Interactions between epithelial, mesenchymal, and neural tissue and also the extracellular matrix are necessary to initiate numerous cellular functions of the lung (1). The most common of these functions include differentiation during lung growth, repair of damaged tissue, and regulation of the inflammatory response. Each of these processes requires a localized response to a specific stimulus. Fibroblasts, especially those in close proximity to the airway epithelium, are likely regulators of local responses. In a recent commentary, Smith and colleagues discussed the possibility that resident fibroblasts may act as sentinel cells for these responses (2). In addition to their role as connective tissue cells, fibroblasts also produce cytokines and chemokines in response to various stimuli. Their fixed position in the tissue suggests that they can respond in a local manner to bacterial products, tissue injury, or other environmental factors. The relationship between cytokines and inflammatory cells in asthmatic airways also indicates a similar role for fibroblasts. In the asthmatic lung, the fibroblast plays a key role as a resident mesenchymal cell beneath the epithelium, receiving and sending information to epithelial and inflammatory cells (3, 4). Additionally, these fibroblasts are thought to be responsible for the subepithelial fibrosis associated with asthma. The significance of resident fibroblasts in the airway during inflamation has been described; however, the concept of an anatomically distinct group of fibroblasts associated with airway epithelium has not been explored.

In 1990, Brewster and associates described a layer of subepithelial fibroblasts in the bronchi of normal and asthmatic human subjects that were positioned to allow close interaction with the epithelium, neural tissues, and extracellular matrix (5). The population of cells was shown to comprise fibroblasts and myofibroblasts, and individual cells were reported to be as large as 100 μm in diameter. A detailed description of the subepithelial layer of resident fibroblasts in the rat trachea was reported by Evans and coworkers (6). In tissue sections, the cells appear as a layer of attenuated cell processes closely opposed to the lamina reticularis of the basement membrane zone, about 1.9 μm