The fusion of a wide range of proteins to the ligand-binding domain of nuclear receptors has been shown to impart ligand-dependent inducible activity of the resulting chimera. Transcriptional regulators of the ETS family are involved in both normal and oncogenic processes. In order to address the role of Erm, a "PEA3 subgroup" member of this family, we generated a chimera between Erm and the widely used ligand-binding domain of the oestrogen receptor (ER). The chimera, ErmER, consists of Erm protein fused at its C-terminal end to the ER domain. We show that ErmER displays a ligand-dependent transcriptional activity on ets responsive elements. The efficiency of ErmER mediated transactivation is modulated by the hormone concentration while its weak leakiness is reduced by using the steroidal anti-oestrogen EM-139. Our results define ErmER as the first conditional version of an Ets transcription factor, providing a useful tool to decipher Erm biological role and to identify potential Erm target genes.