Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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.
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PMID:Desensitization of angiotensin receptor function. 769 89

Losartan potassium (Cozaar) is an angiotensin II receptor antagonist (AT1 selective) which has undergone extensive clinical trials for the treatment of hypertension. This literature survey will review some of the pre-clinical findings with losartan in models of heart failure, and where appropriate, we will compare the haemodynamic findings in animals with similar studies completed in patients. The major conclusion from these trials is that losartan has clear haemodynamic benefits in patients in heart failure and that the drug appears to be well tolerated, with a low incidence of adverse experiences related to impaired renal function.
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PMID:Losartan in heart failure: preclinical experiences and initial clinical outcomes. 771 3

All the components of the renin-angiotensin system have been identified in the heart including the angiotensin II receptor subtypes AT1 and AT2. In the normal human heart, there is a decreasing receptor density from the right atrium to the left ventricle. In right atrial membranes prepared from pathological hearts, the percentage of AT1 receptor decreases with the severity of cardiac dysfunction whereas that of AT2 receptor increases. Treatment of hypertrophic rats with AT1 receptor antagonists inhibits cardiac hypertrophy and reverses the increase receptor density, indicating involvement of this Ang II receptor subtype. The role of the AT2 receptor is still largely unknown but it may be involved in cell growth and proliferation. The cloning of both AT1 and AT2 receptors as well as the availability of potent and selective antagonists will help us to understand better the functional role of Angiotensin II in cardiovascular disorders.
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PMID:Angiotensin II receptor subtypes and cardiac function. 771 22

The renin-angiotensin system plays a critical role in sodium and fluid homeostasis. Genetic or acquired alterations in the expression of components of this system are strongly implicated in the pathogenesis of hypertension. To specifically examine the physiological and genetic functions of the type 1A receptor for angiotensin II, we have disrupted the mouse gene encoding this receptor in embryonic stem cells by gene targeting. Agtr1A(-/-) mice were born in expected numbers, and the histomorphology of their kidneys, heart, and vasculature was normal. AT1 receptor-specific angiotensin II binding was not detected in the kidneys of homozygous Agtr1A(-/-) mutant animals, and Agtr1A(+/-) heterozygotes exhibited a reduction in renal AT1 receptor-specific binding to approximately 50% of wild-type [Agtr1A(+/+)] levels. Pressor responses to infused angiotensin II were virtually absent in Agtr1A(-/-) mice and were qualitatively altered in Agtr1A(+/-) heterozygotes. Compared with wild-type controls, systolic blood pressure measured by tail cuff sphygmomanometer was reduced by 12 mmHg (1 mmHg = 133 Pa) in Agtr1A(+/-) mice and by 24 mmHg in Agtr1A(-/-) mice. Similar differences in blood pressure between the groups were seen when intraarterial pressures were measured by carotid cannulation. These studies demonstrate that type 1A angiotensin II receptor function is required for vascular and hemodynamic responses to angiotensin II and that altered expression of the Agtr1A gene has marked effects on blood pressures.
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PMID:Regulation of blood pressure by the type 1A angiotensin II receptor gene. 772 93

The differential role of amino acids of the third transmembrane domain on peptide and nonpeptide recognition by the AT1 angiotensin II receptor has been evidenced. The mutation of Ser105 into alanine completely abolished peptide agonist and antagonist binding, while the binding of nonpeptide ligands, including the original radioligands [3H] LF 7-0156 and [3H] LF 8-0129, was more moderately affected. Reverse pharmacological changes, i.e., unchanged affinities for peptide agonists or antagonists and drastically reduced affinities for nonpeptide antagonists, were observed upon alanine replacement of Asn111. These results confirm that the binding sites for peptide and nonpeptide molecules are not totally overlapping and delineate new amino acids as candidates for the selective receptor interaction with the two categories of ligands. Their integration in topographical studies is discussed.
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PMID:Amino acids of the third transmembrane domain of the AT1A angiotensin II receptor are involved in the differential recognition of peptide and nonpeptide ligands. 772 29

Recent developments in angiotensin II receptor research are discussed in the context of our knowledge in preceding years. Cloning of non-mammalian angiotensin II receptors without high affinity for non-peptide antagonists has permitted a new approach to the delineation of ligand-binding domains. Cloning of the second major isoform of angiotensin II receptor, AT2, and identification as a seven transmembrane domain receptor with only 32% sequence homology with the first isoform, AT1, provide the first concrete step toward our understanding of the roles of AT2. The discovery of phospholipase C-mediated pathway for AT1 in vascular smooth muscle cell signaling introduces an entirely unexpected angle to future research. New aspects of AT1 gene regulation and receptor desensitization and internalization are evolving. Molecular mechanisms and physiological implications of the differential expression of AT1A and AT1B are being clarified. The recent discovery of human AT1B may make studies on animal models interesting and more meaningful. The first paper on the genetic role of the AT1 gene in human hypertension has just been published. A promising future is expected in the further development of angiotensin-receptor research in relation to cardiac, renal, and vascular function by employing techniques of molecular biology.
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PMID:Recent progress in molecular and cell biological studies of angiotensin receptors. 774 57

Previous studies have indicated that the pressure diuresis and natriuresis (PDN) response is greatly impaired in thyroxine-treated hypertensive rats. In the present study, we have examined the role of the renin angiotensin system (RAS) as a mediator of these alterations by characterizing the relationships between renal perfusion pressure and urine flow and sodium excretion in hyperthyroid rats acutely treated with a converting-enzyme inhibitor (captopril, 2 mg/kg) or an AT1 angiotensin II receptor blocker (losartan, 10 mg/kg). In the control animals, captopril did not change mean arterial pressure (MAP) or renal blood flow (RBF) but significantly decreased MAP and increased RBF and glomerular filtration rate in the hyperthyroid rats. Captopril did not change the PDN response of the control animals but improved significantly that of the hyperthyroid rats, although it was not completely normalized. Losartan also significantly improved renal hemodynamics and excretion in hyperthyroid rats. These results indicate that an increased intrarenal activity of the RAS is partly responsible for the blunted renal PDN mechanism of the hyperthyroid rats.
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PMID:Involvement of renin-angiotensin system in the reduced pressure natriuresis response of hyperthyroid rats. 776 43

The effects of different steroids on the expression of angiotensin AT1 receptors by the human hepatoma cell line, PLC-PRF-5 was studied. Dexamethasone and aldosterone decreased the specific binding of [3H]angiotensin II to intact PLC-PRF-5 cells by 57 +/- 4% and 54 +/- 2%, respectively, compared to control, untreated cells. EC50 values for dexamethasone, cortisol and aldosterone were 1.8 +/- 0.6, 40 +/- 6, and 310 +/- 20 nM, respectively, suggesting that these effects were mediated via a glucocorticoid receptor. Scatchard analysis revealed that dexamethasone decreased the number of angiotensin AT1 receptors expressed (50 +/- 4% relative to control) with no change in receptor affinity. Treating cells with dexamethasone in the presence of either an angiotensin converting enzyme inhibitor or an angiotensin II receptor antagonist did not prevent the reduction in angiotensin AT1 receptor expression, ruling out a mechanism involving a dexamethasone induced increase in endogenous angiotensin II production. A ribonuclease protection assay established that the steady state level of angiotensin AT1 receptor mRNA in dexamethasone treated cells was reduced to 34.7 +/- 8.4% of untreated cells. The decrease in the number of angiotensin AT1 receptors expressed on the cell surface after treatment with dexamethasone therefore seems likely to reflect the decreased steady state level of the mRNA coding for this receptor.
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PMID:Glucocorticoids regulate the expression of angiotensin AT1 receptors, in the human hepatoma cell line, PLC-PRF-5. 777 81

The molecular interaction involved in the ligand binding of the rat angiotensin II receptor (AT1A) was studied by site-directed mutagenesis and receptor model building. The three-dimensional structure of AT1A was constructed on the basis of a multiple amino acid sequence alignment of seven transmembrane domain receptors and angiotensin II receptors and after the beta 2 adrenergic receptor model built on the template of the bacteriorhodopsin structure. These data indicated that there are conserved residues that are actively involved in the receptor-ligand interaction. Eleven conserved residues in AT1, His166, Arg167, Glu173, His183, Glu185, Lys199, Trp253, His256, Phe259, Thr260, and Asp263, were targeted individually for site-directed mutation to Ala. Using COS-7 cells transiently expressing these mutated receptors, we found that the binding of angiotensin II was not affected in three of the mutations in the second extracellular loop, whereas the ligand binding affinity was greatly reduced in mutants Lys199-->Ala, Trp253-->Ala, Phe259-->Ala, Asp263-->Ala, and Arg167-->Ala. These amino acid residues appeared to provide binding sites for Ang II. The molecular modeling provided useful structural information for the peptide hormone receptor AT1A. Binding of EXP985, a nonpeptide angiotensin II antagonist, was found to be involved with Arg167 but not Lys199.
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PMID:Mutagenesis and the molecular modeling of the rat angiotensin II receptor (AT1). 777 62

1. The effects of the nonpeptide angiotensin II receptor (AT) antagonists losartan and PD 123319 on actions of angiotensin II in the rat caudal artery and rat vas deferens preparations were investigated. 2. Angiotensin II (1.0 microM) increased perfusion pressure in isolated segments of the rat caudal artery. This increase in perfusion pressure was prevented by the AT1-antagonist, losartan (0.1 microM) but was not affected by the AT2-antagonist, PD 123319 (0.1 microM). 3. Angiotensin II (0.1-3.0 microM) produced a concentration-dependent enhancement of the stimulation-induced (S-I) efflux of [3H]-noradrenaline from isolated segments of rat caudal artery in which the noradrenergic transmitter stores had been labelled with [3H]-noradrenaline. The maximum enhancement of S-I efflux was approximately 60% with 1.0 microM angiotensin II. 4. Losartan (0.01 and 0.1 microM) reduced the enhancement of S-I efflux produced by 1.0 microM angiotensin II in the caudal artery. 5. PD 123319 (0.01 microM) did not affect the enhancement of S-I efflux produced by angiotensin II (1.0 microM) in the caudal artery. However, in a higher concentration (0.1 microM), PD 123319 reduced the enhancement of S-I efflux produced by 1.0 microM angiotensin II. 6. Angiotensin II produced concentration-dependent enhancement of the purinergic twitch responses (1 pulse/60 s) in the rat vas deferens. 7. Losartan (0.03 microM) and PD 123319 (0.03 microM) each reduced the angiotensin II-induced enhancement of the twitch responses in the rat vas deferens. 8. These findings indicate that the enhancement of sympathetic neuroeffector transmission in both the caudal artery and vas deferens of the rat involves angiotensin receptor subtype(s) sensitive to both losartan and PD 123319. In contrast, the direct vasoconstrictor effect of angiotensin II in the rat caudal artery involves activation of a receptor subtype sensitive only to losartan.
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PMID:Evidence for the involvement of different receptor subtypes in the pre- and postjunctional actions of angiotensin II at rat sympathetic neuroeffector sites. 778 Jun 40


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