The availability of a preparation of recombinant human erythropoietin (rEp) prompted us to investigate the role of Ep in the regulation of megakaryocytopoiesis in mice, using experimental procedures by which the effects on the mitotic and post-mitotic compartment of megakaryocytes could be evaluated separately. In agar cultures of murine bone marrow cells, either serum-depleted or serum-supplemented, rEp (0.1-2 U/ml) did not stimulate megakaryocyte colony formation and when it was added to suboptimal amount of spleen cell-conditioned medium (SCM), it failed to show a significant synergistic activity. On the contrary, rEp increased the number of megakaryocytic colonies developed from splenic precursors in the presence of suboptimal amounts of SCM, although it was unable per se to stimulate colony formation. The effects of rEps on megakaryocyte maturation and platelet production were studied in vivo evaluating the incorporation of 75Se-selenomethionine into platelets, the platelet count and platelet size, and the number of megakaryocyte precursors (small acetylcholinesterase positive cells, sAchE) in the bone marrow of mice injected with 1-8 U of rEp. No modification of these parameters was found in comparison with control mice. On the other hand, rEp increased the number of recognizable splenic megakaryocytes in a dose-dependent fashion. These data suggest that rEp has little influence on megakaryocytopoiesis, at least at the doses we used and which are known to elicit a maximal response of erythropoiesis. However, a subset of megakaryocytes with particular kinetic properties, such as those in the spleen of mice, may be responsive to relatively high doses of rEp. The significance of this observation in the overall regulation of megakaryocytopoiesis remains to be determined.