T Fukuda1, J Asakawa, S Motojima, S Makino. 1. Department of Internal Medicine and Clinical Immunology, Dokkyo University School of Medicine, Tochigi, Japan.
Abstract
BACKGROUND: Although cyclosporine A is proving effective for chronic severe asthma, its mechanism of action in this disease is unclear. OBJECTIVE: This open study was conducted to determine whether cyclosporine A therapy would reduce the degree of airway hyperresponsiveness and T lymphocyte activity. METHODS: After a 6-week run-in period, nine patients with corticosteroid-dependent chronic severe asthma were treated with cyclosporine A (initial dose 5 mg/kg per day) for 12 weeks. RESULTS: Weekly mean morning peak expiratory flow significantly increased in six subjects during the last 6 weeks of trial. Geographic mean PC20-acetylcholine (the provocative concentration of acetylcholine required to cause a 20% fall in FEV1) was 0.147 mg/mL before cyclosporine A treatment and increased to 0.216 mg/mL at 6 weeks and to 0.379 mg/mL at 12 weeks after treatment. The increase at 12 weeks was statistically significant (P < .05). The percentage of CD4-positive T lymphocytes bearing IL-2 receptor (a marker of T cell activation) in the peripheral blood decreased significantly at 6 weeks (P < .05), but returned to baseline value at 12 weeks, probably due to cyclosporine A dose reduction in seven subjects. Serum IgE levels and peripheral blood eosinophil counts, however, which are dependent on IL-4 and IL-5, respectively, were still significantly decreased at 12 weeks, suggesting lymphokine production remained suppressed even after cyclosporine A dose was reduced. CONCLUSION: Taken together, these data suggest that cyclosporine A may act in asthma, at least in part, by inhibition of T lymphocyte activation and by reducing the degree of airway hyperresponsiveness.
BACKGROUND: Although cyclosporine A is proving effective for chronic severe asthma, its mechanism of action in this disease is unclear. OBJECTIVE: This open study was conducted to determine whether cyclosporine A therapy would reduce the degree of airway hyperresponsiveness and T lymphocyte activity. METHODS: After a 6-week run-in period, nine patients with corticosteroid-dependent chronic severe asthma were treated with cyclosporine A (initial dose 5 mg/kg per day) for 12 weeks. RESULTS: Weekly mean morning peak expiratory flow significantly increased in six subjects during the last 6 weeks of trial. Geographic mean PC20-acetylcholine (the provocative concentration of acetylcholine required to cause a 20% fall in FEV1) was 0.147 mg/mL before cyclosporine A treatment and increased to 0.216 mg/mL at 6 weeks and to 0.379 mg/mL at 12 weeks after treatment. The increase at 12 weeks was statistically significant (P < .05). The percentage of CD4-positive T lymphocytes bearing IL-2 receptor (a marker of T cell activation) in the peripheral blood decreased significantly at 6 weeks (P < .05), but returned to baseline value at 12 weeks, probably due to cyclosporine A dose reduction in seven subjects. Serum IgE levels and peripheral blood eosinophil counts, however, which are dependent on IL-4 and IL-5, respectively, were still significantly decreased at 12 weeks, suggesting lymphokine production remained suppressed even after cyclosporine A dose was reduced. CONCLUSION: Taken together, these data suggest that cyclosporine A may act in asthma, at least in part, by inhibition of T lymphocyte activation and by reducing the degree of airway hyperresponsiveness.
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