The question as to whether other cell types apart from helper T lymphocytes are capable of producing interleukin-4 (IL-4) has gained much interest over the last years. Recent studies indicate that human basophils also produce IL-4, although direct proof is missing so far. In this study we demonstrate the presence of 1L-4 in the cytoplasm of in vitro activated human peripheral blood basophils derived from normal donors. Cytokine-producing cells were revealed at the single-cell level by intracellular immunofluorescence staining using IL-4-specific monoclonal antibodies. Basophils showed a characteristic, apparently granular staining pattern easily discerned from the eccentric dot-shaped staining pattern in activated T cells used in control experiments. Cell counts following priming with IL-3 and stimulation with polyclonal sheep anti-IgE antibody or the anaphylatoxin C5a revealed a significant increase in IL-4-positive basophils to about 19 % as compared with unprimed, unstimulated control cells (6 %).The amount of IL-4 in the supernatant of these cell preparations paralleled these observations with an at least five-to sevenfold increase following stimulation as compared with control cells (< 5 ng/ml). Using confocal scanning laser microscopy, the intracellular presence of IL-4 was confirmed, and the cells were identified as being basophils on terms of their characteristic multilobed nucleus. This observation was supported by double labeling studies using antibodies to IL-4 and to the high-affinity IgE receptor (FceR1). Interestingly, stimulation of cells led to a decrease in the number of FceR1-positive cells. The above results show direct evidence that IL-4 is produced by activated human basophils.