In recent years two cell populations with down-regulatory immune capabilities have been identified in murine epidermis. The present report demonstrates that even in human epidermis at least two populations of cells expressing suppressor-inducer phenotypes (i.e. CD45R-positive) exist, namely small subsets of keratinocytes and Langerhans' cells, respectively. Highly specific and sensitive 5-nm colloidal gold-immunoelectronmicroscopic techniques were carried out using anti-CD45R monoclonal antibodies, on freshly isolated crude epidermal cell suspensions, and 4000 cells were scrutinized in the electron microscope. Over 2% of the total epidermal cell population was CD45R+. Subpopulation analysis revealed that approximately 2% of keratinocytes and about 5% of the total Langerhans' cell population showed strong gold-plasma membrane staining, whilst the remaining epidermal cells were absolutely negative. Heterogeneity of staining together with this somehow surprising distribution of CD45R positivity on non-lymphoid epidermal cells was confirmed by the negative controls. These CD45R+ Langerhans' cells and keratinocytes are clearly candidates for the cells which have been functionally demonstrated as being capable of inducing down-regulation responsiveness in the human epidermis. However, functional investigations are needed to clarify the roles of the CD45R+ keratinocyte and Langerhans' cell subsets in the modulation of cutaneous immune responses.