Abstract
During erythropoiesis, erythropoietin stimulates induction of erythroid transcription factors that activate expression of erythroid genes including the erythropoietin receptor (EPO-R) that results in increased sensitivity to erythropoietin. DNA binding of the basic helix-loop-helix transcription factor, TAL1/SCL, is required for normal erythropoiesis. A link between elevated TAL1 and excessive erythrocytosis is suggested by erythroid progenitor cells from a patient that exhibits unusually high sensitivity to erythropoietin with concomitantly elevated TAL1 and EPO-R expression. We found that TAL1 regulates EPO-R expression mediated via three conserved E-box binding motifs (CAGCTG) in the EPO-R 5' untranslated transcribed region. TAL1 increases association of the GATA-1·TAL1·LMO2·LDB1 transcription activation complex to the region that includes the transcription start site and the 5' GATA and 3' E-box motifs flanking the EPO-R transcription start site suggesting that TAL1 promotes accessibility of this region. Nucleosome shifting has been demonstrated to facilitate TAL1 but not GATA-1 binding to regulate target gene expression. Accordingly, we observed that with induced expression of EPO-R in hemotopoietic progenitor cells, nucleosome phasing shifts to increase the linker region containing the EPO-R transcription start site and TAL1 binds to the flanking 5' GATA and 3' E-box regions of the promoter. These data suggest that TAL1 binds to the EPO-R promoter to activate EPO-R expression and provides a potential link to elevated EPO-R expression leading to hypersensitivity to erythropoietin and the resultant excessive erythrocytosis.