UMLS:C0004135 - FACTA Search

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

This review examines the recent progress in the field of angiotensin receptors. Multiplicity of these receptors was demonstrated initially on the basis of pharmacologic differences and then confirmed by expression cloning. AT1 receptors are predominant in the adult. They are widely distributed and mediate all of the known biologic effects of angiotensin II (AngII) through a variety of signal transduction systems, including activation of phospholipases C and A2, inhibition of adenylate cyclase, opening of calcium channels, and activation of tyrosine kinases. AT2 receptors are predominant in the fetus, but also present in adult tissues such as the adrenals, ovaries, uterus, and brain. AngII via these receptors exerts effects often opposed to those mediated by the AT1 receptors. Signal transduction implicates protein tyrosine phosphatase stimulation. AT1 and AT2 receptor expressions are regulated differently, and regulation is also tissue-specific. AT1 and AT2 receptors have been demonstrated in endothelial cells. Activation of AT1 receptors results in production of vasodilatory agents, nitric oxide, and prostacyclin (PGI2), which counteract the direct vasoconstrictor effects of Ang II on the adjacent smooth muscle cells. AT1 receptors on mesangial cells, smooth muscle cells, and fibroblasts are involved in cell growth and fibrosis, the latter being due both to an increase in the synthesis and a decrease in the degradation of the main components of the extracellular matrix. These AT1 receptor-dependent effects are for the most part indirect and mediated by growth factors, cytokines, and other peptides, including endothelin, transforming growth factor-beta1, and platelet-derived growth factor. AngII is metabolized into active fragments by deletion of the terminal amino acids on both ends. AngIII and AngIV are formed by successive deletions of aspartic acid and arginine at the N terminus. AngII (1-7) is obtained by deletion of phenylalanine at the C terminus. AngIII shares the same receptors and exerts the same effects as AngII. AngIV and AngII (1-7) recognize the AT1 and AT2 receptors with a lesser affinity than AngII and, in addition, possess their own receptors that mediate effects often opposed to those of AngII.
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PMID:Angiotensin II receptors. 989 38

To identify ligand-binding domains of Angiotensin II (AngII) type 1 receptor (AT1), two different radiolabeled photoreactive AngII analogs were prepared by replacing either the first or the last amino acid of the octapeptide by p-benzoyl-L-phenylalanine (Bpa). High yield, specific labeling of the AT1 receptor was obtained with the 125I-[Sar1,Bpa8]AngII analog. Digestion of the covalent 125I-[Sar1,Bpa8]AngII-AT1 complex with V8 protease generated two major fragments of 15.8 kDa and 17.8 kDa, as determined by SDS-PAGE. Treatment of the [Sar1,Bpa8]AngII-AT1 complex with cyanogen bromide produced a major fragment of 7.5 kDa which, upon further digestion with endoproteinase Lys-C, generated a fragment of 3.6 kDa. Since the 7.5-kDa fragment was sensitive to hydrolysis by 2-nitro-5-thiocyanobenzoic acid, we circumscribed the labeling site of 125I-[Sar1,Bpa8]AngII within amino acids 285 and 295 of the AT1 receptor. When the AT1 receptor was photolabeled with 125I-[Bpa1]AngII, a poor incorporation yield was obtained. Cleavage of the labeled receptor with endoproteinase Lys-C produced a glycopeptide of 31 kDa, which upon deglycosylation showed an apparent molecular mass of 7.5 kDa, delimiting the labeling site of 125I-[Bpa1]AngII within amino acids 147 and 199 of the AT1 receptor. CNBr digestion of the hAT1 I165M mutant receptor narrowed down the labeling site to the fragment 166-199. Taken together, these results indicate that the seventh transmembrane domain of the AT1 receptor interacts strongly with the C-terminal amino acid of [Sar1, Bpa8]AngII interacts with the second extracellular loop of the AT1 receptor.
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PMID:Determination of peptide contact points in the human angiotensin II type I receptor (AT1) with photosensitive analogs of angiotensin II. 1019 64

Four sets of angiotensin II (AngII) analogues with position 5 modifications, two agonist series with either Asp or Sar in position 1 and L-Phe in position 8, and two antagonist series with again Asp or Sar in position 1 and Leu in position 8 were synthesized. Modifications in positions 5 were introduced successively: Ile, Nle, Met, S-ethyl Cys, S-n-propyl-Cys, S-n-butyl Cys, S-t-butyl Cys and S-benzyl Cys in all four series. The study was undertaken in order to investigate the 5-position residue of AngII by replacing the hydrophobic side-chain by another containing an electrophilic moiety. The analogues were synthesised by solid phase synthesis using the Boc/Bzl or Fmoc/But strategy. All analogues were evaluated by their binding properties to the AT1 receptor on bovine adrenocortical membranes (bAT1). The results indicate that AngII analogues bind, irrespective of their agonistic or antagonistic nature or of their position 1 modification, in a similar manner and that position 5 modifications without beta-branching behave in an additive manner towards their affinity.
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PMID:Angiotensin II analogues with sulphur-containing side-chains in position 5. A structure-activity relationship study. 1091 44

We have previously reported that losartan, a selective antagonist of AT1 receptors for angiotensin II (AII), strongly suppresses the activation of neutrophils by N-formylmethionyl-leucyl-phenylalanine (fMLP) through a mechanism that does not involve inhibition of AT1 receptors. Herein, we analyze whether losartan would prevent the development of the acute respiratory distress syndrome (ARDS) triggered by lung bacterial infection. We found that losartan (0.2-200 microg/kg/min) delays the onset of ARDS in Wistar rats challenged by i.t. instillation of Bordetella bronchiseptica. Although this effect was associated with a significant inhibition of lung-neutrophil recruitment, lung bacterial clearance was not impaired but rather, it was significantly improved. We also found that another nonpeptide AT1 receptor blocker, irbesartan, exerted similar effects to losartan, i.e., it was also able to inhibit neutrophil activation by fMLP and to delay the onset of ARDS in B. bronchiseptica-challenged rats. Neither the inhibitor of angiotensin-converting enzyme captopril, nor the nonselective peptide inhibitor of AII receptors saralasin reproduced these effects. Our data are consistent with the possibility that nonpeptide AT1 receptor blockers delay the onset of ARDS triggered by bacterial infection through a mechanism dependent, at least in part, on their ability to prevent neutrophil activation by N-formyl-peptides.
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PMID:Nonpeptide antagonists of AT1 receptor for angiotensin II delay the onset of acute respiratory distress syndrome. 1223 31

AT1 antagonists constitute a new generation of drugs for the treatment of hypertension and are designed and synthesized to mimic the C-terminal segment of Angiotensin II (Ang II) and to block its binding action on AT1 receptor. For this reason, the conformational analysis of Ang II and its derivatives as well as the AT1 antagonists belonging to SARTANs class of molecules were studied. Such studies offer the possibility to reveal the stereoelectronic factors responsible for bioactivity of AT1 antagonists and to design and synthesize new analogues with better pharmacological and financial profiles. An example of a novel synthetic non-peptide molecule is given which mimics the His(6)-Pro(7)-Phe(8) part of Ang II and is based on the (S)-pyroglutamic acid.
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PMID:Design and synthesis of novel antihypertensive drugs. 1272 54

The peptide hormone angiotensin II (AngII) binds to the AT0 (angiotensin type 1) receptor within the transmembrane domains in an extended conformation, and its C-terminal residue interacts with transmembrane domain VII at Phe-293/Asn-294. The molecular environment of this binding pocket remains to be elucidated. The preferential binding of benzophenone photolabels to methionine residues in the target structure has enabled us to design an experimental approach called the methionine proximity assay, which is based on systematic mutagenesis and photolabeling to determine the molecular environment of this binding pocket. A series of 44 transmembrane domain III, VI, and VII X --> Met mutants photolabeled either with 125I-[Sar1,p'-benzoyl-L-Phe8]AngII or with 125I-[Sar1,p''-methoxy-p'-benzoyl-L-Phe8]AngII were purified and digested with cyanogen bromide. Several mutants produced digestion patterns different from that observed with wild type human AT1, indicating that they had a new receptor contact with position 8 of AngII. The following residues form this binding pocket: L112M and Y113M in transmembrane domain (TMD) III; F249M, W253M, H256M, and T260M in TMD VI; and F293M, N294M, N295M, C296M, and L297M in TMD VII. Homology modeling and incorporation of these contacts allowed us to develop an evidence-based molecular model of interactions with human AT1 that is very similar to the rhodopsin-retinal interaction.
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PMID:Determining the environment of the ligand binding pocket of the human angiotensin II type I (hAT1) receptor using the methionine proximity assay. 1589 Jun 59

Two 1,3,5-trisubstituted aromatic scaffolds intended to serve as gamma-turn mimetics have been synthesized and incorporated in five pseudopeptide analogues of angiotensin II (Asp-Arg-Val-Tyr-Ile-His-Pro-Phe), replacing Val-Tyr-Ile, Val-Tyr, or Tyr-Ile. All the tested compounds exhibited nanomolar affinity for the AT2 receptor with the best compound (3) having a K(i) of 1.85 nM. Four pseudopeptides were AT2 selective, while one (5) also exhibited good affinity for the AT1 receptor (K(i) = 30.3 nM). This pseudopeptide exerted full agonistic activity in an AT2 receptor induced neurite outgrowth assay but displayed no agonistic effect in an AT1 receptor functional assay. Molecular modeling, using the program DISCOtech, showed that the high-affinity ligands could interact similarly with the AT2 receptor as other ligands with high affinity for this receptor. A tentative agonist model is proposed for AT2 receptor activation by angiotensin II analogues. We conclude that the 1,3,5-trisubstituted benzene rings can be conveniently prepared and are suitable as gamma-turn mimics.
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PMID:Angiotensin II pseudopeptides containing 1,3,5-trisubstituted benzene scaffolds with high AT2 receptor affinity. 1622 Sep 78

Previous work has suggested that the protein tyrosine phosphatase, SHP-2, may act to facilitate angiotensin II (Ang II)-mediated, Jak2-dependent signaling. However, the mechanisms by which this occurs are not known. Here, Ang II-mediated, Jak2-dependent signaling was analyzed in a fibroblast cell line lacking the N-terminal, SH2 domain of SHP-2 (SHP-2(Delta46-110)). While the SHP-2(Delta46-110) cells were capable of activating Jak2 tyrosine kinase, they were unable to facilitate AT1 receptor/Jak2 co-association, STAT activation and subsequent Ang II-mediated gene transcription when compared to wild type control cells. These data therefore suggested that the N-terminal SH2 domain of SHP-2 was acting to recruit Jak2 to the AT1 receptor signaling complex. We found that the N-terminal SH2 domain of SHP-2 binds Jak2 predominantly, but not exclusively at tyrosine 201. Mass spectrometry analysis confirmed that this tyrosine residue is in fact phosphorylated. When this tyrosine was converted to phenylalanine, the ability of Jak2 to activate subsequent downstream signaling events was reduced. In summary, we have identified a novel site of Jak2 tyrosine autophosphorylation; namely, tyrosine 201. Our data suggest that the N-terminal SH2 domain of SHP-2 binds this amino acid residue. The functional consequence of this interaction is to recruit Jak2 to the AT1 receptor signaling complex and in turn promote downstream Jak2-dependent signaling.
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PMID:The N-terminal SH2 domain of the tyrosine phosphatase, SHP-2, is essential for Jak2-dependent signaling via the angiotensin II type AT1 receptor. 1702 27

The phosphoinositide-dependent kinase PDK1 activates the serum- and glucocorticoid-inducible kinase isoforms SGK1, SGK2, and SGK3 and protein kinase B, which in turn are known to up-regulate a variety of sodium-coupled transporters. The present study was performed to explore the role of PDK1 in amino acid transport. As mice completely lacking functional PDK1 are not viable, mice expressing 10-25% of PDK1 (pdk1(hm)) were compared with their wild-type (WT) littermates (pdk1(wt)). Body weight was significantly less in pdk1(hm) than in pdk1(wt) mice. Despite lower body weight of pdk1(hm) mice, food and water intake were similar in pdk1(hm) and pdk1(wt) mice. According to Ussing chamber experiments, electrogenic transport of phenylalanine, cysteine, glutamine, proline, leucine, and tryptophan was significantly smaller in jejunum of pdk1(hm) mice than in pdk1(wt) mice. Similarly, electrogenic transport of phenylalanine, glutamine, and proline was significantly decreased in isolated perfused proximal tubules of pdk1(hm) mice. The urinary excretion of proline, valine, guanidinoacetate, methionine, phenylalanine, citrulline, glutamine/glutamate, and tryptophan was significantly larger in pdk1(hm) than in pdk1(wt) mice. According to immunoblotting of brush border membrane proteins prepared from kidney, expression of the Na+-dependent neutral amino acid transporter B(0)AT1 (SLC6A19), the glutamate transporter EAAC1/EAAT3 (SLC1A1), and the transporter for cationic amino acids and cystine b(0,+)AT (SLC7A9) was decreased but the Na+/proline cotransporter SIT (SLC6A20) was increased in pdk1(hm) mice. In conclusion, reduction of functional PDK1 leads to impairment of intestinal absorption and renal reabsorption of amino acids. The combined intestinal and renal loss of amino acids may contribute to the growth defect of PDK1-deficient mice.
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PMID:Reduced intestinal and renal amino acid transport in PDK1 hypomorphic mice. 1707 98

p-Azido-phenylalanine has been frequently used for photoaffinity labeling of target proteins such as the angiotensin receptors. However, chemical studies showed that simple aryl nitrenes first react intramolecularly, forming a semistable cyclic keteneimine and then reacting with nucleophile residues in the target structure like those of lysine and arginine. We synthesized 3,5-difluoro-4-azidophenylalanine where the formation of the keteneimine is prevented and where photoincorporation should be due to nonselective nitrene insertion only. This new amino acid was introduced in position 8 of angiotensin II and compared with the corresponding azidophenylalanine peptide using human AT1 receptor as target. The new photolabel maintained full agonist activity and a similar yield of photolabeling but without the previously observed gradual hydrolysis. Several selective proteolyses of the labeled receptor indicate that the new photolabel forms three simultaneous contact regions on the hAT1 receptor, suggestive of a nonselective behavior of the photolabel. A major contact was established in the sixth transmembrane domain but also in the third and seventh domain. Our results are in excellent agreement with those recently obtained from methionine proximity assay studies.
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PMID:Synthesis of an agonistic, difluoro-azido photolabel of angiotensin II and labeling of the AT1 receptor: transmembrane domains 3, 6, and 7 form the ligand-binding pocket. 1711 91

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