FEV acts as a transcriptional repressor through its DNA-binding ETS domain and alanine-rich domain.

Although most Ets transcription factors have been characterized as transcriptional activators, some of them display repressor activity. Here we characterize an Ets-family member, the very specifically expressed human Fifth Ewing Variant (FEV), as a transcriptional repressor. We show that among a broad range of human cell lines, only Dami megakaryocytic cells express FEV. This nuclear protein binds to Ets-binding sites, such as that of the human ICAM-1 promoter. We used this promoter to demonstrate that FEV can repress both basal transcription and, even more strongly, ectopically Ets-activated transcription. We identified two domains responsible for FEV-mediated repression: the ETS domain, responsible for passive repression, and the carboxy-terminal alanine-rich domain, involved in active repression. In the Ets-independent LEXA system also, FEV acts as a transcriptional repressor via its alanine-rich carboxy-terminal domain. The mechanism by which FEV actively represses transcription is currently unknown, since FEV-triggered repression is not reversed by the histone deacetylase inhibitor trichostatin A. We also showed that long-term overexpression of FEV proteins containing the alanine-rich domain prevents cell clones from growing, whereas clones expressing a truncated FEV protein lacking this domain develop like control cells. This confirms the importance of this domain in FEV-triggered repression.

The Ets transcription factor Fev is specifically expressed in the human central serotonergic neurons.

In the mouse and the rat brain, the Ets transcription factor pet-1 is exclusively expressed in the central serotonin (5-hydroxytryptaminergic: 5-HT) system. In pet-1 null mice, the defect of this factor induces early disruption of the 5-HT function, resulting in an increase in anxiety and aggression; thus indicating its pivotal role in this system. Here, we studied the expression of fev, the homologue of pet-1, in the human brain. We showed that this transcription factor is exclusively expressed in the midline part of the human brainstem containing raphe nuclei, which also specifically expressed 5-HT transporter (sert) and tryptophan hydroxylase (tph), two markers of the 5-HT neurotransmitter system. This clearly suggests that fev is expressed in human serotonergic neurons. While the deficiency of the central serotonergic signaling is a major factor involved in the development of some psychiatric disorders, Fev could be a good diagnosis marker as well as a good target for pharmacological treatments of these patients.