Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.23.15 (renin)
 35,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cytosol from livers of adult female mammals contains [3H]estradiol-binding proteins that can translocate to the nucleus and attach to chromatin. In comparison to the prepubescent rat, adults have higher estrogen binding in the liver and greater increases in plasma renin substrate after administration of estrogen. The protein in the liver which binds estrogen may be an estrogen receptor involved in modulating hepatic synthesis of selective plasma proteins.
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PMID:Estrogen receptor in the mammalian liver. 17 42

Developmental correlation of higher levels of estrogen binding by macromolecules in rat liver supernatant and of increases in plasma renin substrate levels after estrogen administration is reported. Gel filtration columns were used to separate bound from free radioactivity in studying binding of radioactive estradiol to tissue supernatants. The liver of the prepubescent female rat has less estrogen-specific binding macromolecules than the adult (p less than .01). This difference in quantity was maintained when binding activities were partially purified by precipitation with ammonium sulfate at 30% saturation. After administration in vivo of 100 mcg of ethinyl estradiol (sc), plasma renin substrate (PRS) levels increased 167% above control in the adult female rat (p less than .05). The corresponding increase was only 15% in the prepubescent rat. In contrast, renin substrate levels were significantly increased in both the prepubescent and adult by administration of 4 mg/kg of dexamethasone (p less than .05). The marked increase in the amount of estrogen binding and PRS responsiveness to estrogen administration with sexual maturation indicates that the estrogen-binding protein may be an estrogen receptor involved in modulating synthesis of at least 1 plasma protein.
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PMID:Developmental correlation of higher levels of estrogen binding by macromolecules in rat liver supernatant and of increases in plasma renin substrate levels after estrogen administration. 19 10

The human renin gene is expressed in the kidney, placenta, and several other sites. The release of renin or its precursor, prorenin, can be affected by several regulatory agents. In this study, primary cultures of human placental cells were used to examine the regulation of prorenin release and renin mRNA levels and of the transfected human renin promotor linked to chloramphenicol acetyltransferase reporter sequences. Treatment of the cultures with a calcium ionophore alone, calcium ionophore plus forskolin (that activates adenylate cyclase), or forskolin plus a phorbol ester increased prorenin release and renin mRNA levels 1.3- to 6-fold, but several classes of steroids did not affect prorenin secretion or renin RNA levels. The transfected renin promoter (584 or 100 base pairs of 5'-flanking DNA) initiated at the correct start site in these cells and forskolin increased its expression 2.5- to 4-fold. Constructs containing renin 5'-flanking DNA linked to a heterologous promoter cotransfected into HeLa cells with either glucocorticoid or estrogen receptor expression vectors were not regulated by dexamethasone or 17 beta-estradiol. These results suggest that (i) the first 584 base pairs of the renin gene 5'-flanking DNA do not contain functional glucocorticoid or estrogen response elements, (ii) placental prorenin release and renin mRNA are regulated by calcium ion and by the combinations of cAMP with either C kinase or calcium ion, and (iii) the first 100 base pairs of the human renin 5'-flanking DNA direct accurate initiation of transcription and can be regulated by cAMP. Thus, some control of renin release in the placenta (and by inference in other tissues) occurs via transcriptional influences on its promoter.
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PMID:Regulation of human renin expression in chorion cell primary cultures. 221 88

We have isolated the renin gene from a Sprague-Dawley rat genomic library and determined its complete nucleotide sequence. The single rat renin gene is approximately 11,000 bases in length and consists of nine exons and eight introns. The amino acid sequence predicted from the genomic sequence indicates that the rat renin precursor consists of 402 amino acid residues, and shows 85%, 82% and 68% homology to the mouse Ren-1 and Ren-2, and human renins, respectively. The canonical promoter "TATA" boxes, TATAAA and TAATAA, are found 27 and 57 base-pairs upstream from the putative cap site, respectively. Several attractive regulatory sequences analogous to glucocorticoid, estrogen receptor-binding sites, cAMP-responsive element and SV40 enhancer core sequences were noted in the 5'-flanking region of the gene. In the first intron, segments with an average size of 38 base-pairs containing a NcoI site are present at 46 tandem repeats within 1710 base-pairs. A "CA" element consisting of (CA)27 was identified in intron 3. Furthermore, intron 8 contains a sequence that shows about 93% homology to that of the neuronal identifier sequence.
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PMID:Structure of the rat renin gene. 304 3

An estrogen receptor and an androgen receptor are present in the mammalian liver. In the liver of the rat, the estrogen receptor concentration increases markedly at puberty and this change correlates with enhanced estrogen stimulation of plasma renin substrate synthesis. High doses of estrogen are required for nuclear binding in liver when compared to doses for the uterus. The high dose requirement appears to be predominantly due to extensive metabolism in the hepatocyte of the estrogen to inactive derivatives. Furthermore, estradiol is much weaker than ethinyl estradiol for promoting nuclear binding in the liver. This is due to extremely rapid and extensive metabolism of estradiol. In human liver the concentration of estrogen receptor is low. An androgen receptor is present in high concentration in rabbit liver and is located predominantly in the nucleus after androgen administration. High concentrations of a putative androgen receptor are also present in human liver cytosol. Preliminary studies indicate that synthetic progestins can attach to the human liver androgen receptor. To date, a progesterone receptor has not been found in the mammalian liver. Thus, it appears that extensive steroid metabolism in liver preferentially diminishes sex steroid interaction with liver receptors and that androgen receptors may mediate progestin effects in liver. These observations provide a scientific basis for improved safety of oral contraceptives. Lowering the estrogen and progestin doses in oral contraceptives will decrease the major side-effects, which are liver mediated, and still maintain the desired effects at the hypothalamic-pituitary axis and uterus. Furthermore, it is likely that by selecting which estrogen, progestin or androgen is administered as well as by utilizing a parenteral route of administration that sex steroid effects on the liver could be minimized.
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PMID:Estrogen receptors and androgen receptors in the mammalian liver. 332 May 48

Aminoglutethimide blocks several cytochrome P-450 mediated steroid hydroxylation steps, including those required for conversion of cholesterol to pregnenolone and for the aromatization of androgens to estrogens. Through these actions it blocks adrenal steroidogenesis and the production of estrogens in extraglandular tissues. Aminoglutethimide is indicated for treatment of certain patients with Cushing's syndrome and breast cancer. Other potential uses (prostate carcinoma, low renin hypertension, etc.) remain investigational. For treatment of Cushing's syndrome, aminoglutethimide is usually given alone or in combination with metyrapone. In women with breast carcinoma, replacement hydrocortisone must be administered with aminoglutethimide to prevent reflex ACTH hypersecretion from overcoming adrenal inhibition. Administration of aminoglutethimide to patients with Cushing's syndrome results in improvement in clinical status in 56% of cases. Results are most favorable in patients with adrenal tumors and patients with ectopic ACTH production. Aminoglutethimide and replacement glucocorticoid produce objective disease regression in 32% of unselected postmenopausal patients with metastatic breast carcinoma and in 52% of women whose tumors are estrogen receptor positive. Responses are similar in duration and frequency to those produced by surgical adrenalectomy and hypophysectomy and the antiestrogen, tamoxifen.
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PMID:Aminoglutethimide: review of pharmacology and clinical use. 676 87

Endogenous 17 beta-estradiol (E2) and low parenteral doses of exogenous E2 are vasodilators. High dose estrogens, especially ethinylestradiol (EE) and mestranol, stimulate the synthesis of hepatic proteins including coagulation factors, sex hormone binding globulin, and angiotensinogen (Aogen). In the steady state, high plasma levels of Aogen produce only a very small increase of angiotensin II (AII) and plasma renin activity, because AII inhibits the secretion of renin and lowers plasma renin concentration. However, the increase in AII is sufficient for a slight reduction in renal blood flow and a slight increase in exchangeable sodium and blood pressure; in susceptible women, blood pressure may rise considerably. Effects of estrogens on the brain may also be involved in blood pressure changes. Endogenous progesterone is a mineralocorticoid receptor antagonist. Endogenous or exogenous progesterone leads to sodium loss and a compensatory increase in renin secretion, plasma renin activity, AII, and plasma aldosterone, e.g. in the second half of the menstrual cycle. Synthetic progestogens are commonly devoid of the mineralocorticoid receptor antagonistic effect of progesterone, and some are weak estrogen receptor agonists. Combined use of EE and synthetic progestogens may therefore enhance estrogen effects on body sodium and blood pressure. A new progestogen (Drospirenone) with an antimineralocorticoid effect like that of progesterone is described that slightly lowers body weight and blood pressure in a contraceptive formulation together with EE. An almost ideal oral contraceptive would be progestogen like Drospirenone together with a low dose natural estrogen that does not stimulate Aogen synthesis. Since most oral formulations for postmenopausal estrogen replacement also stimulate hepatic protein synthesis (including Aogen) to some extent, the transdermal route of E2 application for contraceptive purposes should also be investigated, since it has reduced potential for undesirable side effects.
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PMID:Effects of estrogens and progestogens on the renin-aldosterone system and blood pressure. 873 94

Captopril (D-3-mercapto-2-methylpropanoyl-L-proline) is an angiotensin converting enzyme (ACE) inhibitor, used widely in the treatment of hypertension and congestive heart failure. Captopril also inhibits proliferation of a variety of cell types, including several lacking ACE and renin acitvity. We have previously demonstrated that human mammary ductal carcinoma cells are among the cell types whose mitotic activity is inhibited by captopril. In those cells, captopril also reduces estrogen receptor (ER) and increases progesterone receptor (PR) concentrations. The present study evaluated the mechanism of captopril's antiproliferative action in an ER/PR-negative human mammary ductal carcinoma cell line, Hs578T. Cells grown in a 10% serum medium showed negligible changes in the presence of captopril alone. However, in the presence of subphysiologic concentrations of copper salts or copper-loaded ceruloplasmin, captopril caused a dose-dependent reduction in cell number, thymidine incorporation and mitochondrial dehydrogenase activity. In contrast, iron salts and iron-saturated transferrin had no effect on captopril activity. Catalase and horseradish peroxidase nullified the cytotoxic effects of captopril/Cu++, whereas H2O2 mimicked those effects. These data are consistent with the notion of a copper-catalyzed oxidation of captopril, leading to the generation of H2O2 as the cytotoxin to this clinically important cell type.
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PMID:Mechanism of captopril toxicity to a human mammary ductal carcinoma cell line in the presence of copper. 1051 67

Caveolae are identifiable plasma membrane invaginations. The main structural proteins of caveolae are the caveolins. There are three caveolins expressed in mammals, designated Cav-1, Cav-2, and Cav-3. It has been postulated that Cav-1 acts as a scaffold protein for signaling proteins; these include ion channels, enzymes, and other ligand receptors like membrane-associated estrogen receptor (ER)alpha or ERbeta. Caveolae-associated membrane proteins are involved in regulating some of the rapid estrogenic effects of 17beta-estradiol. One important system related to the activity of ERalpha and caveolae is the renin-angiotensin system. Angiotensin II (ANG II) has numerous actions in vascular smooth muscle, including modulation of vasomotor tone, cell growth, apoptosis, phosphatidylinositol 3-kinase (PI3K)/Akt activation, and others. Many proteins associated with caveolae are in close relation with the scaffolding domain of Cav-1 (82-101 amino acid residues). It has been proposed that this peptide may acts as a kinase inhibitor. Therefore, to explore the ability of Cav-1 scaffolding peptide (CSP-1) to regulate ANG II function and analyze the relationship between ERalpha and ANG II type 1 and 2 (AT(1) and AT(2)) receptors, we decided to study the effects of CSP-1 on ANG II-induced intracellular Ca(2+) kinetics and the effect of 17beta-estradiol on this modulation using human smooth muscle cells in culture, intracellular Ca(2+) concentration measurements, immuno- and double-immunocytochemistry confocal analysis of receptor expression, immunoblot analysis, and immunocoprecipitation assays to demonstrate coexpression. We hypothesized that CSP-1 inhibits ANG II-mediated increases in intracellular Ca(2+) concentrations by interfering with intracellular signaling including the PI3K/Akt pathway. We also hypothesize that AT(2) receptors associate with Cav-1. Our results show that there is a close association of AT(1), AT(2), and ERalpha with Cav-1 in human arterial smooth muscle cells in culture. CSP-1 inhibits ANG II-induced intracellular signaling.
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PMID:Effect of caveolin-1 scaffolding peptide and 17beta-estradiol on intracellular Ca2+ kinetics evoked by angiotensin II in human vascular smooth muscle cells. 1794 30

Many painful conditions occur more frequently in women, and estrogen is a predisposing factor. Estrogen may contribute to some pain syndromes by enhancing axon outgrowth by sensory dorsal root ganglion (DRG) neurons. The objective of the present study was to define mechanisms by which estrogen elicits axon sprouting. The estrogen receptor-alpha agonist propyl pyrazole triol induced neurite outgrowth from cultured neonatal DRG neurons, whereas the estrogen receptor-beta agonist diarylpropionitrile was ineffective. 17beta-Estradiol (E2) elicited sprouting from peripherin-positive unmyelinated neurons, but not larger NF200-positive myelinated neurons. Microarray analysis showed that E2 up-regulates angiotensin II (ANGII) receptor type 2 (AT2) mRNA in vitro, and studies in adult rats confirmed increased DRG mRNA and protein in vivo. AT2 plays a central role in E2-induced axon sprouting because AT2 blockade by PD123,319 eliminated estrogen-mediated sprouting in vitro. We assessed whether AT2 may be responding to locally synthesized ANGII. DRG from adult rats expressed mRNA for renin, angiotensinogen, and angiotensin converting enzyme (ACE), and protein products were present and occasionally colocalized within neurons and other DRG cells. We determined if locally synthesized ANGII plays a role in estrogen-mediated sprouting by blocking its formation using the ACE inhibitor enalapril. ACE inhibition prevented estrogen-induced neuritogenesis. These findings support the hypothesis that estrogen promotes DRG nociceptor axon sprouting by up-regulating the AT2 receptor, and that locally synthesized ANGII can induce axon formation. Therefore, estrogen may contribute to some pain syndromes by enhancing the pro-neuritogenic effects of AT2 activation by ANGII.
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PMID:Estrogen elicits dorsal root ganglion axon sprouting via a renin-angiotensin system. 1838 95


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