Because of their known myelopoietic activities, both interleukin (IL)-3 and IL-1 are often used in combination with other cytokines for in vitro (ex vivo) expansion of stem cells. We have investigated the effects of IL-3 and IL-1 on in vitro expansion of murine hematopoietic stem cells with long-term engraftment capabilities, using a highly purified progenitor population. Lineage-negative, Ly-6A/E+, c-kit+ bone marrow cells from male mice were cultured in suspension in the presence of stem cell factor, IL-6, IL-11, and erythropoietin with or without IL-3 or IL-1. Kinetic studies revealed an exponential increase in total nucleated cells and about 10-fold enhancement of nucleated cells by IL-3 during the initial 10 days. Addition of IL-3 hastened the development but significantly suppressed the peak production of colony-forming cells. Addition of IL-1 also significantly suppressed the numbers of colony-forming cells. The reconstituting ability of the cultured cells was tested by transplanting the expanded male cells into lethally irradiated female mice. The cells expanded from enriched cells in the absence of IL-3 and IL-1 revealed engraftment at 2, 4, 5, and 6 months, whereas addition of IL-3 or IL-1 to the cultures significantly reduced the reconstituting ability. The results suggest that these cytokines may have a modulatory role on the self-renewal of stem cells and further indicate that the use of IL-3 and IL-1 for in vitro expansion of human stem cells needs to be cautiously evaluated.