Transcriptional control by steroid hormones.

Gene regulation by steroid hormones leads to induction or repression of particular sets of genes. These effects are mediated by intracellular hormone receptors that, in the unliganded state, are maintained in an inactive form by unknown mechanisms possibly involving association with other cellular proteins. Induction of the mouse mammary tumor virus (MMTV) requires binding of the hormone receptor to a complex hormone-responsive element (HRE) located between 75 and 190 bp upstream from the start of transcription. The interaction of several receptor molecules with the four receptor binding sites in the HRE is highly cooperative on circular DNA molecules and each individual site is needed for optimal induction. In chromatin the HRE is precisely organized in phased nucleosomes. Following hormone treatment and receptor binding, changes in chromatin structure are detected that correlate with binding of transcription factors, including nuclear factor I, to the MMTV promoter. However, though nuclear factor I acts as a basal transcription factor on the MMTV promoter it does not cooperate with the hormone receptors in terms of binding to free DNA, and mutation of the nuclear factor I binding site does not eliminate hormonal stimulation. This residual induction is mediated by octamer motifs, upstream of the TATA box, that bind the ubiquitous transcription factor OTF-1. Mutation of these octamer motifs does not influence basal transcription in vitro, but completely abolishes the stimulatory effect of progesterone receptor.

Nucleosome positioning modulates accessibility of regulatory proteins to the mouse mammary tumor virus promoter.

Minichromosomes containing the MMTV hormone responsive element (HRE) exhibit precisely positioned nucleosomes. Chromatin reconstitution of short HRE DNA fragments also results in precise positioning of nucleosomes as revealed by footprinting, which suggests that information for nucleosome phasing is contained within this short sequence. While hormone receptors bind naked DNA and reconstituted nucleosomes with similar affinities (3- to 5-fold difference), NFI, a transcription factor essential for efficient utilization of the MMTV promoter, binds naked DNA very tightly but does not bind the nucleosomally organized promoter. Hormone receptor binding to the MMTV nucleosome does not dissociate the nucleosome but leads to greater accessibility of the promoter-proximal end to exonuclease III. Precise positioning of one nucleosome over the MMTV promoter could repress transcription by preventing NFI binding in the absence of hormone, while still allowing interaction of activated hormone receptor with HRE.

Nuclear factor I acts as a transcription factor on the MMTV promoter but competes with steroid hormone receptors for DNA binding.

Several steroid hormones induce transcription of the mouse mammary tumor virus (MMTV) promoter, through an interaction of their respective receptors with the hormone responsive elements (HREs) in the long terminal repeat (LTR) region. The molecular mechanism underlying transcriptional activation is not known, but binding of nuclear factor I (NFI) to a site adjacent to the HRE appears to be required for efficient transcription of the MMTV promoter. In JEG-3 choriocarcinoma cells the MMTV promoter is transcribed inefficiently, even after transfection of the receptor cDNA and treatment with glucocorticoids or progestins. These cells contain low levels of NFI as cotransfection of NFI cDNA enhances MMTV transcription and this effect is inhibited by mutation of the NFI binding site. In DNA binding experiments with purified NFI from pig liver, the glucocorticoid and progesterone receptors do not co-operate but rather compete with NFI for binding to their respective sites on the LTR. Similar results are obtained with a functional recombinant NFI synthesized in vitro. Competition for DNA binding is probably due to steric hindrance as the DNase I footprints of the hormone receptors and NFI do overlap. These results suggest that, though NFI acts as a transcription factor on the MMTV promoter, transcriptional activation does not take place through a direct facilitation of DNA binding of NFI by steroid hormone receptors.

Ubiquitous transcription factor OTF-1 mediates induction of the MMTV promoter through synergistic interaction with hormone receptors.

Steroid hormones induce transcription from the mouse mammary tumor virus (MMTV) promoter by complex mechanisms requiring binding of the hormone receptors to the hormone responsive element (HRE) of the long terminal repeat region. Here we show that the MMTV promoter contains two degenerated octamer motifs immediately upstream of the TATA box that together bind OTF-1 (Oct-1, NFIII) with an affinity similar to the octamer consensus. In transfection experiments, mutation of these octamer motifs interferes with the hormonal response of the MMTV promoter. In vitro, these mutations do not influence basal transcription but completely abolish the stimulatory effect of purified progesterone receptor. Progesterone receptor and glucocorticoid receptor bound to the HRE facilitate binding of OTF-1 to the two octamer motifs. Thus, OTF-1 is a natural mediator of hormonal induction of the MMTV promoter and acts through cooperation with the hormone receptors for binding to DNA.