Evidence for Distinct DNA Binding Forms of the Erythroid-Specific Transcription Factor NF-E2

Abstract

The transcriptional activity of the beta-globin genes is regulated by a complex genetic element, the locus control region (LCR), at the 5'-end of the beta-globin locus. Tandem binding sites for the erythroid-specific transcription factor NF-E2 are important for the transcriptional activation function of the LCR. We discovered that vanadate strongly stimulates the DNA binding activity of NF-E2 in crude and fractionated nuclear extracts. The other oxyanions, molybdate and tungstate, do not affect NF-E2 DNA binding. Quantitative DNA binding experiments indicated that vanadate stimulates NF-E2 DNA binding by increasing the number of NF-E2 molecules that are competent to bind to DNA, rather than influencing the affinity of binding. Gel filtration analysis revealed a similar Stokes' radius for NF-E2, in the absence or presence of vanadate, inconsistent with a role for vanadate in stabilizing the heteromeric NF-E2 complex. Distinct NF-E2 forms, which were either weakly or strongly induced by vanadate, were resolved by cation and anion exchange chromatography. A model is proposed in which two conformers of NF-E2 share an identical subunit composition, but differ in DNA binding activity. Vanadate may interact directly with one of the conformers to generate the high-affinity DNA binding state. The presence of a non-DNA binding pool of NF-E2 suggests that the formation of an active NF-E2 heteromer may be a regulated step in the cell.