[No authors listed]
Nuclear factor erythroid 2-related factor 2 (Nrf-2) binds to a specific polyamine responsive element (PRE) in the promoter region of the spermidine-spermine acetyltransferase (SSAT) gene, a key component of the polyamine catabolic pathway. Regulation of SSAT gene transcription requires the additional interaction of Nrf-2 with polyamine modulated factor 1 (PMF-1). Likewise, transcription of the eukaryotic initiation factor 4E binding protein 1 (4E-BP1) gene is regulated in a polyamine-dependent manner, but the actual mechanism has not previously been determined. Analysis of the 5'-flanking sequence of the murine 4E-BP1 gene indicated the presence of several potential PRE sites, which might be involved in regulating its transcription. Our goal in this research was to determine potential interactions between Nrf-2, PMF-1, the human homologue of the Arabidopsis signalosome complex (CSN-7), and these potential PRE sites. Four PCR fragments containing regions with considerable homology (78%) to the human PRE were generated from the 5'-flanking sequence of the mouse 4E-BP1 gene and the fragments were used in electrophoretic gel mobility shift and supershift assays. Purified Nrf-2 interacted with all four of these fragments, and similar gel shifts were observed with both cytoplasmic and nuclear fractions of NIH-3T3 cells. However, polyamine depletion with difluoromethylornithine (DFMO) eliminated the gel shift. Supershift assays indicated that the shift was due to the binding of Nrf-2, and the binding was competitive with a known Nrf-2 binding sequence. Purified PMF-1 did not bind any of the PCR fragments alone, but when added with Nrf-2, decreased the magnitude of the gel shift for one of the fragments (PRE located at -2060 relative to the transcription start site). CSN-7 did not interact with the sequences, nor did it inhibit protein/DNA interaction. These data indicate a possible mechanism by which polyamines enhance the binding of a Nrf-2/PMF-1 complex to the 5'-flanking region of the 4E-BP1 gene. Since polyamines increase expression of the 4E-BP1 gene, it seems likely that formation of this complex is involved in its transcriptional regulation.
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