priming for 5 days upregulated HLMC FcϵRI expression (22% increase in fluorescent intensity; P = 0.003), increased histamine release following IgE/anti-IgE activation by 56% ( P = 0.03) and increased proliferation by 50% ( P = 0.003) without affecting cell survival or CD117 expression. The IL-13 specific neutralizing antibody CAT-354 inhibited all IL-13 mediated effects. Conclusion: Human lung mast cell express IL-13Rα1 and activation by IL-13 for 5 days increased FcϵRI expression and proliferation. Histamine release was not affected by short-term priming with IL-13, but was upregulated by priming for 5 days suggesting that this effect was mediated by the increased FcϵRI expression. These data support the view that targeting IL-13 may be beneficial in the treatment of asthma. [ABSTRACT FROM AUTHOR]

Published
2006
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12. Airway tryptase levels inform the lack of clinical efficacy of the tryptase inhibitor MTPS9579A in asthma.

Author

Rhee H, Henderson LM, Bauer RN, Wong K, Staton TL, Choy DF, Banerjee P, Poon V, Yoshida K, Chen C, Long K, Sperinde G, Laing ST, Jones NS, Glickstein SB, Dayal P, Fong A, Dash A, Pulka G, Leaker B, Singh D, and Bradding P

Subjects
Humans, Male, Female, Middle Aged, Adult, Treatment Outcome, Aged, Anti-Asthmatic Agents therapeutic use, Anti-Asthmatic Agents pharmacokinetics, Anti-Asthmatic Agents administration & dosage, Young Adult, Tryptases antagonists & inhibitors, Asthma drug therapy
Abstract

Background: Tryptase, a mast cell protease, has been identified as a potential therapeutic target in managing patients with refractory asthma. We assessed the efficacy, safety, pharmacokinetics, and pharmacodynamics of MTPS9579A, an anti-tryptase antibody, in a phase 2a randomized trial for patients with uncontrolled asthma and a phase 1c trial to understand activity within the lower respiratory tract., Methods: Phase 2a patients (n = 134) received 1800 mg MTPS9579A or placebo intravenously every 4 weeks for 48 weeks. The primary endpoint was time to the first composite exacerbation event. Phase 1c patients (n = 27) received one intravenous dose of 300 or 1800 mg MTPS9579A or placebo. Both trials measured MTPS9579A concentrations and effects on tryptase in serum and nasal lining fluid; phase 1c also analyzed bronchial lining fluid., Results: MTPS9579A did not meet the primary endpoint (hazard ratio = 0.90; 95% CI: 0.55-1.47; p = 0.6835); exacerbation rates in the placebo group were low. Serum and nasal MTPS9579A pharmacokinetics and tryptase levels were consistent with data from healthy volunteers. However, in phase 1c patients, compared to nasal levels, MTPS9579A bronchial concentrations were 6.8-fold lower, and bronchial active and total tryptase levels were higher (119-fold and 30-fold, respectively). Pharmacokinetic/pharmacodynamic modeling predicted intravenous doses of 3800 mg every 4 weeks would be necessary to achieve 95% active tryptase inhibition from baseline., Conclusions: The MTPS9579A dose tested in the phase 2a study was insufficient to inhibit tryptase in bronchial lining fluid, likely contributing to the observed lack of efficacy., (© 2024 Genentech and The Author(s). Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2024
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13. The effects of inhaled corticosteroids on healthy airways.

Author

Marchi E, Hinks TSC, Richardson M, Khalfaoui L, Symon FA, Rajasekar P, Clifford R, Hargadon B, Austin CD, MacIsaac JL, Kobor MS, Siddiqui S, Mar JS, Arron JR, Choy DF, and Bradding P

Subjects
Humans, Adult, Male, Administration, Inhalation, Female, Young Adult, Middle Aged, DNA Methylation drug effects, Gene Expression Regulation drug effects, Respiratory Mucosa metabolism, Respiratory Mucosa immunology, Respiratory Mucosa drug effects, Fluticasone administration & dosage, Fluticasone pharmacology, Adrenal Cortex Hormones administration & dosage, Healthy Volunteers
Abstract

Background: The effects of inhaled corticosteroids (ICS) on healthy airways are poorly defined., Objectives: To delineate the effects of ICS on gene expression in healthy airways, without confounding caused by changes in disease-related genes and disease-related alterations in ICS responsiveness., Methods: Randomized open-label bronchoscopy study of high-dose ICS therapy in 30 healthy adult volunteers randomized 2:1 to (i) fluticasone propionate 500 mcg bd daily or (ii) no treatment, for 4 weeks. Laboratory staff were blinded to allocation. Biopsies and brushings were analysed by immunohistochemistry, bulk RNA sequencing, DNA methylation array and metagenomics., Results: ICS induced small between-group differences in blood and lamina propria eosinophil numbers, but not in other immunopathological features, blood neutrophils, FeNO, FEV 1 , microbiome or DNA methylation. ICS treatment upregulated 72 genes in brushings and 53 genes in biopsies, and downregulated 82 genes in brushings and 416 genes in biopsies. The most downregulated genes in both tissues were canonical markers of type-2 inflammation (FCER1A, CPA3, IL33, CLEC10A, SERPINB10 and CCR5), T cell-mediated adaptive immunity (TARP, TRBC1, TRBC2, PTPN22, TRAC, CD2, CD8A, HLA-DQB2, CD96, PTPN7), B-cell immunity (CD20, immunoglobulin heavy and light chains) and innate immunity, including CD48, Hobit, RANTES, Langerin and GFI1. An IL-17-dependent gene signature was not upregulated by ICS., Conclusions: In healthy airways, 4-week ICS exposure reduces gene expression related to both innate and adaptive immunity, and reduces markers of type-2 inflammation. This implies that homeostasis in health involves tonic type-2 signalling in the airway mucosa, which is exquisitely sensitive to ICS., (© 2024 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2024
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14. Identification of redundancy between human FcεRIβ and MS4A6A proteins points toward additional complex mechanisms for FcεRI trafficking and signaling.

Author

Bitting K, Hedgespeth B, Ehrhardt-Humbert LC, Arthur GK, Schubert AG, Bradding P, Tilley SL, and Cruse G

Subjects
Animals, Humans, Mice, Basophils metabolism, Cell Degranulation, Exons, Mast Cells metabolism, Signal Transduction, Hypersensitivity metabolism, Receptors, IgE genetics, Receptors, IgE metabolism
Abstract

Background: Allergic diseases are triggered by signaling through the high-affinity IgE receptor, FcεRI. In both mast cells (MCs) and basophils, FcεRI is a tetrameric receptor complex comprising a ligand-binding α subunit (FcεRIα), a tetraspan β subunit (FcεRIβ, MS4A2) responsible for trafficking and signal amplification, and a signal transducing dimer of single transmembrane γ subunits (FcεRIγ). However, FcεRI also exists as presumed trimeric complexes that lack FcεRIβ and are expressed on several cell types outside the MC and basophil lineages. Despite known differences between humans and mice in the presence of the trimeric FcεRI complex, questions remain as to how it traffics and whether it signals in the absence of FcεRIβ. We have previously reported that targeting FcεRIβ with exon-skipping oligonucleotides eliminates IgE-mediated degranulation in mouse MCs, but equivalent targeting in human MCs was not effective at reducing degranulation., Results: Here, we report that the FcεRIβ-like protein MS4A6A exists in human MCs and compensates for FcεRIβ in FcεRI trafficking and signaling. Human MS4A6A promotes surface expression of FcεRI complexes and facilitates degranulation. MS4A6A and FcεRIβ are encoded by highly related genes within the MS4A gene family that cluster within the human gene loci 11q12-q13, a region linked to allergy and asthma susceptibility., Conclusions: Our data suggest the presence of either FcεRIβ or MS4A6A is sufficient for degranulation, indicating that MS4A6A could be an elusive FcεRIβ-like protein in human MCs that performs compensatory functions in allergic disease., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2023
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15. Relationship between inflammatory status and microbial composition in severe asthma and during exacerbation.

Author

Diver S, Haldar K, McDowell PJ, Busby J, Mistry V, Micieli C, Brown V, Cox C, Yang F, Borg C, Shrimanker R, Ramsheh MY, Hardman T, Arron J, Bradding P, Cowan D, Mansur AH, Fowler SJ, Lordan J, Menzies-Gow A, Robinson D, Matthews J, Pavord ID, Chaudhuri R, Heaney LG, Barer MR, and Brightling C

Subjects
Humans, Eosinophils, Sputum microbiology, Respiratory System microbiology, Biomarkers, Asthma diagnosis, Asthma drug therapy, Asthma microbiology
Abstract

Background: In T2-mediated severe asthma, biologic therapies, such as mepolizumab, are increasingly used to control disease. Current biomarkers can indicate adequate suppression of T2 inflammation, but it is unclear whether they provide information about airway microbial composition. We investigated the relationships between current T2 biomarkers and microbial profiles, characteristics associated with a Proteobacteria HIGH microbial profile and the effects of mepolizumab on airway ecology., Methods: Microbiota sequencing was performed on sputum samples obtained at stable and exacerbation state from 140 subjects with severe asthma participating in two clinical trials. Inflammatory subgroups were compared on the basis of biomarkers, including FeNO and sputum and blood eosinophils. Proteobacteria HIGH subjects were identified by Proteobacteria to Firmicutes ratio ≥0.485. Where paired sputum from stable visits was available, we compared microbial composition at baseline and following ≥12 weeks of mepolizumab., Results: Microbial composition was not related to inflammatory subgroup based on sputum or blood eosinophils. FeNO ≥50 ppb when stable and at exacerbation indicated a group with less dispersed microbial profiles characterised by high alpha-diversity and low Proteobacteria. Proteobacteria HIGH subjects were neutrophilic and had a longer time from asthma diagnosis than Proteobacteria LOW subjects. In those studied, mepolizumab did not alter airway bacterial load or lead to increased Proteobacteria., Conclusion: High FeNO could indicate a subgroup of severe asthma less likely to benefit from antimicrobial strategies at exacerbation or in the context of poor control. Where FeNO is <50 ppb, biomarkers of microbial composition are required to identify those likely to respond to microbiome-directed strategies. We found no evidence that mepolizumab alters airway microbial composition., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2022
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16. Airway remodelling rather than cellular infiltration characterizes both type2 cytokine biomarker-high and -low severe asthma.

Author

Khalfaoui L, Symon FA, Couillard S, Hargadon B, Chaudhuri R, Bicknell S, Mansur AH, Shrimanker R, Hinks TSC, Pavord ID, Fowler SJ, Brown V, McGarvey LP, Heaney LG, Austin CD, Howarth PH, Arron JR, Choy DF, and Bradding P

Subjects
Airway Remodeling, Biomarkers, Cytokines analysis, Eosinophils metabolism, Humans, Inflammation pathology, Interleukin-4, Interleukin-5 analysis, Sputum, Asthma metabolism, Eosinophilia pathology
Abstract

Background: The most recognizable phenotype of severe asthma comprises people who are blood eosinophil and FeNO-high, driven by type 2 (T2) cytokine biology, which responds to targeted biological therapies. However, in many people with severe asthma, these T2 biomarkers are suppressed but poorly controlled asthma persists. The mechanisms driving asthma in the absence of T2 biology are poorly understood., Objectives: To explore airway pathology in T2 biomarker-high and -low severe asthma., Methods: T2 biomarker-high severe asthma (T2-high, n = 17) was compared with biomarker-intermediate (T2-intermediate, n = 21) and biomarker-low (T2-low, n = 20) severe asthma and healthy controls (n = 28). Bronchoscopy samples were processed for immunohistochemistry, and sputum for cytokines, PGD 2 and LTE 4 measurements., Results: Tissue eosinophil, neutrophil and mast cell counts were similar across severe asthma phenotypes and not increased when compared to healthy controls. In contrast, the remodelling features of airway smooth muscle mass and MUC5AC expression were increased in all asthma groups compared with health, but similar across asthma subgroups. Submucosal glands were increased in T2-intermediate and T2-low asthma. In spite of similar tissue cellular inflammation, sputum IL-4, IL-5 and CCL26 were increased in T2-high versus T2-low asthma, and several further T2-associated cytokines, PGD 2 and LTE 4 , were increased in T2-high and T2-intermediate asthma compared with healthy controls., Conclusions: Eosinophilic tissue inflammation within proximal airways is suppressed in T2 biomarker-high and T2-low severe asthma, but inflammatory and structural cell activation is present, with sputum T2-associated cytokines highest in T2 biomarker-high patients. Airway remodelling persists and may be important for residual disease expression beyond eosinophilic exacerbations. Registered at ClincialTrials.gov: NCT02883530., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2022
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17. Mast cells express IL-13R alpha 1: IL-13 promotes human lung mast cell proliferation and Fc epsilon RI expression.

Author

Kaur D, Hollins F, Woodman L, Yang W, Monk P, May R, Bradding P, and Brightling CE

Subjects
Cells, Cultured, Humans, Interleukin-13 Receptor alpha1 Subunit biosynthesis, Lung cytology, Lung immunology, Lung metabolism, Mast Cells cytology, Receptors, IgE biosynthesis, Cell Proliferation, Interleukin-13 physiology, Interleukin-13 Receptor alpha1 Subunit genetics, Mast Cells immunology, Mast Cells metabolism, Receptors, IgE genetics
Abstract

Background: The Th2 cytokine interleukin (IL)-13 is implicated in the development of various allergic diseases including asthma. The IL-13 receptor, IL-13Ralpha1, is expressed on most leukocytes, except T-cells. Evidence to support IL-13Ralpha1 expression on mast cells is limited., Methods: We investigated: (i) IL-13Ralpha1 expression by human lung mast cells (HLMC); (ii) the number of IL-13Ralpha1+ bronchial submucosal mast cells in subjects with asthma and normal controls and (iii) the effect of IL-13 priming on HLMC expression of high-affinity IgE receptor (FcepsilonRI), stem cell factor receptor (CD117), histamine release, proliferation, and survival., Results: Human lung mast cell expressed IL-13Ralpha1 mRNA. IL-13Ralpha1 was highly expressed on the surface HLMC (82+/-9%). Bronchial submucosal mast cell IL-13Ralpha1 expression was higher in asthmatics (86+/-2%) than normal controls (78+/-2%; P=0.015). IL-13 priming for 30 min did not increase HLMC histamine release, in the presence or absence of SCF or in response to IgE/anti-IgE activation. IL-13 priming for 5 days upregulated HLMC FcepsilonRI expression (22% increase in fluorescent intensity; P=0.003), increased histamine release following IgE/anti-IgE activation by 56% (P=0.03) and increased proliferation by 50% (P=0.003) without affecting cell survival or CD117 expression. The IL-13 specific neutralizing antibody CAT-354 inhibited all IL-13 mediated effects., Conclusion: Human lung mast cell express IL-13Ralpha1 and activation by IL-13 for 5 days increased FcepsilonRI expression and proliferation. Histamine release was not affected by short-term priming with IL-13, but was upregulated by priming for 5 days suggesting that this effect was mediated by the increased FcepsilonRI expression. These data support the view that targeting IL-13 may be beneficial in the treatment of asthma.

Published
2006
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