HU-3 is a bipotential cell line derived from the bone marrow of a patient with megakaryoblastic leukemia. Continuously proliferating cells evolved from cultures supplemented with nutrient medium containing human serum and granulocyte-macrophage (GM) colony-stimulating factor (CSF). Growth and viability of the HU-3 cell line was strictly dependent on the presence of GM-CSF, interleukin-3, or thrombopoietin (Tpo). Independent of the cytokine, the cells constitutively expressed a well-defined megakaryocyte phenotype, with 70-95% of the cells positive for CD4, CD34, and platelet glycoproteins Ib, IIb, and IIIa. Fewer than 10% of the cells had detectable erythroid glycophorin A. Erythropoiesis was induced in HU-3 parental cells and five clones harvested from culture medium containing GM-CSF by replacement of the growth-promoting cytokine with stem cell factor (SCF) and erythropoietin (Epo). During the first week of induction, the proliferating cells slowly acquired erythroid markers. Concomitant with a maturational growth arrest during the second week, there was a rapid accumulation of gamma and beta globin chains and benzidine reactive hemoglobin, as well as a distinct erythroid morphology. The culture declined after 12 days because of the transient effect of SCF in maintaining viability. Parental and cloned cells cultured for 7 days in Tpo-supplemented medium responded to the synergistic growth effect of SCF and Epo but were markedly suppressed in their yield of hemoglobinized cells. Recycling of the cells in GM-CSF for 4 days did not reverse the suppressive effect of Tpo. These results suggest a role for Tpo in the lineage commitment of erythromegakaryocytic progenitors by suppressing the erythroid potential. With its constitutive megakaryocyte phenotype and inducible erythroid potential, the self-renewing bipotential HU-3 cell line may represent one of the earliest stages in megakaryocytopoiesis before irreversible lineage commitment. The suppressive effect of Tpo on the erythroid potential of cloned HU-3 cells enhances the value of this cell line for deciphering the molecular and cellular events during lineage commitment of progenitor cells.