Far upstream sequences regulate the human prolactin promoter transcription

in Neuroendocrinology (2000), 71(2), 124-37

The human prolactin gene is mainly expressed in pituitary lactotrope cells, but transcription from an alternative, far upstream promoter was detected in lymphoid, placental and mammary cells. We describe ... [more ▼]

The human prolactin gene is mainly expressed in pituitary lactotrope cells, but transcription from an alternative, far upstream promoter was detected in lymphoid, placental and mammary cells. We describe the transcriptional activity in rat pituitary cells of the complete region separating the two promoters, using transient transfection experiments. A far upstream activating region was only functional in combination with the prolactin promoter. DNaseI protection experiments revealed, in addition to binding sites for the pituitary-specific factor Pit-1, sites (e.g. SD1) for several ubiquitous factors and one lymphoid-specific factor (SD4). A single copy of the ubiquitous site SD1 or the lymphoid-specific site SD4 was unable to activate transcription of a heterologous promoter in pituitary cells. However, SD1 activated transcription in nonpituitary cells and SD4 was functional specifically in lymphoid cells. Five copies of a distal site (D8) activated transcription in each cell type tested. Gel retardation experiments show that this site binds the specific factor C/EBP in liver and a distinct factor in other cell types. Our results suggest that different elements within this large region direct specific expression from each promoter via a complex interplay between cell-specific and ubiquitous transcription factors. [less ▲]

The tilapia prolactin I gene: evolutionary conservation of the regulatory elements directing pituitary-specific expression

in DNA & Cell Biology (1996), 15(8), 679-92

To study the elements involved in the pituitary specific transcriptional regulation of the tilapia prolactin I gene (tiPRL I), we have cloned and entirely sequenced a 3.4-kb genomic fragment immediately ... [more ▼]

To study the elements involved in the pituitary specific transcriptional regulation of the tilapia prolactin I gene (tiPRL I), we have cloned and entirely sequenced a 3.4-kb genomic fragment immediately upstream from the first exon. In footprinting experiments, three tilapia sequences are protected from DNase I digestion by rat pituitary extracts (base pair coordinates -643 to -593, -160 to -111, and -73 to -46). Computer analysis of the nucleotide sequence reveals significant homology to mammalian binding sites for Pit-1, a transcription factor that is known to mediate pituitary-specific expression of the PRL genes in mammals. The tiPRL I 5'-flanking sequences can direct transient expression of a linked luciferase reporter gene in transfected rat pituitary cell lines and tilapia pituitary primary cell cultures. Transient expression experiments with 5'-deletion mutants reveal three regulatory regions. Two have a stimulatory effect on transcription and one an inhibitory effect. Electrophoretic mobility-shift assays (EMSA) demonstrate that the rat Pit-1 factor specifically binds to tilapia DNA sequences. Several such tilapia Pit-1 binding sites mediate activation of a linked heterologous promoter in transfected rat and tilapia pituitary cells. As evidenced by EMSA, a Pit-1-like protein is present in tilapia pituitary extracts. All these data point to a high conservation of the molecular mechanisms involved in pituitary-specific expression of the PRL genes in vertebrates. [less ▲]

Cyclosporin A, rapamycin and FK506 decrease prolactin release from rat pituitary cells in primary culture

in Endocrine Research (1995), 21(3), 623-33

It is at present well established that prolactin exerts a non-specific immunoactivating function. In this work we tested whether the immunosuppressant drugs cyclosporin A, FK506 and rapamycin influence ... [more ▼]

It is at present well established that prolactin exerts a non-specific immunoactivating function. In this work we tested whether the immunosuppressant drugs cyclosporin A, FK506 and rapamycin influence prolactin release from rat pituitary cells in primary culture. The tested drugs had no effect on the prolactin release measured during a 2h incubation period, indicating that they do not influence the secretion of prolactin from intracellular stores into the culture medium. During longer incubation times (48h), however, prolactin release was diminished to 56% +/- 18 (10 microM cyclosporin A), 64% +/- 14 (1 microM rapamycin) or 64% +/- 7 (1 microM FK506), suggesting an effect on prolactin production. At these drug concentrations no toxic effects were observed. The data indicate that inhibition of pituitary prolactin synthesis might contribute to the immunosuppressant action of cyclosporin A, rapamycin and FK506. [less ▲]

A TEF-1 binding motif that interacts with a placental protein is important for the transcriptional activity of the hCS-B enhancer

in DNA & Cell Biology (1994), 13(10), 1037-45

The transcriptional activity of the human placental lactogen genes (choriosomatomammotropic hormone, hCS) is controlled by tissue-specific enhancers located 4 kb downstream from their respective origins ... [more ▼]

The transcriptional activity of the human placental lactogen genes (choriosomatomammotropic hormone, hCS) is controlled by tissue-specific enhancers located 4 kb downstream from their respective origins of transcription. The hCS-B enhancer is the strongest; its activity is mediated by synergism between two protein-binding sites (DF-3 and DF-4). The DF-4 site possesses a potential binding sequence for TEF-1, a known transcription factor. In this paper, we show by electrophoretic mobility-shift assays and antibody supershift experiments that TEF-1 does not bind to site DF-4. Mutations in the TEF-1-like binding motif of site DF-4 prevent formation of the DNA-protein complex, called complex f, in the presence of placental JEG-3 cell extracts. When HeLa cell extracts are used, another complex (complex c) is also affected. In transient expression experiments, TKCAT constructs linked to this mutated DF-4 site exhibit greatly reduced transcriptional activity when introduced into JEG-3 cells. Some cell lines contain both protein c and protein f (the proteins forming complexes c and f); when transfected, these lines display reduced DF-4-driven activity, suggesting that the two proteins could compete for the same DF-4 sequence. We conclude that protein f is important for the placenta-specific activity of the hCS-B enhancer. By UV cross-linking, we show that protein f is actually three polypeptides ranging in size from about 12 to 21 kD. [less ▲]

The Transcriptional Regulation of the Growth Hormone Gene Is Conserved in Vertebrate Evolution

in Biochemical and Biophysical Research Communications (1993), 192(3), 1360-1366

Growth hormone (GH) gene expression in mammals is regulated by the interaction of the transcription factor Pit-1 with two binding sites within the proximal promoter. Four sequences, homologous to the ... [more ▼]

Growth hormone (GH) gene expression in mammals is regulated by the interaction of the transcription factor Pit-1 with two binding sites within the proximal promoter. Four sequences, homologous to the mammalian Pit-1 motif occur in the rainbow trout (Oncorhynchus mykiss) GHII (rtGH) gene promoter, two of which partly overlap. The three regions containing these putative Pit-1 binding sequences were protected from deoxyribonuclease I digestion by nuclear extracts of GC cells, a rat pituitary tumor cell line producing Pit-1. In gel shift assays, nuclear proteins from GC cells and from trout pituitaries were found to interact specifically with one of these protected sites. Transfection experiments showed that the rtGH promoter is transcnptionally active in GC cells, the response being strongly enhanced in the presence of a cAMP analogue. The results demonstrate that rat Pit-1 binds to and activates the rtGH promoter, indicating that the basic mechanisms regulating GH gene transcription have been conserved between fish and mammals. [less ▲]

Efficient lipofection of human trophoblast cells in primary cultures

in Biochemical and Biophysical Research Communications (1993), 196(1), 376-81

Human choriosomatomammotropic hormone, also known as placental lactogen, is expressed in syncytiotrophoblast cells of the placenta. Studying transcriptional regulation of the genes coding for this hormone ... [more ▼]

Human choriosomatomammotropic hormone, also known as placental lactogen, is expressed in syncytiotrophoblast cells of the placenta. Studying transcriptional regulation of the genes coding for this hormone, we became interested in transfecting primary cultures of these trophoblast cells. In this study, we show that it is possible to transfect, by the lipofection method, these giant cells in an efficient and reproducible manner. We show the presence of an enhancer region downstream from the hCS-B gene, functionally active in these cells; furthermore, we demonstrate the placenta-specific characteristic of this enhancer, previously identified in a human choriocarcinoma cell line. [less ▲]

Multihormonal regulation of the human prolactin gene expression from 5000 bp of its upstream sequence

in Molecular & Cellular Endocrinology (1991), 80(1-3), 53-64

We have cloned DNA sequences extending up to 6000 bp upstream from the first exon of the human prolactin (hPRL) gene. 5000 bp of these upstream sequences were fused to a CAT reporter gene and shown to ... [more ▼]

We have cloned DNA sequences extending up to 6000 bp upstream from the first exon of the human prolactin (hPRL) gene. 5000 bp of these upstream sequences were fused to a CAT reporter gene and shown to provide tissue-specific transient expression in rat pituitary GH3 cells. Multihormonal response was found in this transient expression assay, leading to significant 2- to 5-fold induction by addition of 8-chlorophenylthio-cyclic AMP, thyrotropin-releasing hormone, epidermal growth factor, basic fibroblast growth factor, phorbol myristate acetate, a calcium channel agonist (Bay K-8644) and triiodothyronine. A 3-fold inhibition was observed in the presence of the glucocorticoid agonist dexamethasone. The sequence of the hPRL promoter was determined up to coordinate -3470. Computer similarity search between the rat and human sequences showed two highly conserved regions corresponding to the proximal and distal tissue specific enhancers described in both PRL promoters. [less ▲]

Pituitary-specific factor binding to the human prolactin, growth hormone, and placental lactogen genes

in DNA (1989), 8(3), 149-59

The human genes coding for growth hormone (GH), chorionic somatomammotropin (placental lactogen, CS), and prolactin (Prl) are related evolutionarily but are expressed in phenotypically distinct cell types ... [more ▼]

The human genes coding for growth hormone (GH), chorionic somatomammotropin (placental lactogen, CS), and prolactin (Prl) are related evolutionarily but are expressed in phenotypically distinct cell types despite their nucleotide sequence homology. We show here that the promoters of the human Prl and CS genes contain cis-acting sequences that confer pituitary-specific expression in a cell-free transcription assay. Similar data are obtained with the human GH gene, consistent with earlier work by others. Footprinting analysis shows that neighboring sequences in each of these three promoters are protected from deoxyribonuclease I digestion by rat pituitary cell extracts. Footprinting competition experiments and gel retardation assays with synthetic oligonucleotides suggest that a single factor is responsible for the pituitary-specific footprints seen on the human Prl, CS, and GH genes. They also suggest that this factor is identical or closely related to the trans-acting factor GHF-1/Pit-1. Similarities with and differences from the rat GH and Prl genes are discussed. [less ▲]

Discrepancy between prolactin (PRL) messenger ribonucleic acid and PRL content in rat fetal pituitary cells: possible role of dopamine

in Molecular Endocrinology (1988), 2(12), 1163-8

Data are controversial concerning the time when PRL-synthesizing cells are detected for the first time in the rat pituitary. Using a very sensitive immunocytochemical technique, we could visualize only a ... [more ▼]

Data are controversial concerning the time when PRL-synthesizing cells are detected for the first time in the rat pituitary. Using a very sensitive immunocytochemical technique, we could visualize only a few PRL cells before day 10 after birth. At that time, pituitary PRL was still 200 times less abundant than in the adult (on a tissue weight basis) whereas PRL mRNA per mg total RNA was only 80 times lower than in the adult. However, by in situ hybridization, we could demonstrate the presence of PRL mRNA in cells from fetal day 18 on. We have also followed the expression of GH gene in rat pituitary cells during development. In contrast to results obtained with PRL cells, quantitative analysis of cDNA probe hybridization to GH mRNA correlated well with measurements of immunostained cells. We found that PRL was released in the blood from fetal day 19 onwards. Thus, at that time PRL is synthesized and secreted but not stored. We therefore measured brain dopamine levels, and the data support the idea that the rise in dopamine levels after birth contributes to PRL storage. We confirmed in vitro that newborn pituitary cells can store PRL when cultured in the presence of dopamine. [less ▲]

Glucocorticoid receptors bound to the antagonist RU486 are not downregulated despite their capacity to interact in vitro with defined gene regions

in Journal of Steroid Biochemistry (1987), 26(5), 513-20

Modulation of gene expression by glucocorticoids involves interaction of these hormones with an intracellular receptor followed by 'transformation' of the hormone-receptor complex into a nuclear binding ... [more ▼]

Modulation of gene expression by glucocorticoids involves interaction of these hormones with an intracellular receptor followed by 'transformation' of the hormone-receptor complex into a nuclear binding form. The molecular basis for the antiglucocorticoid action of high-affinity steroid analogues such as RU486 remains controversial. The effects of dexamethasone and RU486 on in vitro and in vivo properties of the receptor were compared using human lymphoblastoid IM-9 cells. In these cells, RU486 fully antagonized the glucocorticoid-specific induction of 5'-nucleotidase activity by dexamethasone. In vitro, however, RU486-bound receptor could be transformed and shown to interact specifically with cloned DNA fragments containing glucocorticoid response elements. These fragments included one from the mouse mammary tumour virus and two from the human growth hormone gene. In vivo, RU486-bound receptor did not behave like dexamethasone-bound receptor. While receptor downregulation, a property of the transformed receptor, was achieved by dexamethasone, this did not occur with RU486. Likewise, RU486 did not affect receptor half-life under conditions when this was shortened by dexamethasone. These seemingly contradictory results can be reconciled by proposing that receptor transformation by agonists involves dissociation of the receptor oligomer to reveal a DNA-binding site that pre-exists on this protein. Although cell-free receptor dissociation and therefore DNA binding can occur even when the receptor is bound to RU486, this steroid maintains receptors in the untransformed state in the intact cell and therefore behaves a glucocorticoid antagonist in vivo. [less ▲]