UMLS:C0004135 - FACTA Search

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Query: UMLS:C0004135 (ATM)
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The ability to create targeted mutations in the mouse genome using homologous recombination in embryonic stem cells (gene targeting) has proved to be an extremely useful experimental approach. Recently, mouse lines have been produced with targeted disruptions of various genes in the renin-angiotensin system, and studies of these animals have provided new insights into a well-studied physiological system. This article will review the phenotype of one of these lines: the Agtr1A (-/-) mouse, which lacks type 1A (AT1A) angiotensin receptors. The AT1A receptor is the major AT1 receptor in mice, and most of the known physiological functions of the renin angiotensin system are mediated by AT1 receptors. Agtr1A (-/-) mice grow and develop normally. In kidneys of Agtr1A (-/-) mice, AT1-specific binding is virtually undetectable and renal AT1-specific binding is reduced by approximately 50% in Agtr1A (+/-) heterozygotes. Agtr1A (-/-) mice have severely blunted vascular responses to angiotensin II and their blood pressures are reduced by more than 20 mm Hg, confirming the important role for this gene locus in mediating vascular responses to angiotensin II and in normal maintenance of blood pressure. Agtr1A (-/-) mice have also been useful in defining angiotensin responses that are mediated by receptors other than AT1A. Studies of mice with RAS gene knockouts represent examples of the productive use of gene targeting as a tool for physiological investigation.
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PMID:A genetic approach for studying the physiology of the type 1A (AT1A) angiotensin receptor. 931 8

Brain angiotensin II (Ang II) inhibits pituitary prolactin release by an indirect mechanism requiring stimulation of dopamine formation and release. We report that [125I]Sar1-Ang II binding to AT1 receptors and AT1A receptor mRNA expression increase selectively in the dorsomedial arcuate nucleus of 17beta-estradiol-primed ovariectomized rats after treatment with progesterone. In hormone-treated rats, arcuate nucleus AT1A receptor mRNA expression is associated with tyrosine hydroxylase-positive neurons. No AT1A receptor mRNA was detected in tyrosine hydroxylase-positive cells of the arcuate nucleus of intact male rats. Conversely, in the anterior pituitary, where local or circulating Ang II stimulates prolactin release, [125I]Sar1-Ang II binding to AT1 receptors and AT1B receptor mRNA expression are decreased in 17beta-estradiol/progesterone-treated ovariectomized rats. Thus, AT1A receptors in the dorsal arcuate nucleus and AT1B receptors in the anterior pituitary are regulated inversely by estrogen/progesterone treatment, supporting the hypothesis of a dual role for brain and pituitary Ang II on prolactin release. The colocalization of AT1A receptor mRNA and tyrosine hydroxylase in neurons of the arcuate nucleus furthermore indicates that within this area central Ang II acts directly on dopaminergic neurons. These results support the hypothesis that central Ang II inhibits pituitary prolactin release indirectly via modulation of dopaminergic activity in the arcuate nucleus.
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PMID:Angiotensin II AT1A receptor mRNA expression is induced by estrogen-progesterone in dopaminergic neurons of the female rat arcuate nucleus. 933 3

The discovery that all components of the renin-angiotensin system (RAS) are present in the central nervous system led investigators to postulate the existence of a local brain RAS. Supporting this, angiotensin immunoreactive neurons have been visualized in the brain. Two major pathways were described: a forebrain pathway which connects circumventricular organs to the median preoptic nucleus, paraventricular nucleus, and supraoptic nucleus, and a second pathway connecting the hypothalamus to the medulla oblongata. Blood-brain barrier deficient circumventricular organs are rich in angiotensin II receptors. By activating these receptors, circulating angiotensin II may act on central cardiovascular centers via angiotensinergic neurons, providing a link between peripheral and central angiotensin II systems. Among the effector peptides of the brain RAS, angiotensin II and angiotensin III have the same affinity for the two pharmacologically well-defined receptors: type 1 (AT1) and type 2 (AT2). When injected in the brain, these peptides increase blood pressure, water intake, and anterior and posterior pituitary hormone release and may modify memory and learning. The cloning of AT1 and AT2 receptor cDNAs has revealed that these receptors belong to the seven transmembrane domain receptor family. In rodents, two AT1 receptor subtypes, AT1A and AT1B, have been isolated. Using specific riboprobes for in situ hybridization histochemistry, recent studies mapped the distribution of AT1A, AT1B, and AT2 receptor mRNAs in the adult rat and found a predominant expression of AT1A and AT2 mRNA in the brain and of AT1B in the pituitary. Very limited overlap was found between the brain expression of AT1A and AT2 mRNAs. In several functional entities of the brain, such as the preoptic region, the hypothalamus, the olivocerebellary system, and the brainstem baroreflex arc, the colocalization of receptor mRNA, binding sites, and angiotensin immunoreactive nerve terminals suggests local synthesis and expression of angiotensin II receptors. In other areas, such as the bed nucleus of the stria terminalis, the median eminence, or certain parts of the nucleus of the solitary tract, angiotensin II receptors are likely of extrinsic origin. The neuronal expression of AT1A and AT2 receptors was demonstrated in the subfornical organ, the hypothalamus, and the lateral septum. By using double label in situ hybridization, AT1A receptor expression was localized in corticotropin releasing hormone but not in vasopressin containing neurons in the hypothalamus. The information is discussed together with functional data concerning the role of brain angiotensins, in an attempt to provide a better understanding of the physiological and functional roles of each receptor subtype.
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PMID:Expression of angiotensin type-1 (AT1) and type-2 (AT2) receptor mRNAs in the adult rat brain: a functional neuroanatomical review. 934 32

The localization of two type 1 angiotensin II receptor subtype mRNA, AT1A and AT1B, was determined by reverse transcription-PCR on microdissected glomeruli and nephron segments. The coupling sensitivity of these two receptor subtypes was evaluated by measuring variations in intracellular calcium ([Ca2+]i) elicited by angiotensin II (Ang II) in structures expressing either AT1A or AT1B mRNA, using Fura-2 fluorescence. The highest expression of AT1 mRNA was found in glomerulus, proximal tubule, and thick ascending limb. In glomerulus, AT1A and AT1B mRNA were similarly expressed, whereas in all nephron segments AT1A mRNA expression was dominant (approximately 84%). The increase in [Ca2+]i elicited by 10(-7) mol/L Ang II was highest in proximal segments (delta [Ca2+]i is approximately equivalent to 300 to 400 nmol/L) and thick ascending limb (delta [Ca2+]i is approximately equivalent to 200 nmol/L). In glomerulus and collecting duct, the response was lower (delta < 100 nmol/L). The median effective concentrations for Ang II were of the same order of magnitude in glomerulus (12.2 nmol/L), in which both AT1A and AT1B are expressed, and in cortical thick ascending limb (10.3 nmol/ L), in which AT1A is almost exclusively expressed. The Ang II-induced calcium responses were totally abolished by the AT1 receptor antagonist losartan (1 mumol/L) but not by the AT2 antagonist PD 123319 (1 mumol/L). In the absence of external Ca2+, the peak phase of the response induced by 10(-7) mol/L Ang II was reduced and shortened, suggesting that a part of the [Ca2+]i increase originated from the mobilization of the intracellular Ca2+ pool. In conclusion, these results demonstrate that in the rat kidney: (1) AT1A is the predominant AT1 receptor subtype expressed in the nephron segments, (2) glomerulus is the only structure with a relatively high AT1B mRNA content, and (3) AT1A and AT1B receptor subtypes do not differ in their efficiency for the activation of calcium second-messenger system.
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PMID:Expression of type 1 angiotensin II receptor subtypes and angiotensin II-induced calcium mobilization along the rat nephron. 935 68

GRK5, a recently cloned member of the G protein-coupled receptor kinase family, has been shown to phosphorylate and participate in the desensitization of angiotensin II (Ang II) type 1A (AT1A) receptors. In this study, the effect of angiotensin II on GRK5 expression was examined in cultured vascular smooth muscle cells and aortas of Ang II-infused hypertensive rats. In vascular smooth muscle cells, Ang II (100 nM) up-regulated GRK5 mRNA as early as 1 h, with a peak at 16 h. This up-regulation was dose- and calcium-dependent. The increase in GRK5 mRNA was reflected in a smaller increase in protein expression, which nonetheless had functional significance since AT1 receptor phosphorylation was increased and phospholipase C activation was decreased following prolonged incubation with Ang II. In aortas of Ang II-infused hypertensive rats, both GRK5 mRNA and protein levels increased approximately 3-fold compared with sham-operated rats at 5 and 7 days, respectively. This up-regulation was blocked either by losartan or by the nonspecific vasodilator hydralazine. Since a subpressor dose of Ang II did not increase GRK5 mRNA levels and norepinephrine infusion also increased GRK5 mRNA expression, we conclude that Ang II-induced GRK5 up-regulation in rat aortas may be due to hypertension per se. Hormone- and hemodynamic stress-induced GRK5 regulation may provide a novel molecular basis for long-term regulation of agonist sensitivity of vascular cells.
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PMID:G protein-coupled receptor kinase 5 in cultured vascular smooth muscle cells and rat aorta. Regulation by angiotensin II and hypertension. 940 59

1. The role of protein kinase C (PKC) in the mechanism underlying rapid agonist-induced desensitization of angiotensin AT1 receptors remains unresolved. A major problem has been to isolate these receptors in a sufficiently purified form to allow study of their phosphorylation state. 2. A cleavable (His)6 affinity tag was introduced into the N-terminus of the recombinant AT1A receptor and stably expressed in human embryonic kidney cells. This affinity tag allowed rapid isolation, purification and determination of the phosphorylation state of the AT1A receptor. Using these cells, we determined the role of PKC in both agonist-induced receptor phosphorylation and desensitization under identical conditions. 3. Agonist-induced phosphorylation of the AT1A receptor was observed at both low and high concentrations of angiotensin II (AII). Preincubation of cells with Ro-31-8220 (a PKC specific inhibitor) revealed that at low concentrations of AII (1 nM), PKC appeared to be the main kinase involved in receptor phosphorylation. In contrast, at high concentrations of AII (100 nM), although PKC-mediated phosphorylation of the receptor was observed, this was overshadowed by a second kinase. 4. In preliminary desensitization studies we observed that at a low concentration of AII, preincubation with Ro-31-8220 attenuated desensitization, whilst at high concentrations of AII (100 nM) it had little or no effect on the level of desensitization observed. 5. These data directly demonstrate an association between PKC-induced receptor phosphorylation and desensitization at low concentrations of AII. Since circulating concentrations of AII are in the picomolar range, we propose that PKC is the physiologically relevant mediator of AT1 receptor desensitization.
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PMID:Evidence of an important and direct role for protein kinase C in agonist-induced phosphorylation leading to desensitization of the angiotensin AT1A receptor. 942 Dec 97

We demonstrate a functional role for the 3'-untranslated region (3'-UTR) of the angiotensin II (Ang II) receptor subtype AT1A mRNA in Chinese hamster ovary (CHO-K1) cells by stably transfecting the coding region of the receptor gene with or without the 845 bp 3'-UTR. Two cell lines expressing similar levels of cell-surface receptors (with 3'-UTR, Bmax=571 fmol/mg protein; without 3'-UTR, Bmax=663 fmol/mg protein) were used in the present study. Both cell lines expressed high-affinity receptors (with 3'-UTR, Kd=0.83 nM; without 3'-UTR, Kd=0.82 nM), and binding studies with 125I-labelled Ang II in the presence of GTP[S] demonstrated that both coupled to heterotrimeric G-proteins. Despite these similarities, significant differences were observed for receptor-mediated cell signalling pathways. In cells without the 3'-UTR, Ang II stimulated an increase in cAMP accumulation (11-fold above control) and in cells with the 3'-UTR no stimulation was observed, which was consistent with previous observations in most endogenous Ang II receptor (AT1)-expressing cells. Activation of cAMP by Ang II in cells without the 3'-UTR correlated with an inhibition of DNA synthesis, determined by [3H]thymidine incorporation. Ang II-mediated responses were blocked by EXP3174, a selective non-peptide receptor antagonist. We also observed differences in the transient profiles of intracellular calcium between cells with and without the 3'-UTR in response to Ang II. In cells with the 3'-UTR, a sustained level of intracellular calcium was observed after Ang II stimulation, whereas cells without the 3'-UTR displayed a full return to basal level within 50 s of Ang II treatment. Even though the expressed exogenous gene is under the control of a constitutively expressing promoter (cytomegalovirus promoter), Northern-blot analysis revealed a considerably greater accumulation of AT1A mRNA in cells without the 3'-UTR compared with cells with the 3'-UTR. Analysis of the decay rate of the AT1A mRNA in cells with and without the 3'-UTR revealed that the normally unstable AT1A receptor mRNA became highly stable by removing its 3'-UTR, identifying a role for the 3'-UTR in mRNA destabilization. Interestingly, both cells express similar levels of receptors at the cell surface, suggesting that the 3'-UTR is also involved in the efficient translation and/or translocation of the receptor protein to the plasma membrane. We hypothesized that these 3'-UTR-mediated functions of the receptor are regulated by RNA-binding proteins. To identify possible RNA-binding proteins for the AT1A 3'-UTR, cellular extracts were prepared from parental CHO-K1 cells and 3'-UTR-binding assays, electrophoretic mobility-shift assays and UV crosslinking studies were performed. A major cellular protein of 55 kDa was identified, which specifically interacted with the 3'-UTR. Our data suggest that the 3'-UTR of the AT1A can control specific receptor functions, perhaps via selective recognition of the 3'-UTR by RNA-binding proteins.
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PMID:Functional role for the angiotensin II receptor (AT1A) 3'-untranslated region in determining cellular responses to agonist: evidence for recognition by RNA binding proteins. 942 7

Differential evaluation of angiotensin II (Ang II) receptors (AT1A, AT1B and AT2) expression was performed in dispersed adenohypophyseal cells fractionated by unit gravity sedimentation. Binding of [125I-Sar1-Ile8]-Ang II and its displacement by specific nonpeptidic AT1 (DuP753) and AT2 (PD123319) antagonists was monitored throughout the gradient. Quantification of mRNA levels corresponding to both AT1 receptor subtypes (AT1A and AT1B) was achieved by reverse transcriptase polymerase chain reaction (RT-PCR) amplification in the presence of an AT1 receptor mutant cRNA as internal standard. Fractions were characterised by radioimmunoassay for the five major anterior pituitary hormones and by counting immunocytochemically labelled cells. Quantification of AT1 receptor subtype mRNA levels was also performed in four hypophyseal cell lines secreting prolactin, growth hormone, corticotropin and a gonadotropin subunit. As already described for the whole pituitary, AT1B receptor mRNA is predominantly expressed (80% of total AT1A + AT1B receptor mRNA content), whereas AT1A is expressed at lower level (20%) in dispersed pituitary cells. Most AT1 receptor mRNA and binding co-elute with fractions enriched in lactotropes and corticotropes. In contrast to AT1B, AT1A receptor mRNA is not present in heavier populations of lactotropes or in somatomammotropes. Low AT1B mRNA levels are detected in GH4C1 and in GC cells, two clones which secrete respectively prolactin and growth hormone. In contrast, no AT1 receptor mRNA expression was found in two other cell lines, AtT20 and alphaT3-1, which produce pro-opiomelanocortin and gonadotropin. It is concluded that expression of AT1 receptor subtypes is heterogeneous in different populations of lactotropes and corticotropes.
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PMID:Expression of angiotensin II receptor subtypes AT(1A) and AT(1B) in enriched fractions of dispersed rat pituitary cells. 943 Apr 47

In rat liver plasma membrane a single angiotensin II (Ang II) binding site (Kd of 3.71 +/- 0.33 nM and Bmax of 1143.7 +/- 83.9 fmol/mg protein) was identified using radioligand binding assay. Pharmacologically, this receptor match with the AT1 receptor subtypes in term of affinity for the selective antagonist Losartan, and probably with the AT1A receptor form in term of insensitivity for the antagonist PD123319. Nevertheless, using polyacrylamide gel isoelectric focusing, two 125I-Ang II binding sites migrating to pI 6.8 and 6.5 were found in these membrane preparations. Monophasic displacement of 125I-Ang II bound to isoform migrating at pI 6.8 clearly indicate that this isoform represents a functional Ang II-receptor complex. In contrast, the high concentrations of agonist and peptidic derivates of Ang necessary to displace 125I-Ang II bound to isoform migrating at pI 6.5 indicate that this atypical 125I-Ang II binding site represents a biologically nonfunctional Ang II binding molecule, presumably a nonspecific 125I-Ang II binding site.
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PMID:Characterization of the functional angiotensin II-receptor complex isoform in rat liver plasma membrane. 944 67

Previous studies have suggested that epididymal and sperm functions are subject to control by a local renin-angiotensin II system (RAS) in the rat epididymis. Type-1 angiotensin II receptor, AT1 and type-2 receptor, AT2 were localized in epididymal epithelium, indicating that RAS may act in a paracrine or autocrine fashion to regulate fluid secretion, probably through the basally placed membrane-bound AT1 protein as revealed by immunocytochemical and electrophysiological studies. In the present work, the expression of the angiotensin II receptor subtypes in the rat epididymis was showed by western blot analysis and reverse-transcription polymerase chain reaction (RT-PCR) using specific primers for the angiotensin II receptor subtypes. Western blot analysis showed the expression of AT1 receptor in the rat epididymis. Results from RT-PCR, using specific primers based on the corresponding angiotensin II receptor subtype genes for AT1a, AT1b and AT2 , demonstrated the differential expression of mRNAs from these receptor subtypes in the epididymides of mature and immature rats. Both the genes for AT1a and AT1b, but not that for AT2, are predominantly expressed in the epididymides of mature rat. In contrast, only AT1a and AT2 were highly expressed in the epididymides of immature rat. These results suggest that the expression of type-1 and type-2 angiotensin II receptor subtypes are developmentally regulated. Type-1 subtype may play a role in regulation of electrolyte and fluid transport in mature rat whereas type-2 subtype may be important in growth and development in the immature rat.
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PMID:Differential gene expression of angiotensin II receptor subtypes in the epididymides of mature and immature rats. 944 37

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