Murine interleukin-3 (IL-3) has extensive N-linked glycosylation. Experiments were performed to determine whether the T cell-derived glycosylated IL-3 differs in its biological activity in vivo when compared with a chemically synthesized form of nonglycosylated IL-3. Groups of mice were treated by intravenous injection with identical units of IL-3 bioactivity as determined in vitro in a cell-proliferation assay. Mice that were treated with seven 5000-unit doses of either form of IL-3, given in 12-hour intervals, showed a small but significant increase in the frequency of mast cell precursor cells in the spleen and of IL-3-responsive colony-forming unit cells (CFU-C). There was no difference in potency of glycosylated and nonglycosylated IL-3. Induction, by IL-3, of histidine decarboxylase in bone marrow and spleen cells was used as a second measure for IL-3 bioactivity. Both IL-3 preparations showed good in vivo histidine decarboxylase inducing activity; however, T cell-derived glycosylated IL-3 was significantly more effective than synthetic IL-3 in inducing the enzyme histidine decarboxylase in bone marrow and in spleen cells. Pharmacokinetic studies showed that chemically synthesized IL-3 was cleared about twice as fast as the T cell-derived IL-3 and that there may be some tissue trapping of glycosylated IL-3. The shorter in vivo half-life of nonglycosylated IL-3 appears to have significant pharmacological consequences on the short-term effect of inducing histidine decarboxylase activity, but not on the effect of the long-term treatment of IL-3 on stimulating the increase of hematopoietic progenitor cells.