Abstract
A human leukemic cell line KU 812 was recently established and described as a basophilic cell line. In the present study we show that KU 812 and two of its clones are at least bipotent: in addition to a minor component of basophils, the majority of KU 812 cells belongs to the erythroid cell lineage with a significant percentage (about 15%) of mature hemoglobinized erythroblasts. This terminal differentiation is associated with the synchronized synthesis of the main erythroid proteins, including glycophorins, spectrin beta chain, band 3, and hemoglobin. The predominant hemoglobins are adult, fetal, and Bart's hemoglobin. Adult hemoglobin represented up to 75% of all hemoglobins in the KU 812 F clone in passages containing a high number of mature erythroblasts. Transcripts of all human globin chains were present with ten times less embryonic chain messenger RNA (mRNA) than alpha-, beta- or gamma-chain mRNA. Hemin slightly increased the total hemoglobin production of the cell line, especially gamma-globin chain synthesis, but did not modify the percentage of hemoglobinized cells. Phorbol myristate acetate (PMA) had a complex effect, inducing a proportion of KU 812 cells to adhere to the plastic culture flask. The adherent cell fraction expressed a very low level of specific erythroid proteins, but their ultrastructure was consistent with immature erythroid cells. In contrast, approximately 40% of the nonadherent cells were mature erythroid cells. Cell-sorting experiments showed that this paradoxic effect of PMA is mostly due to cell selection, the more mature cells being unable to adhere. In addition, KU 812 F was found to be sensitive to erythropoietin, which slightly increased its plating efficiency range (from 0% to 50%) in semisolid medium and enhanced hemoglobin accumulation twofold. In binding experiments using 125I erythropoietin, a single class of high-affinity Epo receptors (Kd: 250 pM) was detected by binding with a density of 205 receptors per cell. The KU 812 cell line is therefore a unique model for studying cell commitment toward different hematopoietic lineages and erythroid differentiation.
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