Eosinophil Inflammation in Allergic Disease : Clinical and experimental studies in allergic asthma and allergic rhinitis

Kämpe, Mary

January 2010

Allergic diseases are chronic inflammatory conditions, characterised by eosinophil inflammation systemically and in target organs, where cytotoxic granule proteins are responsible for tissue injury. Allergic rhinitis is known to be a risk factor for the development of asthma, yet not all with rhinitis develop asthma. The overall aim was to investigate the involvement of eosinophils in allergic rhinitis and allergic asthma in vivo and in experimental settings, with a focus on differences between rhinitis and asthma. Birch pollen allergy was used as a model and patients were studied during pollen season and after nasal and bronchial allergen challenge. During pollen season and at baseline, allergic rhinitis and allergic asthma had the same degree of systemic eosinophil inflammation. Despite this, impairment in lung function during season and increased bronchial responsiveness at baseline were more common in the asthmatics. Systemic inflammation was more pronounced after seasonal exposure than after experimental challenge. Allergic rhinitis and allergic asthma had the same degree of eosinophil airway inflammation after bronchial challenge, but only the asthmatics had increased bronchial responsiveness measured as PD20 for birch allergen. Allergen primed eosinophils were investigated in vitro for C3b-induced degranulation after seasonal and experimental challenge. The released amount of eosinophil granule proteins was within the same range for all three allergen challenge models with just minor differences in propensity for degranulation between rhinitics and asthmatics. Signalling through PI3K for degranulation was studied with the specific inhibitor Wortmannin. PI3K signalling for eosinophil degranulation was clearly involved in allergic rhinitis and allergic asthma irrespective of the model for allergen exposure. Asthmatics demonstrated less inhibition of degranulation through PI3K during pollen season, indicating that other pathways contribute to eosinophil degranulation in allergic asthmatics. Conclusion: Allergic rhinitis and allergic asthma present with the same degree of systemic and local eosinophil inflammation. The eosinophils are primed for degranulation equally and follow the same pathway through PI3K for degranulation. Our data indicates that eosinophil inflammation per se is not sufficient for the development of asthma.

Allergic asthma

allergic rhinitis

eosinophils

pollen season

bronchial challenge

nasal challenge eosinophil degranulation

PI3K signalling

Allergology

Allergologi

Comparison of the effects of low dose and high dose inhaled corticosteroid treatment of mild to moderate asthma in adults.

Baraket, Melissa, mbaraket@med.usyd.edu.au

January 2008

Doctor of Philosophy (PhD) / Asthma is a chronic inflammatory disease of the airways. Corticosteroid medication is the most effective currently available treatment. Complications of corticosteroid therapy are dose-dependent, however, the clinical efficacy of varying doses of inhaled corticosteroids has been studied with mixed results. A randomized, double-blind, parallel group study was used to evaluate the inhaled corticosteroid dose-response relationship for clinical endpoints and in vitro parameters of underlying airway inflammation and remodelling. The mannitol provocation test with Forced Oscillation Technique (FOT) was used to derive potential dose-differentiating endpoints. In vitro inflammatory markers were measured in alveolar macrophages from bronchoalveolar lavage. Basement membrane thickness was measured from bronchial biopsies. Eleven nonasthmatic subjects were enrolled for comparison. This thesis addresses the null hypothesis that there is no significant difference in clinical and biological effects between low dose (200mcg/day, n=11) and high dose (1000mcg/day, n=11) treatment (for 6-7 weeks) with inhaled fluticasone propionate (FP) for a range of clinical outcomes and in vitro markers of airway inflammation and remodelling. Significant changes after FP included increased FEV1, reduced airway hyperresponsiveness (AHR) (by FOT and FEV1), exhaled nitric oxide and Juniper symptom score. In addition, significant reductions occurred in expression of GM-CSF, TNF-alpha and IL-1ra in macrophages. A lower baseline FOT-derived respiratory system conductance was predictive of a greater degree of improvement in symptoms. No statistically significant differences in the changes after treatment between low and high dose FP were found in spirometry, exhaled nitric oxide, symptom scores, AHR, alveolar macrophage cytokine levels (GM-CSF, TNF-alpha, IL-1ra, IL-10) and basement membrane thickness, although there were trends towards greater improvements in many of the parameters after high dose FP. Basement membrane thickness appeared to be reduced by high dose FP, although this reduction was not statistically significant. There was a weak, but statistically significant, negative correlation between basement membrane thickness and FOT-derived conductance (r2=0.135, p=0.042). With the recognition of the limitations in the interpretation of these data, the results suggest that, in previously steroid naïve mild to moderate asthmatics, there may be only minimal benefit derived from an additional 800µg/day of inhaled fluticasone above the low dose of 200µg/day.

asthma

corticosteroid

dose response

cytokine

basement membrane

spirometry

inflammation

airway hyperresponsiveness

mannitol

nitric oxide

GM-CSF

TNF-alpha

IL-1ra

IL-10

FOT

forced oscillation technique

bronchoalveolar lavage

alveolar macrophage

bronchial biopsy

respiratory system conductance

bronchial challenge

response dose ratio

provocative dose