Asthma is considered to be a chronic inflammatory disease of the airways and is highlighted by excessive airway narrowing in response to various stimuli. Subepithelial fibrosis and increased airway smooth muscle mass are characteristic pathological features of the disease. Airway remodelling in asthma involves cellular hyperplasia and hypertrophy of bronchial myocytes. Smooth muscle cells from a variety of tissues have been shown to be multifunctional mesenchymal cells capable of expressing considerable phenotypic plasticity in vivo in response to injury and pathological stimuli. The growth response of vascular smooth muscle cells following arterial injury has been fairly well characterized, and it appears many of the chemical mediators responsible are common to the inflamed bronchi seen in asthmatics. Specific studies regarding the effects of phenotypic modulation of airway smooth muscle and the potential contribution of this phenomenon to the pathogenesis of chronic asthma have not been carried out. Limited evidence, some indirect, suggests that contractile properties of smooth muscle from inflamed tissues are altered; if this is the case in asthma, then considerations of the effects of airway smooth muscle hypertrophy should be broadened beyond that of only contributing to bronchial hyperresponsiveness via an increase in bronchial wall thickness. Recruitment and modulation of smooth muscle cells to functionally different phenotypes, which contribute to fibrosis by secreting extracellular matrix materials and promote cellular hyperplasia by producing growth factors, are known to occur in atherogenic blood vessels; and evidence suggests that airway smooth muscle cells might play a similar role in asthma. We report the identification of markers of differentiation for airway smooth muscle cells. These markers should be useful tools in the elucidation of phenotypic heterogeneity of smooth muscle in asthmatic airways and, thereby, allow for the definition of a clearer role for bronchial smooth muscle cells in the pathogenesis of chronic asthma.