Erythropoietin mediates terminal granulocytic differentiation of committed myeloid cells with ectopic erythropoietin receptor expression.
OBJECTIVES: The precise role of hematopoietic cytokine/cytokine receptor interactions in lineage-restricted hematopoietic differentiation giving rise to mature blood cells of diverse function is incompletely defined. To study lineage-specific effects of cytokines during terminal hematopoietic differentiation, we examined the ability of erythropoietin ( Epo) to mediate terminal granulocytic differentiation and induction of myeloid gene expression in committed myeloid cells, engineered to ectopically express Epo receptor (EpoR). METHODS: A cell culture model for granulocyte-macrophage colony stimulating factor (GM-CSF)-mediated granulocytic differentiation was used. EpoR was introduced by retrovirus-mediated gene transfer into multipotential, hematopoietic murine cell line EML, from which GM-CSF-responsive, promyelocytic EPRO cells were generated. In EPRO cells ectopically expressing EpoR, we examined the ability of Epo to mediate granulocytic differentiation and determined whether Epo- mediated neutrophil differentiation is associated with a pattern of myeloid gene expression comparable to that induced by GM-CSF. RESULTS: Studies of EpoR function in myeloid EPRO cells revealed that Epo/EpoR interaction can mediate terminal granulocytic differentiation of committed myeloid cells. In EPRO cells expressing EpoR, Epo- mediated neutrophil differentiation was associated with surface CD11b/CD18 (Mac-1) expression and induction of mRNA expression of specific myeloid genes including lactoferrin, gelatinase and C/EBPepsilon, in a manner similar to GM-CSF-mediated differentiation. CONCLUSIONS: These results indicate that Epo can deliver differentiative signals along a non-erythroid lineage, providing evidence for interchangeable cytokine receptor signals that mediate terminal differentiation of committed myeloid cells.[1]References
- Erythropoietin mediates terminal granulocytic differentiation of committed myeloid cells with ectopic erythropoietin receptor expression. Arcasoy, M.O., Maun, N.A., Perez, L., Forget, B.G., Berliner, N. Eur. J. Haematol. (2001) [Pubmed]
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