Comparison of the estrogen responsiveness of the rat and bovine oxytocin gene promoters

DNA sequences in the 5'-flanking region of rat and bovine oxytocin genes were examined for their capacity to confer estrogen responsiveness to their homologous promoters. In contrast to the 5'-flanking region of the rat oxytocin gene, upstream promoter sequences up to 3200 bp of the bovine gene linked to the chloramphenicol acetyltransferase (CAT) reporter gene which were transfected in estrogen receptor expressing MCF-7 cells did not respond to estrogen. Testing 5'-deletion mutants of the rat upstream region linked to the luciferase gene in P19 embryocarcinoma cells co-transfected with an estrogen receptor expression plasmid showed that two regions each associated with approximately 15-fold stimulation of promoter activity were located between nucleotides -172 and -149 and between -148 and +16 in the rat gene. The former region contains the imperfect palindrome GGTGACCTTGACC which differs in one nucleotide from the estrogen response element (ERE) consensus. It is concluded that the corresponding motive CATAACCTTGACC of the bovine gene is not a functional ERE. Thus, the estrogen responsiveness of oxytocin genes is species-dependent.     

Stability of the ligand-estrogen receptor interaction depends on estrogen response element flanking sequences and cellular factors

To determine whether accessory proteins mediate the ligand- and DNA sequence-dependent specificity of estrogen receptor (ER) interaction with DNA, the binding of partly purified vs highly purified bovine ER to various estrogen response elements (EREs) was measured in the presence of different ER ligands. Partly purified estradiol-liganded ER (E₂-ER) binds cooperatively to stereoaligned tandem EREs flanked by naturally occurring AT-rich sequences, with a stoichiometry of one E₂-ER dimer per ERE. In contrast, highly purified E₂-ER binds with a 10-fold lower affinity and non-cooperatively to EREs flanked by the AT-rich region. Moreover, the binding stoichiometry of highly purified E₂-ER was 0.5 E₂-ER dimer, or one monomer per ERE, independent of the ERE flanking sequence. Interestingly, the binding of ER liganded with the antiestrogen 4-hydroxytamoxifen (4-OHT-ER) was non-cooperative with an apparent stoichiometry of 0.5 4-OHT-ER dimer per ERE, regardless of ER purity or ERE flanking sequence. We recently showed that when 4-OHT-ER binds DNA, one molecule of 4-OHT dissociates from the dimeric 4-OHT-ER-ERE complex, accounting for the reduced apparent binding stoichiometry. In contrast, ER covalently bound by tamoxifen aziridine (TAz) gave an ERE binding stoichiometry of one TAz-ER dimer per ERE, and TAz-ER binds cooperatively to multiple AT-rich EREs, regardless of the purity of the receptor. We have obtained evidence that purification of ER removes an accessory protein(s) that interacts with ER in a sequence- and/or DNA conformational-dependent manner, resulting in stabilization of E₂, but not 4-OHT, in the ligand binding domain when the receptor binds to DNA. We postulate that retention of ligand by ER maintains the receptor in a conformation necessary to achieve high-affinity, cooperative ERE binding.     

Two elements of the rat prolactin 5' flanking region are required for its regulation by estrogen and glucocorticoids

The 5'-flanking region of the rat prolactin gene contains two DNase I-hypersensitive (HS) sites. We used gene transfer experiments to determine the nucleotide (nt) sequences within and around these two HS sites that may contain the information necessary for regulation of prolactin gene expression by estrogens and glucocorticoids. A chimeric gene construct (pPRL.CAT) was prepared by covalently linking the sequence of the rat prolactin gene to the bacterial chloramphenicol acetyltransferase-coding gene, cat. Rat GH3 cells were transfected with pPRL.CAT and six mutants that possess deletions within and around the two HS sites. Incubation of such transfectants with estrogen or dexamethasone indicated the existence of two functionally important elements within the 5'-flanking region of the rat prolactin gene. The element required for estrogen up-regulation of the prolactin gene is located between nt residues -1530 through -1950. The glucocorticoid down-regulatory element is located between nt -200 and +75.