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Query: UMLS:C0004135 (ATM)
 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin II receptors are highly localized in adult gerbil brain. Apparent receptor number is high in subfornical organ, vascular organ of the lamina terminalis, nucleus of the solitary tract, hippocampus, and in the anterior pituitary gland. In the hippocampus, binding is localized to the stratum oriens, radiatum, the lacunar molecular layers of the CA1 subfield, and the molecular layer of the gyrus dentatus, with a medial to lateral and anterior to posterior gradient in receptor expression. Binding is absent from the pyramidal layer of the CA1 subfield and from the granular cell layer of the gyrus dentatus, areas rich in angiotensin IV binding. Characterization in the hippocampus revealed the presence of a high affinity receptor, sensitive to incubation with the guanine nucleotide GTP gamma S, and displaced by angiotensin II = angiotensin III < Sar1-Ile8-angiotensin II, but not by angiotensin IV or other angiotensin fragments, the AT1 receptor antagonist losartan, or the AT2 ligands CGP 42112 or PD 123177. In other brain areas, binding was equally insensitive to displacement by AT1 or AT2 ligands, with the exception of binding in the olfactory bulb, which was totally displaced by CGP 42112 and PD 123177, but not by losartan. In the gerbil, most of the brain and pituitary angiotensin II receptors are different from the AT1, AT2 and AT4 subtypes, and should be considered 'atypical' until further characterization.
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PMID:Expression of a novel angiotensin II receptor subtype in gerbil brain. 882 48

Because angiotensin II (Ang II) has been found at high concentrations in the proximal tubule fluid and because tubular brush border membranes exhibit a marked capacity for degrading Ang II, we thought it of interest to examine the binding sites for Ang II (3-8) (referred to as Ang IV), a metabolite of Ang II, downstream in the nephron. We studied the binding of [125I]-Ang IV and also of [125I]-Sar1, Ala8, Ang II to SV-40 transformed human collecting duct cell (HCD) membranes. No specific binding site for [125I]-Sar1, Ala8, Ang II and no Ang II-dependent cytosolic calcium response could be observed. Moreover, no signal for the human type I Ang II receptor (hAT1) mRNA was present in HCD cells. In contrast, [125I]-Ang IV bound specifically to HCD cell membranes. Mean Kd and Bmax values derived from saturation binding studies were 5.6 +/- 2.0 nM and 1007.6 +/- 140.2 fmol/mg protein, respectively. The rank order of affinity for competitive Ang II-related peptides was: Ang IV > Ang III > Ang II > Ang II (4-8) > Ang II (1-7). [125I]-Ang IV binding was not modified by nonpeptide AT1 (losartan) or AT2 (PD123177) antagonists. GTP gamma S and dithiotreitol did not affect [125I]-Ang IV binding. Ang IV stimulated cAMP production by intact HCD cells in the presence of forskolin but did not modify cGMP production or cytosolic calcium concentration. Taken together, these results indicate that HCD cells represent a target site for Ang IV but do not possess Ang II receptors.
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PMID:Evidence for angiotensin IV receptors in human collecting duct cells. 888 69

1. The effect of angiotension II (Ang) on delayed rectifier K+ current (IK(V)) was studied in isolated rabbit portal vein smooth muscle cells using standard whole-cell voltage clamp technique. The effect of 100 nM Ang on macroscopic, whole-cell IK(V) was assessed in myocytes dialysed with 10 mM BAPTA, 5 mM ATP and 1 mM GTP either at room temperature or at 30 degrees C. 2. Application of Ang caused a decline in IK(V) which was reversed upon washout of the drug. Tail current recorded after 250 ms pulses to +30 mV and repolarization to -40 mV was reduced from 3.9 +/- 0.7 to 2.5 +/- 0.5 pA pF-1 at 20 degrees C (n = 6) and from 4.5 +/- 0.5 to 3.13 +/- 0.4 pA pF-1 at 30 degrees C(n = 17). 3. Ang had no effect on outward current in the presence of an AT1 selective antagonist, losartan (1 microM), which alone had no direct effect on the amplitude of IK(V). Substitution of extracellular Ca2+ with Mg2+ in the presence of 10 microM intracellular BAPTA did not affect the suppression of IK(V) by Ang. 4. Ang induced a decrease in time constant for the rapid phase of inactivation of the macroscopic current (tau 1 reduced from 377 +/- 32 to 245 +/- 11 ms; tau 2 unchanged, n = 17). Neither the voltage dependence of activation nor inactivation were affected by Ang. 5. The inhibition of IK(V) by Ang was abolished by intracellular dialysis with the selective PKC inhibitors, calphostin C (1 microM) and chelerythrine (50 microM). These data provide strong evidence that the decline in IK(V) due to Ang treatment is due to PKC activation. 6. The pattern of expression of PKC isoforms was examined in rabbit portal vein using isoenzyme-specific antibodies: alpha, epsilon and zeta isoenzymes were detected, but beta, gamma, delta and eta isoenzymes were not. 7. The lack of requirement for Ca2+, as well as the sensitivity of the Ang response to chelerythrine, suggest the involvement of the Ca(2+)-independent PKC isoenzyme epsilon in the signal transduction pathway responsible for IK(V) inhibition by Ang.
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PMID:Angiotensin II activation of protein kinase C decreases delayed rectifier K+ current in rabbit vascular myocytes. 888 76

Congestive heart failure (CHF) patients share several similar features, such as reduced cardiac contractility and neurohumoral activation to compensate the impaired cardiac function. In CHF patients, the cardiac renin-angitensin (RA) system, receptors, GTP-binding proteins, and their effector molecules are inevitably exposed to chronically elevated neurohumoral stimulation. A widely recognized concept is that a chronic increase in such stimulation can desensitize target cell receptors and the post-receptor signal transducing pathway. Recently, reports of several studies have indicated that the inhibitory GTP-binding protein (Gi) can be increased in CHF patients and animal models. Although direct evidence for a change in catalytic protein of adenylyl cyclase has not been found, limited information has suggested a reduced catalytic activity in terminally failing hearts. In this paper, we have assessed the changes in beta AR, GTP-binding protein, catalytic protein and beta ARK. We also examined angiotensinogen mRNA expression in failing heart. It was detected not only in the liver, but also in both the atrial and ventricular heart tissues, suggesting that angiotensinogen is synthesized in the human heart. Immunohistochemical studies revealed a stronger reaction in the endocardial layer of the human left ventricle than in the epicardial layer, and intense immunoreactivity in the conduction system and right atrium. Our experiments revealed a widespread immunopositive reaction for angiotensinogen in the left ventricle of diseased hearts. In the non-diseased heart, ACE and AT1 receptor RNA are present in ventricular muscles. Renin and Ao mRNA could not be detected in the subendocardium of non-diseased left ventricle, but both were present in the left ventricle of diseased hearts. These data indicate that the cardiac RA system plays an important role in the deterioration of cardiac function.
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PMID:Alterations of signal transduction system in heart failure. 929 May 67

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

AT1 receptor is responsible for most of the physiological effects of Angiotensin II (Ang II). AT1 receptor belongs to the G-protein-coupled receptor (GPCR) family, and it mediates its actions through the coupling of the Gq/11 protein with phospholipase C beta. Classical pharmacology has used the sensitivity of GPCR ligands to uncoupling agents as a criteria to discriminate agonists (which are sensitive) from antagonists (which are insensitive). In this study, the uncoupling agents GTP gamma S and pentosan sulfate (PS) (a low molecular weight polyanion) were used to further characterize the molecular interactions between Ang II analogs and the AT1 receptor. We show that some Ang II antagonists are sensitive to the conformational change of the AT1 receptor induced by uncoupling agents. These results demonstrate that there is no direct relationship between the intrinsic activity of a ligand and its affinity for different conformations of the AT1 receptor and that the sensitivity of GPCR ligands to uncoupling agents can not be used as a criteria to discriminate agonists from antagonists.
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PMID:Effect of uncoupling agents on AT1 receptor affinity for antagonist analogs of angiotensin II. 966 23

Angiotensin II (AG II) stimulates the ouabain-insensitive, furosemide- sensitive Na+-ATPase present in the basolateral membrane of pig renal proximal tubules in a dose dependent manner. Maximum effect was obtained with 10-8 M AG II, which corresponded to an activity 134% higher than control. Half of the maximum effect was observed between 10-11 M and 10-10 M, corresponding to physiological hormone levels. Saralasin, an AG II peptide analogue receptor antagonist, abolished the phenomenon, demonstrating that AG II interacts with specific sites in pig proximal tubules. The AG II stimulatory effect was also prevented by dithiothreitol (DTT), a reducing compound, and by 10 nM losartan, a non-peptide antagonist highly specific for AT1 receptors, characterizing AG II binding to AT1 receptors. GTPgammaS, a non-hydrolysable GTP analogue, increased by 159% the enzyme activity as compared to the control values. The simultaneous addition of 10-5 M GTPgammaS and 10-8 M AG II did not have additive effects. Furthermore, the stimulatory action of AG II was completely abolished by 0.1 microM GDPbetaS, a non-hydrolysable GDP analogue. Two microgram ml-1 pertussis toxin, an inhibitor of Gi-protein, did not modulate the AG II stimulatory effect. On the other hand, the Na+-ATPase activity was enhanced 100% in the presence of cholera toxin and 85% in the presence of both AG II and cholera toxin. Taken together, these data suggest that AG II activates the Na+-ATPase activity through AT1 receptors coupled to a pertussis-insensitive and cholera-sensitive G-protein.
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PMID:Angiotensin II activates the ouabain-insensitive Na+-ATPase from renal proximal tubules through a G-protein. 988 88

3-Hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (statins) may exert pleiotropic effects on vascular cells independent of lowering plasma cholesterol. To elucidate the molecular mechanisms involved in these effects, we investigated the impact of statins on production of reactive oxygen species (ROS) in rat aortic vascular smooth muscle cells (VSMC). Exposure of VSMC to angiotensin II caused production of ROS via angiotensin AT1 receptor activation. Pretreatment with atorvastatin inhibited angiotensin II-induced ROS production. Atorvastatin decreased AT1 receptor mRNA levels in a time- and concentration-dependent manner and consistently reduced AT1 receptor density. L-Mevalonate but not hydroxy-cholesterol reversed the inhibitory effect of atorvastatin on AT1 receptor transcript levels. Inhibition of geranylgeranyl-transferase but not of farnesyl-transferase mimicked the effect of atorvastatin on AT1 receptor gene expression. Atorvastatin did not decrease AT1 receptor gene transcription but did reduce the half-life of the AT1 receptor mRNA. AT1 receptor activation by angiotensin II increased the expression of the GTPase rac1, enhanced rac1 GTP-binding activity, and increased the geranylgeranyl-dependent translocation of rac1 to the cell membrane. In contrast, statins inhibited rac1 activity and membrane translocation. Consequently, specific inhibition of rac1 with Clostridium sordellii lethal toxin blocked angiotensin II-induced production of free radicals. Finally, treatment of rats with atorvastatin caused down-regulation of aortic AT1 receptor mRNA expression and reduced aortic superoxide production in vivo. Cholesterol-independent down-regulation of AT1 receptor gene expression and inhibition of rac1, leading to decreased ROS production, demonstrates a novel regulatory mechanism of statins that may contribute to the beneficial effects of these drugs beyond lowering of plasma cholesterol.
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PMID:Inhibition of geranylgeranylation reduces angiotensin II-mediated free radical production in vascular smooth muscle cells: involvement of angiotensin AT1 receptor expression and Rac1 GTPase. 1117 61

Angiotensin II is known to stimulate cardiac hypertrophy and contractility. Most angiotensin II effects are mediated via membrane bound AT1 receptors. However, the role of myocardial AT1 receptors in cardiac hypertrophy and contractility is still rarely defined. To address the hypothesis that increased myocardial AT1 receptor density causes cardiac hypertrophy apart from high blood pressure we developed a transgenic rat model which expresses the human AT1 receptor under the control of the alpha-myosin heavy-chain promoter specifically in the myocardium. Expression was identified and quantified by northern blot analysis and radioligand binding assays, demonstrating overexpression of angiotensin II receptors in the transgenic rats up to 46 times the amount seen in nontransgenic rats. Coupling of the human AT1 receptor to rat G proteins and signal transduction cascade was verified by sensitivity to GTP-gamma-S and increased sensitivity of intracellular Ca2+ [Ca2+]i to angiotensin II in fluo-3 loaded transgenic cardiomyocytes. Transgenic rats exhibited normal cardiac growth and function under baseline conditions. Pronounced hypertrophic growth and contractile responses to angiotensin II, however, were noted in transgenic rats challenged by volume and pressure overload. In summary, we generated a new transgenic rat model that exhibits an upregulated myocardial AT1 receptor density and demonstrates augmented cardiac hypertrophy and contractile response to angiotensin II after volume and pressure overload, but not under baseline conditions.
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PMID:Overexpression of the human angiotensin II type 1 receptor in the rat heart augments load induced cardiac hypertrophy. 1169 58

Internalization of a G-protein-coupled receptor (GPCR) is essential to the desensitization, endocytosis, and signal transduction of the receptor. It has been the general view that conventional homologous internalization of a GPCR requires activation of the G-protein(s) coupled to the receptor. However, whether and how GPCR-mediated G-protein-independent signals trigger receptor internalization remains unknown, although G-protein-independent internalization has been reported. Here we show that an angiotensin II (Ang II) type-1 (AT1) receptor mutant incapable of activating any G-protein still undergoes normal internalization. Substitution of Asp125 with Ala and Arg126 with Leu at the highly conserved DRY motif of the AT1 receptor disabled the ability of the receptor to activate G-proteins, as shown by various Ang II binding studies, GDP-GTP exchange, and inositol phosphate production assays. Surprisingly, the mutant internalized normally in the presence of Ang II and transactivated the epidermal growth factor receptor (EGFR). Similar to the wild-type receptor, overexpression of a dominant-negative K220R mutant GRK2 diminished the internalization of D125A-R126L but not the transactivation of EGFR. These data indicate that G-protein-independent specific signals may also trigger homologous internalizations of the AT1 receptor through beta-arrestin-dependent and -independent pathways, suggesting a possible mechanism for G-protein-independent activation of G-protein-coupled receptor kinases (GRKs). This may represent a general mechanism for triggering GPCR internalization.
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PMID:Unconventional homologous internalization of the angiotensin II type-1 receptor induced by G-protein-independent signals. 1599


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