B-lymphocyte-derived burst-promoting activity is a pleiotropic erythroid colony-stimulating factor, E-CSF. |
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Authors: | L Feldman J G Frazier A J Sytkowski |
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Affiliation: | Laboratory for Cell and Molecular Biology, New England Deaconess Hospital, Boston, MA 02215. |
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Abstract: | Human B-lymphocyte-derived erythroid burst-promoting activity (B-BPA) is a pleiotropic, lineage-specific regulator of erythropoiesis. Our present data indicate that B-BPA plays an important role as an erythroid colony-stimulating factor (E-CSF) in modulating progenitor growth and differentiation throughout erythropoiesis. E-CSF has discrete effects on both early (erythroid burst-forming units, BFU-E) and late (erythroid colony-forming units, CFU-E) progenitors from normal bone marrow. In serum-substituted fibrin clot cultures, E-CSF stimulates the proliferation of BFU-E, resulting in an increase in the number of erythroid bursts over a wide range of erythropoietin (Epo) concentrations. We now have shown that E-CSF also acts on CFU-E by increasing their sensitivity to Epo markedly, resulting in a tenfold left-shift in the Epo dose-response curve. Using purified target-cell populations of human and murine erythroleukemia cells that are Epo-independent for growth, we have found that E-CSF stimulates cell proliferation directly, increasing the plating efficiency of these cells in suspension culture by 50%-165%. B-BPA also increased proliferation of these cells in semi-solid medium. Importantly, the combination of E-CSF and Epo resulted in a profound increase in the growth and maturation of the resultant colonies. Therefore, the data indicate that E-CSF can regulate the growth of cells independently of added Epo and, in addition, can synergize with Epo in regulating the growth and differentiation of erythroid progenitors. |
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