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)

Adrenocortical cell major secreted protein was purified from the conditioned medium of primary cultures of bovine adrenocortical (BAC) cells. Immunochemical analysis and N-terminal sequencing of the purified protein identified it to alpha 2-macroglobulin (alpha 2-M). It appeared that 15 out of the 17 N-terminal amino acids were conserved between adrenocortical cell major secreted protein and human alpha 2-M. Study of alpha 2-M production by BAC cells revealed that its secretion was stimulated severalfold by transforming growth factor-beta 1 (TGF-beta 1). The stimulation occurred in a time-dependent (reaching a plateau at 24 h) and dose-dependent (ED50 = 0.1 ng/ml TGF-beta 1) manner. It was blocked when BAC cells were exposed to 5,6-dichlorobenzimidazole riboside, a potent inhibitor of RNA polymerase II, suggesting that TGF-beta 1 acts as an activator of alpha 2-M gene expression at the transcriptional level. Northern blot analysis confirmed that the alpha 2-M mRNA level was increased (4-fold) in BAC cells following TGF-beta 1 treatment. TGF-beta 2, TGF-beta 1,2, basic fibroblast growth factor, and angiotensin II also appeared able to stimulate alpha 2-M secretion in BAC cells, whereas adrenocorticotropin was strongly inhibitory. Given the previous reports that TGF-beta 1 is a potent inhibitor of adrenocortical steroidogenesis (Feige J.J., Cochet, C., Rainey, W.E., Madani, C., and Chambaz, E. M. (1987) J. Biol. Chem. 262, 13491-13495) and that alpha 2-M is a TGF-beta 1-binding protein, these observations suggest that alpha 2-M may play an important role in conjunction with hormones and growth factors in the homeostatic regulation of adrenocortical functions.
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PMID:Transforming growth factor-beta stimulates the expression of alpha 2-macroglobulin by cultured bovine adrenocortical cells. 168 94

The lipoxygenase (LO) pathway has been implicated in leading to accelerated atherosclerosis. However, the precise type of LO present in unstimulated human aortic smooth muscle cells (HSMC), endothelial cells (HAEC), and monocytes (MO) is not clear. In this study, we used a specific reverse-transcriptase polymerase chain reaction (RT-PCR) method to analyze the type of LO mRNA expressed in normal HSMC, HAEC, and MO. In all three cell types, a 333-base-pair band was seen when primers and probes specific for the leukocyte type of 12-LO were used, suggesting that a leukocyte type of 12-LO is expressed in these cell types. Western immunoblotting analysis in cultured HSMC, HAEC, and MO using a polyclonal peptide antibody to the leukocyte type of 12-LO showed a specific 72-kD band that is identical to the molecular weight of the leukocyte type of 12-LO. These results indicate that a leukocyte type of 12-LO RNA and protein are expressed in HSMC, HAEC, and MO. Further, angiotensin II upregulates 12-LO activity and expression in HSMC, supporting a role for this 12-LO pathway in human vascular disease.
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PMID:A leukocyte type of 12-lipoxygenase is expressed in human vascular and mononuclear cells. Evidence for upregulation by angiotensin II. 760 Jan 27

Increasing evidence suggests that angiotensin II (AngII) acts as a modulator for ventricular remodeling after myocardial infarction. Using competitive reverse-transcriptase polymerase chain reaction, nuclear runoff, and binding assays, we examined the regulation of AngII type 1a and 1b (AT1a-R and AT1b-R) and type 2 receptor (AT2-R) expression in the infarcted rat heart as well as the effects of AngII receptor antagonists. AT1a-R mRNA levels were increased in the infarcted (4.2-fold) and noninfarcted portions (2.2-fold) of the myocardium 7 d after myocardial infarction as compared with those in sham-operated controls, whereas AT1b-R mRNA levels were unchanged. The amount of detectable AT2-R mRNA increased in infarcted (3.1-fold) and noninfarcted (1.9-fold) portions relative to that in the control. The transcription rates for AT1a-R and AT2-R genes, determined by means of a nuclear runoff assay, were significantly increased in the infarcted heart. The AngII receptor numbers were elevated (from 12 to 35 fmol/mg protein) in the infarcted myocardium in which the increases in AT1-R and AT2-R were 3.2- and 2.3-fold, respectively, while the receptor affinity was unchanged. Therapy with AT1-R antagonist for 7 d reduced the increase in AT1-R and AT2-R expressions in the infarcted heart together with a decrease in blood pressure, whereas therapy with an AT2-R antagonist did not affect mRNA levels and blood pressure. Neither AT1-R nor AT2-R antagonists affected the infarct sizes. These results demonstrated that myocardial infarction causes an increase in the gene transcription and protein expression of cardiac AT1a-R and AT2-R, whereas the AT1b-R gene is unaffected, and that therapy with an AT1-R antagonist, but not with an AT2-R antagonist, is effective in reducing the increased expression of AngII receptor subtypes induced by myocardial infarction.
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PMID:Regulation of gene transcription of angiotensin II receptor subtypes in myocardial infarction. 781 45

At least two distinct genes (AT1A and AT1B) encode type 1 angiotensin II (AT1) receptors in rodents. Receptor binding and Northern blot analysis have clearly demonstrated the presence of AT1 receptors and AT1-receptor mRNA in many tissues but fail to differentiate which type 1 receptor subtype is expressed. A reverse-transcriptase polymerase chain reaction restriction fragment length polymorphism (RT-PCR-RFLP) assay was developed to differentiate the expressed mRNA by subtype. Expression of AT1A was clearly evident in kidney, liver, adrenal gland, ovary, brain, testes, adipose tissue, lung, and heart of adult mice. AT1B was absent from most of these tissues but was detectable in brain, testes, and adrenal gland. No significant differences in expression were evident in kidney, liver, brain, lung, or heart from 16.5- or 18.5-gestation-day fetuses, and only AT1A was evident in placenta. Expression of AT1B was confirmed in adrenal gland, brain, and testes, using a primer set that specifically amplifies only AT1B mRNA. Expression of AT1A and AT1B was also examined in As4.1 cells, a renin-expressing mouse kidney tumoral cell line. Receptor binding and competition assays using AT1- and AT2-receptor antagonists revealed that only AT1 receptors are present on the cell surface. Extremely low levels of AT1-receptor mRNA was detected by Northern blot, and RT-PCR-RFLP analysis revealed that only the AT1A subtype is expressed in this cell line. Despite the high homology between the coding sequence of the AT1A and AT1B genes, they exhibit disparate tissue-specific expression profiles.
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PMID:Differential expression of angiotensin receptor 1A and 1B in mouse. 807 5

Although both rat cardiac nonmyocytes (mostly fibroblasts) and cardiomyocytes have a functional angiotensin II (AngII) receptor, the regulation mechanism of its subtype expression in the rat heart remains unknown. In this study, by using a binding assay and a competitive reverse-transcriptase polymerase chain reaction, we examined the regulation of AngII types 1a and 1b (AT1a-R and AT1b-R) and type 2 receptor (AT2-R) expression in embryonal day 19 (E19) and neonatal (1-d) rat cardiac fibroblasts and cardiomyocytes. The number of AT2-R in E19 fibroblasts was dramatically decreased (from 305 to 41 fmol/mg protein) in 1-d fibroblasts, whereas that of AT1-R and the mRNA levels remained unchanged. The ratio of AT1a-R to AT1b-R mRNA in both E19 and 1-d fibroblasts was 9:1. The number of AT2-R in E19 cardiomyocytes was also significantly decreased (from 178 to 87 fmol/mg protein) in 1-d cardiomyocytes, whereas the magnitude was less prominent compared with that in fibroblasts. AT1-R expression remained unaltered in E19 and 1-d cardiomyocytes. In E19 and 1-d cardiomyocytes, the AT1b-R mRNA level was 1.5-fold higher than that of AT1a-R mRNA. Dexamethasone induced significant increases in AT1a-R mRNA (2.1-fold) and numbers (1.8-fold) without changing the affinity, whereas neither AT1b-R mRNA nor the number of AT2-R was affected by dexamethasone. The AT1a-R gene transcription rate, determined by means of a nuclear run-off assay, was increased (2-fold) by dexamethasone. The half-life of AT1a-R mRNA (18 h) was unchanged by dexamethasone. These data indicate that AngII receptor subtype expression in the rat heart is regulated in a cell- and subtype-specific manner.
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PMID:Differential gene expression and regulation of angiotensin II receptor subtypes in rat cardiac fibroblasts and cardiomyocytes in culture. 816 61

To clarify whether in vivo expression of growth factors in the glomerulus is induced in a hypertensive animal model, we investigated the expression of platelet-derived growth factor (PDGF) B chain, transforming growth factor beta (TGF-beta), and angiotensin II (Ang II) type 1 receptors in glomeruli of spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats. We also investigated the effects of treatment with cilazapril, and angiotensin I-converting enzyme inhibitor, on this expression. First, the expression of PDGF B chain, TGF-beta, and Ang II receptors from the glomerulus were investigated using the reverse-transcriptase polymerase chain reaction in SHR and WKY rats. Although there was no significant difference in PDGF B chain, TGF-beta, and Ang II receptors from the glomerulus were investigated using the reverse-transcriptase polymerase chain reaction in SHR and WKY rats. Although there was no significant difference in PDGF B chain, TGF-beta or Ang II receptor expression between SHR and WKY rats at the age of 7 weeks, the PDGF B chain expression of 16-week-old SHR was significantly higher (4.4-fold) than that of age-matched WKY rats. Next, we administered oral cilazapril at a dose of 10 mg/kg to 13-week-old SHR daily for 3 weeks. The systolic blood pressure in SHR treated with cilazapril was significantly lower than that in control SHR. After administration of cilazapril for 3 weeks, we examined the in vivo expression of growth factors and Ang II receptors in the glomerulus. The PDGF B chain expression was suppressed by treatment with cilazapril (2.5-fold) as compared with nontreated SHR. No alteration in TGF-beta or Ang II receptor expression was detected. We did not find any histological changes in the kidneys of SHR, WKY rats or cilazapril-treated SHR, and cilazapril treatment did not suppress the glomerular size. These findings indicate that the expression of PDGF B chain in the glomerulus preceded the appearance of histological changes in SHR and that the administration of cilazapril inhibited the expression of PDGF B chain without affecting the glomerular size. This suggests that angiotensin I-converting enzyme inhibitors directly suppress the Ang II-induced PDGF B chain promotion in the glomerulus of SHR at the established hypertensive stage.
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PMID:The angiotensin I-converting enzyme inhibitor, cilazapril inhibits the platelet-derived growth factor B chain expression in glomeruli of spontaneously hypertensive rats. 886 81

Using reverse-transcriptase polymerase chain reaction (RT-PCR) and immunohistochemistry we investigated the ontogeny of renin, angiotensinogen and angiotensin converting enzyme (ACE) in the mesonephros at 27 and 41 days of gestation, and the metanephros at 41 and 64 days of gestation in ovine fetuses (term is 145 to 150 days). The volume and composition of fetal urine, stored as allantoic fluid were measured in 12 fetuses at 27 days, and 13 fetuses at 41 days. Renin, angiotensinogen and ACE were identified in both meso- and metanephroi at 41 days but not in the mesonephros at 27 to 30 days. Allantoic fluid volumes were 21 +/- 3 and 45 +/- 5 ml at 27 to 30 days and 41 days, respectively. This fluid was significantly different in composition to that of amniotic fluid or maternal plasma. The results suggest that the mesonephros can substantially modify its glomerular filtrate by 27 days of gestation, and can produce local angiotensin II by 41 days.
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PMID:Ontogeny of hormonal and excretory function of the meso- and metanephros in the ovine fetus. 891 29

All the angiotensin peptides originate from angiotensinogen, a glycoprotein synthesized by several tissues, including the brain and the anterior pituitary. In the rat, immunohistochemistry has been used to localize angiotensinogen in gonadotropes and in uncharacterized cells surrounding sinusoids. Both cell types are capable of secreting angiotensinogen in cell culture; only the gonadotropes contain angiotensin II (AngII) and are capable of secreting it in culture. It has been asserted that the perisinusoidal cells are the only source of angiotensinogen for the generation of AngII by gonadotropes. Our current data favor the existence of a complete intracellular renin-angiotensin system (RAS) in gonadotropes and a separate extracellular system which utilizes the high concentration of angiotensinogen from perisinusoidal cells. Furthermore, we postulate that gonadotrope AngII serves mainly reproductive functions, while the proximity of angiotensinogen-secreting cells to folliculostellate cells, and their access to the intercellular sinusoidal and follicular spaces, places the extracellular RAS in a strategic position to affect pituitary growth and the mediation of acute-phase immune responses. In the rat brain, angiotensinogen is expressed by the 16-18th day of fetal life and by areas generally concerned with vasopressor, electrolyte, and fluid homeostasis. Antisense deoxyoligonucleotides to angiotensinogen mRNA lower blood pressure in hypertensive rats and inhibit in vitro growth of neuroblastoma cells, indicating a significant role for angiotensinogen in mitogenic and homeostatic functions. It is commonly agreed that astrocytes express angiotensinogen. Neuronal angiotensinogen has also been demonstrated by immunohistochemistry, as a secretion from neuronal cell cultures, and by reverse-transcriptase polymerase chain reaction. The fate of secreted astrocytic and neuronal angiotensinogen remains obscure. Angiotensinogen is regulated in a tissue-specific manner with smaller or absent responses observed for brain tissue. By using astrocyte and neuronal cultures the actions on angiotensinogen production of growth hormone, IGF-1, inflammatory lipopolysaccharide, and phorbol ester have been examined. Recent observations show that angiotensinogen is regulated positively or negatively by glucocorticoids and that a positive synergism between cAMP and glucocorticoids exists. On the basis of analogous systems for other proteins, a scheme involving glucocorticoid receptors, CREB, and AP-1 transcription factors is formulated to explain glucocorticoid-cAMP interactions. These transcriptional interactions may form a significant functional link between the RAS and adrenergic mechanisms.
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PMID:Novel perspectives on pituitary and brain angiotensinogen. 910 Dec 59

The aim of the study was to investigate whether the adrenal renin-angiotensin system plays an independent role in the regulation of mineralocorticoid biosynthesis in the adrenal gland and to explore the mechanisms of this action. Twelve-week-old male Sprague-Dawley rats were studied: 22 rats were maintained on a regular diet; 27 and 22 rats received a low salt diet with and without treatment, respectively, with the angiotensin II (Ang II) AT1-subtype receptor antagonist losartan (10 mg/kg per day). A fraction of each group of rats underwent bilateral nephrectomy (n = 12, 15, and 10, respectively) and was killed 48 hours later. In an additional group of 24 (12 intact and 12 nephrectomized) rats, the effects of the Ang II AT2-subtype receptor antagonist PD123319 were investigated. In intact rats, plasma renin activity (PRA) and adrenal renin activity and expression were progressively raised by salt restriction and losartan, whereas aldosterone synthase mRNA and plasma aldosterone (PA) levels were increased by salt restriction and reduced by losartan. Forty-eight hours after nephrectomy, PRA fell to undetectable levels; in contrast, adrenal renin expression, assessed by semiquantitative reverse-transcriptase polymerase chain reaction (using GAPDH as a standard for gene expression), showed an 18-fold increase and was further increased after salt restriction and losartan (all P < .05). Also, adrenal renin activity was raised after nephrectomy and further increased after salt restriction (P < .05) and losartan. Cytochrome P450 aldosterone synthase expression in the adrenal cortex was stimulated by nephrectomy alone and by nephrectomy combined with low salt intake (P < .05), with consequent increases in PA concentrations. In losartan-treated salt-restricted nephrectomized rats, cytochrome P450 aldosterone synthase expression (P < .05 versus nephrectomy alone and nephrectomy plus salt restriction) and PA concentrations were diminished (P < .05) in spite of the observed increases of adrenal renin expression. The AT2-receptor antagonism did not significantly affect PRA, adrenal renin, and aldosterone biosynthesis and production in either intact or nephrectomized salt-restricted rats. These results demonstrate that the adrenal renin-angiotensin system plays an independent role in the regulation of mineralocorticoid biosynthesis in vivo. This action is mediated primarily via the Ang II AT1-subtype receptors.
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PMID:Role of tissue renin in the regulation of aldosterone biosynthesis in the adrenal cortex of nephrectomized rats. 935 60

A cDNA library of human umbilical vein endothelial cells exposed to fluid shear stress was constructed to search for functional endothelial genes expressed under flow conditions, and cDNAs encoding members of the G protein-coupled receptor (GPCR) family were cloned by a polymerase chain reaction (PCR) method using degenerate oligonucleotide primers. One of the two GPCR clones obtained was edg-1, and the other clone is a novel gene named FEG-1 that encodes a 375-amino acid protein similar to the receptors for both angiotensin II and chemokines. Reverse transcriptase-PCR showed that the FEG-1 and edg-1 mRNA levels in endothelial cells increased markedly in response to fluid flow. This suggests that FEG-1 and edg-1 may be receptor genes that play important roles in the regulation of endothelial function under physiological blood flow conditions.
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PMID:Cloning of cDNAs encoding G protein-coupled receptor expressed in human endothelial cells exposed to fluid shear stress. 939 36


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