Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of PRL, a member of the GH family of genes, is restricted to the lactotroph cells of the anterior pituitary. The proximal promoter of the rat PRL (rPRL) gene contains four factor-binding sites. Three nonadjacent elements, footprints (FP) I, III, and IV, are separated by an integral number of helical turns and bind a pituitary-specific factor, LSF-1. FP II binds another factor present in pituitary and nonpituitary cells. The mechanisms by which DNA-bound proteins influence RNA polymerase-II activity over large distances are not fully understood, but protein-protein interactions, with looping of intervening DNA, may bring distant sites into close proximity. Here, we demonstrate, using protein titration studies, that LSF-1 binds to the most proximal FP I element with the highest affinity, whereas it binds the more distal elements, FP III and FP IV, with progressively lower affinities. Time-course and salt-sensitivity studies reveal that binding of LSF-1 to all three pituitary-specific rPRL promoter sites occurs rapidly (less than or equal to 1 min) and requires fairly high salt concentrations (greater than or equal to 300 mM KCl) to destabilize protein-DNA interactions. Moreover, once bound, the pituitary nuclear factor(s) induces a conformational change in rPRL DNA structure with greatly delayed kinetics (greater than 15 min) and at a different salt concentration than are required for simply factor binding. Taken together, these data suggest a model in which LSF-1 initially binds fairly rapidly to multiple nonadjacent elements and then interacts with itself or other DNA-bound proteins much more slowly, possibly looping or bending the rPRL promoter.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure-function analysis of the rat prolactin promoter: phasing requirements of proximal cell-specific elements. 192 98

In vitro studies have demonstrated that the estrogen receptor (ER) can bind to the rat PRL estrogen response element (ERE) located 1700 basepairs upstream of the transcriptional start site. However, the mechanism by which the receptor-DNA complex influences the activity of RNA polymerase located in the promoter region is not understood. To begin investigating this process, we developed cell lines derived from GH3 cells that contain steroid-responsive bovine papillomavirus minichromosomes. Within these minichromosomes is a hybrid gene composed of the 5' flanking region of the PRL gene, driving the expression of the Tn5 gene. The episomal PRL DNA sequences responded to 17 beta-estradiol (E2) by increasing the rate of Tn5 gene transcription. Nucleosome mapping experiments using micrococcal nuclease demonstrated that nucleosome-like structures were assembled on the minichromosome in an ordered array separated by 150-200 basepairs of DNA. Novel S1 nuclease as well as DNase-I-hypersensitive sites in the chromatin of the promoter and distal regulatory regions of the episomal PRL gene were detected by indirect end-labeling studies. The nuclease hypersensitive sites in the distal region containing the ERE were modified after treatment of the cells with either E2 or the antiestrogen 4-hydroxytamoxifen. However, only E2 treatment of cells resulted in an increase in the nuclease hypersensitivity of the promoter region and induced gene expression, while antiestrogen treatment had no effect on either parameter. This suggests that complex interactions between factors located at the distal and proximal regulatory regions ultimately determine the transcriptional response of the PRL gene to E2.
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PMID:An interaction between the 5' flanking distal and proximal regulatory domains of the rat prolactin gene is required for transcriptional activation by estrogens. 196 74

A human nonpituitary cell line grown under serum-free (sf) conditions (sfRamos Burkitt lymphoma cell line) has been reported to secrete a 29K PRL-like peptide which acts as an autocrine growth factor. Conditioned medium from these cells was examined for lactogenic activity using the Nb2 bioassay and RIAs specific for human GH (hGH) and hPRL. SfRamos conditioned medium stimulated the growth of Nb2 cells. Anti-hGH monoclonal antibodies but not anti-hPRL inhibited the mitogenic effect of sfRamos conditioned medium on Nb2 cells. Immunoreactive hGH but not hPRL was detected by RIA. Immunoprecipitation with anti-hGH polyclonal antibody followed by Western blot analysis with anti-hGH monoclonal antibody revealed a specific 22K band with the same mobility as pituitary hGH. Northern blot analysis with an hGH complementary DNA (cDNA) probe revealed a 1.0-kilobase transcript migrating coincident with pituitary hGH messenger RNA. A less abundant, 1.6-kilobase transcript was also observed. Reverse transcriptase-polymerase chain reaction using specific primers for the hGH cDNA generated the predicted 248-base pair band. Polymerase chain reaction sequencing of this fragment revealed sequence identity to the hGH-N cDNA, demonstrating conclusively the expression of the hGH-N gene in the sfRamos cell line.
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PMID:Growth hormone expression in human Burkitt lymphoma serum-free Ramos cell line. 767 96

The genes for the long form of the human and the short form of the mouse PRL receptors were transfected independently into NIH 3T3 cells. Reverse transcriptase-polymerase chain reaction indicated that the transfectant designated LFH contained message for only the long form and the transfectant designated SFM had message for only the short form of the receptor. Both transfectant cell lines specifically bound lactogenic hormones with high affinity and responded to PRL in culture with a 2- to 3-fold increase in cell number preceded by transient activation of mitogen-activated protein kinase. After a PRL-responsive casein-chloramphenicol acetyl transferase (CAT) construct was introduced into both LFH and SFM cells, CAT activity was induced by PRL only in the LFH-CAT cells. Thus, while the long form of the receptor can transduce the differentiation signal, both the long and the short forms of the receptor can signal the cells to grow.
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PMID:Transduction of prolactin's (PRL) growth signal through both long and short forms of the PRL receptor. 861 11

Rat PRL (rPRL) gene transcription is controlled by proteins that interact with two DNA elements located in the 5'-upstream regulatory region. These elements, the distal enhancer and the proximal promoter, are separated by nearly 1500 bp of DNA. Induction of rPRL transcription by the estrogen 17 beta-estradiol (E2) is conferred through the estrogen response element located in the distal enhancer. To activate transcription, the estrogen-estrogen receptor complex must "communicate" with RNA polymerase II located at the proximal promoter. Using a novel nuclear ligation assay, it is shown that estrogen treatment of rat pituitary GH3 cells stimulates the formation of chromatin loops between the distal enhancer and proximal promoter of the rPRL gene, juxtaposing these two transcriptional control regions. The formation of these chromatin loops was observed in both the endogenous rPRL gene and in a rPRL-Tn5 minichromosome. Induction of rPRL and rPRL-Tn5 expression by E2 was reduced by coincubation of cells with the antiestrogen 4-hydroxytamoxifen. Likewise, 4-hydroxytamoxifen was found to block the E2-induced formation of chromatin loops between the distal and proximal regions. Concurrent treatment with the synthetic glucocorticoid dexamethasone reduced the E2-induced transcription rate of the rPRL and rPRL-Tn5 gene to near basal levels. Similarly, dexamethasone treatment inhibited the ability of E2 to enhance the formation of the chromatin loops. These data suggest that the activation of rPRL gene transcription by E2 involves the stabilization of a chromatin loop that facilitates protein-protein interactions between transcription factors that are associated with the distal enhancer and the proximal promoter.
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PMID:Estrogen-mediated induction of rat prolactin gene transcription requires the formation of a chromatin loop between the distal enhancer and proximal promoter regions. 882 58

Mouse selenocysteine transfer RNA (tRNA) gene transcription-activating factor (mStaf) is a transcriptional activator that enhances RNA polymerase III-dependent mouse selenocysteine tRNA (tRNA(Sec)) gene transcription. The DNA-binding activity of mStaf in mouse mammary gland undergoes developmental changes, reaching a maximal level during the period of lactation. In this study, we employed an organ culture system to examine the hormonal regulation of mStaf binding and its role in the tRNA(Sec) transcription in the mammary gland. The results showed that mStaf binding in mammary explants was stimulated by treatment with the lactogenic hormones, PRL, insulin, and hydrocortisone and that a specific MEK inhibitor, PD98059, inhibited the hormonal stimulation of mStaf binding. Other kinase inhibitors, such as a Janus kinase inhibitor and a calmodulin kinase inhibitor, had no apparent effect. Northern and Western blot analyses revealed that the level of both mStaf messenger RNA and protein was enhanced by the lactogenic hormones and was reduced by the concomitant treatment with PD98059. The mitogen-activated protein kinase activity in cultured explants was rapidly induced and maintained at high levels by the lactogenic hormones. We also found that the lactogenic hormones increased the amount of tRNA(Sec) in a time-dependent manner, which followed the increase in mStaf binding in cultured mammary explants. These results support the view that mStaf plays a key role in the hormonal stimulation of tRNA(Sec) transcription in the mammary gland.
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PMID:Hormonal induction of mouse selenocysteine transfer ribonucleic acid (tRNA) gene transcription-activating factor and its functional importance in the selenocysteine tRNA gene transcription in mouse mammary gland. 992 85

The present study investigated the ontogenic expression of a prolactin-like substance (oPRL-ir) in rat hypothalamus from embryonic day (E) 17 to postnatal day (P) 29. By immunocytochemistry, the oPRL-ir peptide was only detected from P3. As in adults, labeled neurons were found exclusively in the lateral hypothalamic area. By in situ hybridization, with a cocktail of oligonucleotides complementary to the PRL mRNA, no labeling was observed in the hypothalamus, although dense labeling was obtained over the pituitary. With reverse-transcriptase polymerase chain reaction, a 408 bp band, presumably corresponding to an oPRL mRNA, was detected from PO in the LHA, but also in other brain regions. These results suggest that the oPRL-ir neurons do not contain oPRL. The nature of the oPRL-ir peptide is still unknown, but its late onset of expression may be related to its putative involvement in feeding behavior.
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PMID:Ontogenic development of prolactin immunoreactive neurons in the rat lateral hypothalamus. 1010 77

PRL (prolactin) has been implicated in the proliferation and differentiation of numerous tissues, including the prostate gland. However, the PRL-R (PRL receptor) signal transduction pathway, leading to the stimulation of cell proliferation, remains unclear and has yet to be mapped. The present study was undertaken to develop a clear understanding of the mechanisms involved in this pathway and, in particular, to determine the role of K(+) channels. We used androgen-sensitive prostate cancer (LNCaP) cells whose proliferation is known to be stimulated by PRL. Reverse transcriptase PCR analysis showed that LNCaP cells express a long form of PRL-R, but do not produce its intermediate isoform. Patch-clamp techniques showed that the application of 5 nM PRL increased both the macroscopic K(+) current amplitude and the single K(+)-channel open probability. This single-channel activity increase was reduced by the tyrosine kinase inhibitors genistein, herbimycin A and lavandustine A, thereby indicating that tyrosine kinase phosphorylation is required in PRL-induced K(+) channel stimulation. PRL enhances p59( fyn ) phosphorylation by a factor of 2 after a 10 min application in culture. In addition, where an antip59( fyn ) antibody is present in the patch pipette, PRL no longer increases K(+) current amplitude. Furthermore, the PRL-stimulated proliferation is inhibited by the K(+) channel inhibitors alpha-dendrotoxin and tetraethylammonium. Thus, as K(+) channels are known to be involved in LNCaP cell proliferation, we suggest that K(+) channel modulation by PRL, via p59( fyn ) pathway, is the primary ionic event in PRL signal transduction, triggering cell proliferation.
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PMID:Prolactin stimulates cell proliferation through a long form of prolactin receptor and K+ channel activation. 1456 46

Pausing of RNA polymerase II (Pol II) during early transcription, mediated by the negative elongation factor (NELF) complex, allows cells to coordinate and appropriately respond to signals by modulating the rate of transcriptional pause release. Promoter proximal enrichment of Pol II occurs at uterine genes relevant to reproductive biology; thus, we hypothesized that pausing might impact endometrial response by coordinating hormonal signals involved in establishing and maintaining pregnancy. We deleted the NELF-B subunit in the mouse uterus using PgrCre (NELF-B UtcKO). Resulting females were infertile. Uterine response to the initial decidual stimulus of NELF-B UtcKO was similar to that of control mice; however, subsequent full decidual response was not observed. Cultured NELF-B UtcKO stromal cells exhibited perturbances in extracellular matrix components and also expressed elevated levels of the decidual prolactin Prl8a2, as well as altered levels of transcripts encoding enzymes involved in prostaglandin synthesis and metabolism. Because endometrial stromal cell decidualization is also critical to human reproductive health and fertility, we used small interfering to suppress NELF-B or NELF-E subunits in cultured human endometrial stromal cells, which inhibited decidualization, as reflected by the impaired induction of decidual markers PRL and IGFBP1. Overall, our study indicates NELF-mediated pausing is essential to coordinate endometrial responses and that disruption impairs uterine decidual development during pregnancy.-Hewitt, S. C., Li, R., Adams, N., Winuthayanon, W., Hamilton, K. J., Donoghue, L. J., Lierz, S. L., Garcia, M., Lydon, J. P., DeMayo, F. J., Adelman, K., Korach, K. S. Negative elongation factor is essential for endometrial function.
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PMID:Negative elongation factor is essential for endometrial function. 3033 1