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)

Progesterone causes in goblet cells of oviducts of estrogen hormone-stimulated immature quails selectively gene activation without affecting DNA synthesis. This biological model has been used to study the influence of poly ADP-ribosylation during the processes of DNA transcription. Administration of progesterone in vivo causes an increase of the activity of RNA polymerase I and II in isolated nuclei. This increase is accompanied by a marked decrease of the specific activity of poly (ADP-Rib) polymerase. After in vitro ADP-ribosylation of nuclear proteins the template capacity of chromatin for ""exogenous'' RNA synthesis (with E. coli DNA-dependent RNA polymerases) as well as for ""endogenous'' RNA synthesis with DNA dependent RNA polymerases II is not affected, whereas the data presented seem to indicate that the capacity for RNA synthesis mediated by ""endogenous'' DNA-dependent RNA polymerase I might be inhibited after ADP-ribosylation. Evidence is presented to show that a considerable amount of poly (ADP-Rib), synthesized by poly (ADP-Rib) polymerase in isolated nuclei, is linked with RNA polymerase I. The rate of synthesis of poly (ADP-Rib) is dependent on the incubation temperature (optimum at 25 degrees C) and it can be inhibited by the specific inhibitors of poly (ADP-Rib) polymerase nicotineamide, thymidine and formycin B. Poly (ADP-Rib) is probably associated with RNA polymerase I through a covalent linkage. ADP-ribosylated RNA polymerase I has been purified 550 fold with respect to the nuclear extract corresponding to a 4,000 fold purification from the whole cell homogenate. The ratio between poly (ADP-Rib), formed during preincubation of nuclei with NAD, and RNA polymerase I remains almost constant during the purification procedures. The extent of ADP-ribosylation of RNA polymerase I decreases during gene expression. Thus we conclude that poly ADP-ribosylation of this enzyme is one of the regulatory mechanisms by which specificity of DNA transcription is achieved.
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PMID:Poly ADP-ribosylation of DNA-dependent RNA polymerase I from quail oviduct. Dependence on progesterone stimulation. 18 9

The effects of estrogen, progesterone and estrogen + progesterone combined on nuclear transcriptional processes in oviducts of immature chicks, previously withdrawn from estrogen, are reported. The responses to the steroids of the endogenous nuclear RNA polymerase activities, both nucleolar (I) and nucleoplasmic (II), the chromatin compositions and template capacities, and the appearance of ovalbumin messenger RNA (mRNA) are compared. When immature chicks (previously treated at 14 days with estrogen) are withdrawn from estrogen treatment, there is a gradual reduction in both polymerase activities. Diurnal variations in polymerase II activties in the oviduct of withdrawn chicks required that subsequent experiments include time-matched controls. The hormones alter RNA polymerase II and II activities in vivo as assayed in isolated nuclei. Progesterone represses the polymerase I and II activities, while estrogen alone and estrogen + progesterone enhance both polymerase activities immediately after injection. Diethylstillbestrol, a synthetic estrogen, causes changes similar to those of estrogen. The effects of these steroids on the polymerases are detected within 15 min of hormone injection. Changes in the capacities of chromatins to serve as template for RNA synthesis in general correlated with changes in polymerase II activities. Interestingly, in the case of estrogen treatment, the acidic chromatin protein (but not histone) levels fluctuate positively with the template capacities of the chromatin. An antagonism between estrogen and progesterone is observed in the responses of both RNA polymerases I and II activities as well as in the chromatin template capacity. Levels of messenger RNA coding for ovalbumin, as detected by hybridization with labeled complementary DNA, increase in oviducts of withdrawn chicks within 2--3 of the injection of estrogen, progesterone or estrogen + progesterone. This rapid accumulation of ovalbumin mRNA is not accompanied in each case by a similar increase in polymerase II activity or chromatin template capacity.
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PMID:Effects of estrogen and progesterone on transcription, chromatin and ovalbumin gene expression in the chick oviduct. 95 4

To study the process of hormone action, we have developed an in vitro system utilizing minced oviduct from estrogen-treated chicks incubated in tissue culture medium. Progesterone added to the medium induced synthesis of a specific protein, avidin, that continued for up to 96 hr. During this period there was no increase in total oviduct protein, ovalbumin, or lysozyme, which suggests the specificity of the progesterone effect. The induction process was dependent on new protein synthesis, since cycloheximide inhibited the induction completely. Actinomycin D in doses that prevented nuclear RNA synthesis, but not general protein synthesis, inhibited avidin production 70-90%. Avidin synthesis was not affected by 5-fluorouracil. The rate of DNA synthesis examined by thymidine-(3)H pulse labeling was not stimulated during avidin induction. Hydroxyurea (an inhibitor of DNA synthesis) and colchicine (a mitotic inhibitor) did not prevent induction. Studies utilizing uridine-(3)H pulses showed an effect on rapdly labeled nuclear RNA coincident with induction. Nuclear RNA polymerase activity increased before avidin induction. Since avidin was the only new protein synthesized in response to progesterone, the early stimulation of nuclear RNA synthesis and RNA polymerase activity would suggest a mechanism of action for this steroid at the transcription level of protein synthesis.
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PMID:Studies on the mechanism of action of progesterone in regulation of the synthesis of specific protein. 563 49

This report explores the ability of various steroids to rapidly stimulate Sertoli cell RNA polymerase II activity and to compete with [3H]-androgens for nuclear and cytosol binding sites. Nuclear RNA polymerase II activity was significantly stimulated by a 1 nM concentration of the androgenic compounds testosterone, dihydrotestosterone (17 beta-hydroxy-5 alpha-androstan-3-one). R1881 (methyltrienolone) and 5 alpha, 17 beta-diol and also by the potent progestins 6 alpha methylprogesterone and R5020 (17,21-dimethyl-19-nor-4-pregna-3,20-dione). Progesterone, 17 alpha-hydroxyprogesterone, estradiol, androsterone, and 5 alpha-androstan-3 beta, 17 beta-diol were ineffective at 1 nM. Cytosol binding and nuclear accumulation of [3H]-androgen was effectively reduced by 100 fold molar excess of those androgens and progestins which stimulated RNA polymerase II activity. These data suggest that androgens and progestins bind to at least some of the same proteins in the Sertoli cell and may elicit the rapid stimulation of RNA polymerase II activity via a common mechanism. Agarose gel electrophoresis of the nuclear RNA synthesized as a result of exposure to testosterone indicated that is was heterodisperse and in part polyadenylated. Electrophoresis of the poly A+-RNA demonstrated that testosterone administration increased the incorporation of [3H]-UTP into RNA that was larger than 28 S.
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PMID:Specificity and nature of the rapid steroid-stimulated increase in Sertoli cell nuclear RNA polymerase activity. 617 4

The effect of progesterone on transcription was investigated in the uterus of the ovariectomized rat. Progesterone rapidly depressed both RNA polymerase A and B activities for up to 6 h after steroid administration. Both enzyme activities returned to control values 24 h after steroid treatment. In contrast, in the estrogen-primed rat uterus, progesterone was capable of stimulating RNA polymerase B activity 30 min after hormone treatment. The cellular entities or mechanisms which progesterone uses to alter transcription in cell nucleus remain to be determined.
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PMID:The effect of progesterone on RNA polymerases in the rat uterus. 732 84

We investigated hormonal regulation of endometrial angiogenesis in menstruating primates. This study was designed to demonstrate: (i) that cell-specific vascular endothelial growth factor (VEGF) production and expression in monkey endometrium are regulated by steroid receptor ligands; and (ii) mifepristone (RU 486) alters VEGF production even in the absence of a progestin agonist. Endometrial VEGF production was compared by computer-assisted immunohistochemical analysis during induced hypoestrogenism and after oestradiol, progestin, or antiprogestin (mifepristone) treatment. VEGF gene expression was estimated by quantitative reverse-transcriptase polymerase chain reaction (RT-PCR) in endometrial samples from castrate cynomolgus monkeys, from intact monkeys in the luteal phase, and from monkeys treated for 20 days with levonorgestrel (LNG) or mifepristone. VEGF staining intensities in glandular epithelium and VEGF mRNA expression were highest in hypoestrogenic monkeys. Progestin treatment induced intense VEGF staining in the stroma. Gene expression of VEGF-189, but not other isoforms, was higher in progesterone- and progestin (LNG)-exposed endometria compared to mifepristone-exposed endometria or endometria from anovulatory cycles (P < 0.04). Mifepristone abolished VEGF staining in glandular epithelium almost completely. We conclude that VEGF protein and VEGF mRNA expression levels in primate endometrium depend on the steroidal milieu. Anti-angiogenic effects of mifepristone via suppression of VEGF production might represent a mechanism for its quelling effects on endometrium.
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PMID:Vascular endothelial growth factor in primate endometrium is regulated by oestrogen-receptor and progesterone-receptor ligands in vivo. 922 18

Progestogen suppresses the progression of endometrial cancer and has an important effect on the secretory change of human endometrium. We characterized the progestogen-induced alterations of gene expression in a human endometrial-cancer cell line using a mRNA differential-display reverse-transcriptase-polymerase-chain-reaction (DDRT-PCR) method. After 5-day incubation of Ishikawa endometrial-cancer cells, with or without 100 nM medroxyprogesterone acetate (M PA), total RNA was isolated from confluent cells. We identified 8 candidate genes by mRNA differential display by screening up to approximately 3,000 mRNA species. Among these, 2 genes named T21A and T21B showed a decrease in mRNA by MPA treatment when analyzed by Northern blot. Nucleotide sequence showed that clone T21A was part of human mitochondrial short-chain enoyl-CoA hydratase cDNA. The other clone, T21B, showed no homology with any known nucleotide sequences. Northern-blot analysis using T21A and T21B clones as probes showed a decrease in mRNA in human endometrium from the luteal stage, with high serum estradiol and progesterone levels, as compared with that from the early follicular stage, with low serum estradiol and progesterone levels, and that from the pre-ovulatory stage with high serum estradiol and low progesterone levels. These findings suggest that mRNA DDRT-PCR could be used to identify the candidate genes regulated by progestogen in human endometrial cancer and in normal human endometrium.
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PMID:Messenger RNA differential display reverse-transcriptase-polymerase-chain-reaction analysis of a progestogen-suppressive gene in a human endometrial-cancer cell line. 972 4

The 1st step in the action of a steroid hormone involves entering a target cell where it is recognized and bound by a soluble macromolecule called a cytosol receptor (Re) specific for that hormone. The receptor hormone complex (ReS) is translocated to the cell's nucleus (RnS) where it binds to a large number of sites on chromatin. The binding of RnS to acceptor sites is thought to make gene sites available for transcription by RNA polymerase which subsequently results in elevated cellular RNA and protein synthesis. The 3-H steroid exchange assay based on the temperature dependence of the rate of steroid dissociation can be used to differentiate occupied and unoccupied receptors. The method has been used to examine the relationship between nuclear binding of the Rn estradiol complex and the stimulation of growth processes in the rat uterus. A single injection of .2 mcg/100 g body weight of estradiol causes the nuclear accumulation and retention of approximately 10-20% of the total number of uterine Re sites. Nuclear occupancy for 6 or more hours appears to be a requirement for stimulation of late uterotrophic events such as DNA synthesis, sustained stimulation of RNA polymerase activities, and cellular hypertrophy and hyperplasia. Estriol, a short-acting estrogen, has been classified as a weak estrogen, but it acts as such only when administered in a single injection, in which case it stimulates all early uterotrophic events but does not stimulate significant uterine growth. When estriol is present in a continuous fashion it is a highly effective estrogen. Longterm nuclear retention of the RnE complexes is necessary for uterine hypertrophy and hyperplasia. RnE complexes appear to interact with the genome to open gene sites for transcription; continued transcriptional activity is required for full uterine growth. Nonsteroidal estrogen antagonists have estrogen properties in some cells but act as estrogen antagonists in others. Progesterone appears to modify or redirect estrogen action by modulating estrogen receptor levels. Progesterone may act by reducing the level of available cytoplasmic estrogen receptors and hence decreasing the likelihood of receptor binding or by interfering with the nuclear retention of the RnE complex and decreasing the ability of these complexes to stimulate transcriptional events.
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PMID:Steroid hormone receptors and mechanism of action. 1229 12

Progesterone plays a pivotal role in the regulation of reproduction in all vertebrates and binds to nuclear hormone receptor, one of ligand-dependent transcription factors. Although avian and mammalian progesterone receptors (PR) have been well characterized, detail structure and function of amphibian progesterone receptor in wild frog is poorly studied yet. Here we report the cloning and characterization of a novel progesterone receptor from the Korean frog, Rana dybowskii. The R. dybowskii progesterone receptor (dyPR, GenBank Accession No. AF431813) cDNA isolated from testis encodes a protein of 711 amino acids which shows approximately 60% overall identity with the Xenopus progesterone receptor. Reverse transcriptase-polymerase chain reaction (RT-PCR) demonstrates that dyPR is expressed in all the tissues examined. Electrophoretic mobility shift assays demonstrate that this receptor specifically binds to a progesterone response element (PRE), and transient transfection studies demonstrate that dyPR significantly activates the transcription of a PRE containing reporter element. Finally, confocal microscopy demonstrates the localization of this protein in nucleus, cytoplasm, and plasma membrane in transiently transfected CV-1 cell. These results indicate that dyPR cDNA encodes a classical progesterone receptor and molecular characterization of dyPR may provide us new information about the evolution of steroid hormone receptor.
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PMID:Molecular cloning and characterization of an amphibian progesterone receptor from Rana dybowskii. 1464 54

Progesterone and estradiol play a crucial role in the control of mammary gland proliferation and tumour formation in the dog. However, little is known whether steroid metabolizing enzymes are present within the canine mammary gland that may play a modulating role in the bioavailability of progesterone and estrogen. In this study we investigated the expression of the steroid metabolizing enzymes 5alpha-reductase (type I and type II) and aromatase in relation to hyperplasia or tumorigenesis in the canine mammary tissue. The relative mRNA concentrations were examined by a semi-quantitative reverse-transcriptase PCR analysis (RT-PCR). In addition the affinity of dihydroprogesterone (5alpha-reduced metabolite of progesterone) for canine progesterone receptors was investigated. Quantification of the RT-PCR products revealed that in mammary tumours a significantly higher expression of aromatase is present in comparison to normal mammary tissue. Furthermore, significant decrease in expression of both aromatase and 5alpha-reductase type II enzymes was found in hyperplasic mammary tissue compared to tumours. The changes in expression of type II 5alpha-reductase and aromatase were highly correlated. 5alpha-Reduction of progesterone to dihydroprogesterone resulted in a six-fold less affinity for the canine progesterone receptor. It is concluded that hyperplasia is associated with a decreased expression of type II 5alpha-reductase and aromatase enzymes, whereas in tumours the opposite situation is found.
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PMID:Mammary steroid metabolizing enzymes in relation to hyperplasia and tumorigenesis in the dog. 1555 10


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