Jacqueline Madden

Cytokine profiles of BAL T cells and T‐cell clones obtained from human asthmatic airways after local allergen challenge

Background: This study assessed the heterogeneity of cytokine expression in asthma before and after local allergen challenge.

Effects of theophylline on inflammatory cells and cytokines in asthmatic subjects: a placebo-controlled parallel group study

The anti-inflammatory effects of oral theophylline on cells in bronchial biopsies of symptomatic atopic asthmatic subjects were investigated. Following a 2 week run-in period, asthmatic subjects were randomly assigned to either placebo (n=11) or theophylline (n=15). Bronchial biopsies were taken at fibre-optic bronchoscopy at the beginning and end of a 6 week period, during which subjects took placebo or theophylline medication at a dose intended to produce therapeutic concentrations. Nine of the placebo subjects and 12 of the theophylline subjects completed the study. Improvement in asthma control was seen in the theophylline-treated group. The mean (SD) theophylline blood level at the end of the study was 10.9 (6.0) microg x mL-1. A significant decrease in interleukin (IL)4 expression from 1.38 to 1.04 cells x mm-2 (<0.05) and a trend to a reduction in IL-5 from 1.29 to 0.48 cells x mm-2 (NS) were seen in biopsies from the theophylline-treated group compared with placebo, although there was no change in mast cell numbers (judged by tryptase expression). A decrease in epithelial CD8+ cells from 2.60 to 0.53 cells x mm-1 of surface (<0.05) was noted. This study shows an anti-inflammatory effect of theophylline in asthmatic bronchi, both in cell numbers and in the expression of IL-4, believed to be an important cytokine in the pathophysiology of asthmatic inflammation. We speculate that theophylline induces downregulation in vivo of cytokine production, accounting for the known inhibitory effect of theophylline on the late asthmatic reaction.

The effects of theophylline on mucosal inflammation in asthmatic airways: biopsy results

Theophylline, a nonspecific phosphodiesterase inhibitor, has only recently been reconsidered as a potential anti-inflammatory drug. Its ability to inhibit late asthmatic responses has pointed to possible inhibition of mechanisms regulating the influx and activity of inflammatory cells into the airways. Increasing evidence points to an anti-inflammatory action of theophylline at doses lower than those necessary for a bronchodilator effect. Withdrawal of theophylline from regular treatment results in an increase both in CD4+ and CD8+ T-cells in the bronchial mucosa and a concomitant decrease in the blood, suggesting that theophylline prevents T-cell trafficking from blood into the airways. Furthermore, pretreatment with theophylline significantly attenuates the influx of eosinophils into the airways associated with an allergen-induced late asthmatic response. In keeping with these observations, in a double-blind, placebo-controlled trial involving mild to moderately severe atopic asthmatics, treatment with theophylline resulted in a significant reduction in the numbers of epithelial CD8+ T-cells. In addition, the numbers of cells containing cytokines, interleukin 4 and 5 (IL-4 and IL-5), decreased in the theophylline-treated group and increased in the placebo-treated group, with the difference between the changes being significant. It would, therefore, appear that theophylline may contribute to asthma control due to its ability to reduce the suppressor/cytotoxic T-cells and cytokines which are relevant to allergic mucosal responses.

Cellular and mediator responses twenty-four hours after local endobronchial allergen challenge of asthmatic airways☆☆☆★★★

The effects of acute allergen exposure on bronchoalveolar lavage cells and mediators and mucosal inflammatory cells were evaluated in 10 subjects with atopic asthma who underwent lavage and biopsy 24 hours after segmental endobronchial allergen challenge. Increased numbers of bronchoalveolar lavage eosinophils were retrieved from the allergen-challenged sites compared with the saline-challenged sites (mean 21.4 vs 1.5 x 10(3) cells/ml; p < 0.02). Numbers of neutrophils and proportions of CD4+, CD8+, CD25+, and HLA-DR+ T cells were similar at the saline- and allergen-challenged sites. In contrast to the bronchoalveolar lavage findings, eosinophil numbers were not increased in the bronchial submucosa or epithelium. There was also no significant difference in neutrophils, mast cells, CD3+, CD4+, or CD8+ T cells in the submucosa after allergen challenge, but the number of activated (CD25+) T lymphocytes in the mucosa did increase after allergen challenge. Allergen challenge did not induce any significant change in endothelial expression of P-selectin, E-selectin, intercellular adhesion molecule-1, or vascular cell adhesion molecule-1. CD11a+ and very late antigen-4+ cell numbers were similar in the saline- and allergen-challenged sites. This study suggests that in patients with very mild asthma, local allergen challenge induces persistent bronchoalveolar lavage eosinophilia, but the recruitment process seems to have diminished or ceased by 24 hours.

Airway endothelin levels in asthma: influence of endobronchial allergen challenge and maintenance corticosteroid therapy

Endothelins (ETs) are 21 amino acid peptides which, in addition to their other properties, are potent bronchoconstrictors. Whilst there is evidence of the involvement of ET in the pathophysiology of chronic asthma, its contribution to the acute allergic response is undefined. To examine this, we have undertaken segmental bronchoprovocation with allergen and saline at separate sites in six atopic asthmatics receiving treatment with bronchodilators only and six atopic asthmatics additionally receiving treatment with inhaled corticosteroids. Each challenged segment was lavaged 10 min after bronchoprovocation and concentrations of immunoreactive ET were measured in bronchoalveolar lavage fluid. In the non-steroid-treated subjects, there were significantly lower ET levels at the allergen-challenged sites compared to the saline-challenged sites (p<0.05). In the steroid-treated subjects, on the other hand, there was no significant difference between the two sites. Levels of ET at the saline-challenged sites were significantly lower in the steroid-treated subjects compared to the non-steroid-treated subjects (p<0.04). These findings do not support the hypothesis that allergen exposure in asthma results in immediate release of endothelin. However, release at later time-points and a role for endothelin in late-phase bronchoconstriction are not excluded.

Cyclosporin A treatment and airways inflammation in corticosteroid‐dependent asthma

Cyclosporin A is a potent immunosuppressive agent which inhibits activation of T cells and other inflammatory ceils. It has been shown to be of clinical benefit in patients with corticosteroid dependent asthma, but there are no data on its in vivo effects on airways inflammation. In this report, we describe the case of a 47‐year‐old man with chronic severe corticosteroid‐dependent asthma who made a dramatic clinical response to therapy with cyclosporin

Persistent airway T-lymphocyte activation in chronic corticosteroid-treated symptomatic asthma

BACKGROUND A small proportion of patients with asthma have persistent symptoms despite regular treatment with high-dose inhaled and/or oral corticosteroids. There is little information regarding immunopathology in such patients. OBJECTIVE To compare airway inflammatory changes in subjects with chronic corticosteroid-dependent symptomatic asthma (n = 5) and subjects with asthma that was clinically well controlled on inhaled corticosteroid therapy (n = 9). Subjects in the corticosteroid-dependent group were receiving long-term treatment with oral prednisolone and high-dose inhaled corticosteroids. METHODS Subjects underwent fiberoptic bronchoscopy with bronchoalveolar lavage (BAL) and bronchial biopsy. T-lymphocytes subsets and activation markers in BAL fluid and peripheral blood were determined by FACS analysis. Bronchial biopsies were stained immunohistochemically, and numbers of inflammatory cells quantitated. Inflammatory mediators in BAL fluid were measured by immunoassay. RESULTS There was significantly greater expression of CD25 (P = .02) and HLA-DR (P = .04) by BAL fluid T-lymphocytes in corticosteroid-treated symptomatic asthmatics. In bronchial biopsies there were no significant differences between the two groups in the numbers of AA1+ cells (mast cells), EG2+ cells (eosinophils) or MT1+ T-lymphocytes. Levels of albumin, histamine, tryptase, and eosinophil cationic protein in BAL fluid did not differ significantly between groups. CONCLUSIONS Chronic corticosteroid-treated symptomatic asthma is associated with persistent airway T-lymphocyte activation. This, however, is not necessarily accompanied by the recruitment and activation of inflammatory cells within the airways.

Intracellular Cytokine Staining for Analysis by Flow Cytometry

To determine the function of a particular cell type, it is necessary either to have a large number of similar (ideally identical) cells or to use extremely sensitive methods to detect the activity of a single cell. Lymphocytes present special difficulties, because they have very precise antigen (Ag) recognition requirements, and, under physiological conditions, they will only be activated if they are exposed to their particular Ag. Polyclonal mitogens, such as phytohemagglutinin (PHA) or anti-CD3, will activate most T-cells, but may not elicit a truly physiological response in terms of cytokine production, and so on. Moreover, the biological readout (release of cytokines into culture supernatant) will represent the net balance of the integrated response of all the activated cells, minus any consumption of cytokines by the cultured cells.