Human ERG-2 protein is a phosphorylated DNA-binding protein--a distinct member of the ets family.

We describe the identification of the ERG-2 gene products using an antibody raised against recombinant human ERG-2 protein. ERG-2 is a nuclear phosphoprotein and binds to purine-rich sequences (C/G)(C/a)GG-AA(G/a)T. ERG-2 protein, with a half-life of 21 h, is considerably more stable than the short-lived ETS-1 or ETS-2 proteins. Its phosphorylation is stimulated by phorbol myristate acetate (PMA), but not by Ca2+ ionophore treatment. ETS-1 protein is phosphorylated by Ca(2+)-dependent events, whereas ERG-2 protein is phosphorylated by activation of protein kinase C, suggesting their involvement in distinct signal transduction mechanisms. The expression of ERG-2 protein is restricted to few cell types and is high in early myeloid cells, indicating that it may function at an early stage of hematopoietic lineage determination. The DNA-binding sequence for ERG-2 protein is identified by using a random oligonucleotide selection procedure. The selected sequence is very similar to the binding sequence determined for human ETS-1 using the same method. Like other ets proteins, ERG-2 is a sequence-specific DNA-binding protein and is expressed at higher levels in early myeloid cells than in mature lymphoid cells. These results suggest that it may act as a regulator of genes required for maintenance and/or differentiation of early hematopoietic cells.