Quantitative and qualitative variation of ETS-1 transcripts in hematologic malignancies.

The ETS family proteins have a conserved DNA-binding domain and act as transcription factors. Three domains have been recently defined in human ETS-1 proteins and their role could depend upon the nature of alternative transcripts according to whether they possess or lack DNA binding and/or transcriptional activation domain and also point mutation that could affect these important domains. Expression of ETS-1 gene is very complex and is controlled at several levels: the initiation of transcription, alternative splicing, post-translational modification, and protein stability. As a selection apparently exists for ETS-1 gene activation in hematopoietic cells, we investigated a relation between quantitative and qualitative ETS-1 expression and leukemogenesis. Using Northern blot, polymerase chain reaction (PCR), and single strand conformation polymorphism (SSCP) methods, we analyzed quantitative and qualitative ETS-1 expression in a variety of hematological pathologies and cell lines of different origin. Two ETS-1 transcripts of 6.8 and 2.7 kb, resulting from differential polyadenylation site utilization and exhibiting different stability, were observed. We identified, in a great number of patients, the four alternative ETS-1 products, but the relative extent significance of the four transcripts was very different from one patient to another. A non-conservative mutation observed in one case of T-cell acute lymphoblastic leukemia (T-ALL) and in the ETS-1 transactivation domain raised the question of suppressor activity for some ETS-1 products, as it is now known that activators and repressors can be encoded by the same gene and consistently co-expressed in vivo.