A signaling mechanism for growth-related expression of fetal hemoglobin

Abstract

Increases in fetal hemoglobin have been identified after birth in several clinical settings associated with stressed or malignant erythropoiesis. To better understand the relationship between the expression of this fetal protein and growth, donated human erythroid progenitor cells were cultured in the presence of erythropoietin (EPO) plus the growth-modifying cytokine stem cell factor (SCF), and several growth-related signaling pathways were interrogated. Only the MEK1/2 inhibitor (PD98059) demonstrated significant effects on fetal hemoglobin. In the absence of PD98059, levels of fetal hemoglobin averaged 27. 4% ± 7.9% in EPO+SCF compared with 1.26% ± 1.7% in EPO alone (P = .02). A linear dose response in levels of fetal hemoglobin to PD98059 was detected (0.16 μM = 27.13%, 0.8 μM = 19.6%, 4 μM = 12.2%, 20 μM = 1.54%). Western blot analyses revealed that SCF was required for phosphorylation of MEK and p44MAPK in this setting, and quantitative polymerase chain reaction demonstrated a significant increase in γ-globin mRNA. Particular perturbations of growth-related signaling may also function to activate tissue-specific genes normally expressed during fetal development. This concept may be relevant for the development of new treatment rationales for beta hemoglobinopathies. © 2004 by The American Society of Hematology.