Cultured dermal papilla cells of the rat vibrissa follicle. Proliferative activity, adhesion properties and reorganization of the extracellular matrix in vitro.

The dermal papilla of the mammalian hair follicle plays an important role in regulating and controlling the hair cycle. Distinct functional stages of dermal papilla cells (DPC) are involved in this process, thus suggesting that the dermal papilla is a highly specialized suborgan of the pilosebaceous unit. The aim of the present study was to investigate the functional properties of cultured DPC in various assays and to compare their functional properties with those of dermal fibroblasts (DFB). In monolayer cell cultures DPC showed an aggregative growth pattern, different to that of DFB, and lower proliferation rates, as compared to the controls. Adhesion assays performed using a 51[Cr]labeling method showed strong adhesion of both cell populations to collagen types I and IV, fibronectin and laminin, but DPC in vitro showed significantly higher adhesiveness to collagen type IV, a major component of the basement membrane of dermal papillae in vivo. The capacity of DPC to reorganize extracellular matrix components, as measured by gel contraction with three-dimensional collagen type I lattices, proved to be significantly lower than that of DFB and, moreover, DPC lysed the collagen lattices completely after 48 h in culture. The functional differences between DPC and DFB were paralleled by higher surface expression and synthesis levels of the beta 1, alpha 1, and alpha 5 chains of integrin adhesion receptors in DPC, as detected by fluorescence-activated cell-sorter analysis and radioimmunoprecipitation. These findings provide evidence that DPC are a highly specialized cell population, which clearly differs from another mesenchymal cell type, DFB. After their isolation and cultivation in vitro, DPC still preserve functional properties related to important steps of cell-matrix interaction involved in the hair cycle.