While most asthma occurs in association with atopy, the relationship of this to clinical expression of the disease is not clearly understood. Allergen provocation causes an immediate bronchoconstriction (early asthmatic reaction) due to the release of mast-cell-derived histamine, prostaglandin D2 and leukotriene C4. The late reaction and attendent increase in bronchial responsiveness are associated with eosinophil influx, activation and mediator secretion, resulting in mucosal swelling in addition to smooth muscle contraction. Endobronchial biopsy and broncho-alveolar lavage have provided compelling evidence that both mast cells and eosinophils contribute to disordered airway function in 'clinical' asthma and that these cells are under the control of T lymphocytes. Topical corticosteroids which produce beneficial clinical effects probably do so by inhibiting those factors that maintain mast cell and eosinophil populations and their enhanced activation. The most likely contenders for these regulatory functions are the cytokines, particularly interleukin-3, -4 and -5.