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Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angiotensin II is an eight amino acid peptide which plays a major role in the regulation of cardiovascular homeostasis. The physiologic effects of angiotensin (Ang) II are mediated by a
G-protein coupled receptor
, termed
AT1
, which activates phospholipase C. A major factor regulating angiotensin II receptor function is the rapid desensitization following agonist stimulation. However, despite years of investigation, the mechanism by which the angiotensin receptor is regulated remains unclear. The cloning of the AT-1 receptor and the availability of cell lines which stabily express this receptor has helped elucidate these mechanisms. In this paper, we review the data from our laboratory concerning the post-translational regulation of the angiotensin receptor function.
...
PMID:Desensitization of angiotensin receptor function. 769 89
With the development of subtype specific angiotensin II (Ang II) receptor antagonists and their introduction into the treatment of heart failure and hypertension, the regulation of the Ang II receptor with its subtypes
AT1
and Ang T2 gains clinical importance. In cell cultures, the number of surface
AT1
is clearly down-regulated by Ang II exposure. Down-regulation can be due to reversible internalization, to phosphorylation and to reduced synthesis and involves protein kinase C and phospholipase C mediated pathways. In this respect, the
AT1
behaves as a typical
G-protein coupled receptor
. Aldosterone, cAMP, norepinephrine and extracellular glucose concentrations can contribute to
AT1
regulation. There are very few data regarding the regulation of the subtype AT2, indicating modulation by a number of growth factors and by Ang II. In whole animal models receptor regulation deviates partially from cell cultures. In the rat, the two subtypes AT1A and AT1B are differentially regulated and the expression of subtypes is organ specific. In most experiments, including our own experiences, the
AT1
, in the adrenals was up-regulated by Ang II infusion and down-regulated by angiotensin converting enzyme inhibitors (ACEI) or Ang II receptor antagonists. Differing effects were observed in other organs. In humans, a number of studies seeking an association between Ang II levels, Ang II receptor regulation and physiological events have been conducted in platelets. In pregnant women, a negative correlation between plasma Ang II levels and Ang II binding and an association between receptor regulation and pregnancy-induced hypertension has been described.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Regulation of the angiotensin receptor subtypes in cell cultures, animal models and human diseases. 771 21
Most of angiotensin II's (Ang II) documented effects have been attributed to the interaction of this peptide with a
G-protein coupled receptor
termed
AT1
. The role and the signalling mechanisms of the more recently characterized AT2 receptor, which does not appear to interact with G-proteins, are however still unclear. We report here that this receptor mediates the rapid dephosphorylation of tyrosine residues of specific proteins in the 60 to 150 KDa range in PC12W cells which express only AT2 receptors. We further characterized this phosphatase activity using the synthetic substrate para-nitrophenyl phosphate. Dephosphorylation of this substrate in response to Ang II is not affected by Ser/Thr phosphatase inhibitors, but is completely prevented by the protein tyrosine phosphatase (PTPase) inhibitor sodium orthovanadate. This effect is mimicked by the AT2 selective agonist CGP42112 and is not affected by the
AT1
antagonist losartan, In contrast to the recently reported PTPase stimulation by somatostatin and dopamine, PTPase stimulation by Ang II is not affected by the guanyl nucleotides GTP gamma S and GDP beta S. Moreover, depletion of solubilized membrane preparations from G-proteins by lectin affinity chromatography does not alter Ang II stimulation of the measured PTPase activity. These findings indicate that Ang II stimulates a PTPase activity through AT2 receptors via G-protein independent pathways. This signalling mechanism may be involved in AT2 receptor mediated actions of Ang II such as particulate guanylate cyclase inhibition, modulation of T-type Ca++ channels and regulation of cell proliferation and differentiation.
...
PMID:Angiotensin II stimulates protein tyrosine phosphatase activity through a G-protein independent mechanism. 795 93
The octapeptide, angiotensin II, has a modulatory role on cardiac cellular growth associated with hypertension and in compensatory remodeling following myocardial infarction. The molecular signal transduction pathways that participate in these and other cellular actions in response to angiotensin II are presently being elucidated. The signal transducers and activators of transcription (STAT) pathway directly links cytokine and growth factor receptors with transcriptional activity. We provide evidence that the G protein-linked, angiotensin II,
AT1
-receptor couples to activation of the STAT pathway in neonatal rat cardiac myocytes. Angiotensin II induces primarily sis-inducing factor (SIF) B and to a lesser extent SIF-C and SIF-A. The EC50 of this response was 40 nM and Stat1 and Stat3 proteins were identified as components of the SIF complexes. Stat1 and Stat3 were tyrosine phosphorylated five-fold and three-fold, respectively, over control levels following angiotensin II treatment of cardiac myocytes. Phosphorylation of Stat1 and Stat3 proteins was rapid (5 min) and sustained (60 min). Jak2 was also tyrosine phosphorylated eight-fold by angiotensin II treatment, and phosphorylated Stat1 and Stat3 proteins co-immunoprecipitated with activated Jak2 kinase. Selective inhibition of Jak2 kinase with AG-490 blocked formation of angiotensin II induced SIF complexes, suggesting that Jak2 kinase is required for cardiomyocyte SIF induction. In addition, Jak2, Stat1 and Stat3 proteins co-immunoprecipitated with the
AT1
-receptor. These are the first data to demonstrate coupling of a
G-protein coupled receptor
,
AT1
, to the JAK-STAT pathway in primary cultured cardiac myocytes and suggest that this pathway may be involved in transcriptional regulation by angiotensin II.
...
PMID:The type I angiotensin II receptor couples to Stat1 and Stat3 activation through Jak2 kinase in neonatal rat cardiac myocytes. 929 74
The angiotensin AT2 receptor subtype was recently cloned and pharmacologically characterized but its function still remains elusive and controversial. It is a member of the
G-protein coupled receptor
superfamily with a minimal sequence homology with the
AT1
receptor, responsible for the known effect of angiotensin II. The AT2 receptor displays a totally different signaling mechanisms from the
AT1
receptor and involves various phosphatases. It is expressed at low density in adult tissues but up-regulated in pathological circumstances. Clearly, the AT2 receptor has antiproliferative properties and therefore opposes the growth promoting effect linked to the
AT1
receptor stimulation. It is also reported that the AT2 receptor regulates ionic fluxes, affects differentiation and nerve regeneration, has anti-angiogenic and anti-fibrotic properties and stimulates apoptosis. However, the results, although suggestive, are sometimes equivocal. Obviously, the AT2 receptor plays a role in the pathogenesis and remodeling of cardiovascular and renal diseases. A more extensive knowledge of the AT2 receptor could therefore contribute to the understanding of the clincial beneficial effects of the
AT1
receptor antagonists.
...
PMID:The AT2 receptor: fact, fancy and fantasy. 1039 4
A cDNA encoding a novel
G-protein coupled receptor
(
GPCR
) was isolated from a human cerebral cortex cDNA library by low stringency hybridization screening. This putative seven-transmembrane domain receptor of 469 amino acids was designated SALPR (Somatostatin- and Angiotensin- Like Peptide Receptor). SALPR shares the highest amount of amino acid similarity with the somatostatin (35% with SSTR5) and angiotensin receptors (31% with
AT1
). Reverse transcription-polymerase chain reaction (RT-PCR) analysis revealed that the SALPR mRNA is predominantly expressed in human brain regions, particularly the substantia nigra and pituitary, although the mRNA can also be detected in the peripheral tissues, albeit at low levels. Chromosomal mapping by radiation hybrid analysis localized the human SALPR gene to the chromosome 5p15.1-5p14. Transient expression of SALPR in COS-1 cells did not produce any binding sites for somatostatin or angiotensin II, indicating the necessity for further study to discover its ligand and physiological significance.
...
PMID:The novel G-protein coupled receptor SALPR shares sequence similarity with somatostatin and angiotensin receptors. 1080 63
Probing
G-protein coupled receptor
(
GPCR
) structures is a priority in the functional and structural understanding of GPCRs. In the past, we have used several approaches around photoaffinity labeling in order to establish contact points between peptide ligands and their cognate receptors. Such contact points are helpful to build reality based molecular models of GPCRs and to elucidate their activation mechanisms. Most studies of peptidergic GPCRs have been done with photolabeling peptides containing the benzophenone moiety as a reputedly non-selective probe. However our recent results are now showing that p-benzoylphenylalanine (Bpa) has some selectivity for Met residues in the receptor protein, reducing the accuracy of this method. Turning a problem into an asset, modified analogues of Bpa, e.g. p,p'-nitrobenzoylphenylalanine (NO2Bpa), display increased selectivity for such Met residues. It means a photoprobe containing such modified benzophenone-moieties does not label a receptor protein unless a Met residue is in the immediate vicinity. This unique property allows us to propose and show the feasibility and utility of a new method for scanning the contact areas of peptidergic GPCRs, the Methionine Proximity Assay (MPA). Putative contact residues of the receptor are exchanged to Met residues by site-directed mutagenesis and are subjected to photoaffinity labeling with such modified benzophenone-containing peptides. Successful incorporation indicates physical proximity of those residues. This principle is established and explored with benzophenone-containing analogues of angiotensin II and the two known human angiotensin II receptors
AT1
and AT2, determining contact points in both receptors. This approach has several important advantages over other scanning approaches, e.g., the SCAM procedure, since the MPA-method can be used in the hydrophobic core of receptors.
...
PMID:Methionine proximity assay, a novel method for exploring peptide ligand-receptor interaction. 1250 23
An insertion of residues in the third extracellular loop and a disulfide bond linking this loop to the N-terminal domain were identified in a structural model of a
G-protein coupled receptor
specific to angiotensin II (
AT1
receptor), built in homology to the seven-transmembrane-helix bundle of rhodopsin. Both the insertion and the disulfide bond were located close to an extracellular locus, flanked by the second extracellular loop (EC-2), the third extracellular loop (EC-3) and the N-terminal domain of the receptor; they contained residues identified by mutagenesis studies to bind the angiotensin II N-terminal segment (residues D1 and R2). It was postulated that the insertion and the disulfide bond, also found in other receptors such as those for bradykinin, endothelin, purine and other ligands, might play a role in regulating the function of the
AT1
receptor. This possibility was investigated by assaying
AT1
forms devoid of the insertion and with mutations to Ser on both positions of Cys residues forming the disulfide bond. Binding and activation experiments showed that abolition of this bond led to constitutive activation, decay of agonist binding and receptor activation levels. Furthermore, the receptors thus mutated were translocated to cytosolic environments including those in the nucleus. The receptor form with full deletion of the EC-3 loop residue insertion, displayed a wild type receptor behavior.
...
PMID:Role of the Cys18-Cys274 disulfide bond and of the third extracellular loop in the constitutive activation and internalization of angiotensin II type 1 receptor. 1662 18
Most of the classical physiological effects of the octapeptide angiotensin II (AngII) are produced by activating the
AT1
receptor which belongs to the
G-protein coupled receptor
family (GPCR). Peptidic GPCRs may be functionally divided in three regions: (i) extracellular domains involved in ligand binding; (ii) intracellular domains implicated in agonist-induced coupling to G protein and (iii) seven transmembrane domains (TM) involved in signal transduction. The TM regions of such receptors have peculiar characteristics such as the presence of proline residues. In this project we aimed to investigate the participation of two highly conserved proline residues (Pro82 and Pro162), located in TM II and TM IV, respectively, in
AT1
receptor signal transduction. Both mutations did not cause major alterations in AngII affinity. Functional assays indicated that the P162A mutant did not influence the signal transduction. On the other hand, a potent deleterious effect of P82A mutation on signal transduction was observed. We believe that the Pro82 residue is crucial to signal transduction, although it is not possible to say yet if this is due to a direct participation or if due to a structural rearrangement of TM II. In this last hypothesis, the removal of proline residue might be correlated to a removal of a kink, which in turn can be involved in the correct positioning of residues involved in signal transduction.
...
PMID:Participation of transmembrane proline 82 in angiotensin II AT1 receptor signal transduction. 1723 55
Adverse events during fetal life such as insufficient protein intake or elevated transfer of glucocorticoid to the fetus may impact cardiovascular and metabolic health later in adult life and are associated with increased incidence of type 2 diabetes, ischemic heart disease and hypertension. Several adverse factors converge and suppress the fetal renin-angiotensin-aldosterone system (RAAS). The aim of this review is to summarize data on the significance of RAAS for kidney development and adult hypertension. Genetic inactivation of RAAS in rodents at any step from angiotensinogen to angiotensin II (ANGII) type 1 receptor (
AT1
) receptors or pharmacologic inhibition leads to complex developmental injury to the kidneys that has also been observed in human case reports. Deletion of the 'protective' arm of RAAS, angiotensin converting enzyme (ACE) 2 (ACE-2) and
G-protein coupled receptor
for Angiotensin 1-7 (Mas) receptor does not reproduce the
AT1
phenotype. The changes comprise fewer glomeruli, thinner cortex, dilated tubules, thicker arterioles and arteries, lack of vascular bundles, papillary atrophy, shorter capillary length and volume in cortex and medulla. Altered activity of systemic and local regulators of fetal-perinatal RAAS such as vitamin D and cyclooxygenase (COX)/prostaglandins are associated with similar injuries. ANGII-
AT1
interaction drives podocyte and epithelial cell formation of vascular growth factors, notably vascular endothelial growth factor (VEGF) and angiopoietins (Angpts), which support late stages of glomerular and cortical capillary growth and medullary vascular bundle formation and patterning. RAAS-induced injury is associated with lower glomerular filtration rate (GFR), lower renal plasma flow, kidney fibrosis, up-regulation of sodium transporters, impaired sodium excretion and salt-sensitive hypertension. The renal component and salt sensitivity of programmed hypertension may impact dietary counseling and choice of pharmacological intervention to treat hypertension.
...
PMID:Role of the renin-angiotensin system in kidney development and programming of adult blood pressure. 3221 45
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