ERM, ER81 and PEA3 are three highly related transcription factors belonging to the ETS family. Together they form the PEA3 group within this family. Little data is yet available regarding the roles of these three genes during embryonic development. A prerequisite to investigations in this ®eld is to obtain an accurate spatio-temporal expression map for the erm, er81 and pea3 genes. To this end, we have used in situ hybridization to compare their expression patterns during critical stages of murine embryogenesis. We report that all three genes are expressed in numerous developing organs coming from dierent embryonic tissues. The three genes appeared co-expressed in dierent organs but presented speci®c sites of expression, so that the resultant expression pattern could in fact reveal several distinct functions depending upon isolated and/or various combinations of the PEA3 member expression. These results suggest that erm, er81 and pea3 genes are dierentially regulated, probably to serve important functions as cell proliferation control, tissue interaction mediator or cell dierentiation, all over successive steps of the mouse organogenesis.
The Ets family of transcription factors comprises several members which are involved to regulate gene transcription. Although several consensus binding sites for Ets proteins can be found in a wide series of promoter, only a limited number of them are indeed activated by these transcription factors. The human intercellular adhesion molecule-1 (ICAM-1) plays a crucial role in immune responses by enabling the binding of eector cells to various target cell types. ICAM-1 is constitutively expressed at dierent levels in the absence of stimuli in dierent cell types, and its expression is upregulated by several proin¯ammatory cytokines. We have here examined the transcriptional regulation of human ICAM-1 expression by Ets proteins, and more particularly by ERM, a member of this family of transcription factors. Transient transfection assays revealed that Ets-2 and ERM signi®cantly activate the transcription of ICAM-1 promoter, whereas the less-related Ets family member, Spi-1/Pu.1, failed to do so. Transfection of a series of ICAM-1 promoter deletion mutants together with ERM expression plasmids have shown that an Ets responsive element is located within the ®rst 176 bp upstream from the translational start site. Electrophoretic mobility shift assays and DNase I footprinting analysis have enabled us to identify two Ets binding sites at positions 7158 and 7138 from the ATG, respectively. Site directed mutagenesis of these elements has shown that the distal site is the major element required for the ERM-mediated activation of the ICAM-1 promoter. We can thus conclude that expression of ICAM-1 can be regulated by Ets transcription factors.
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