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)

1. Conscious, Long Evans rats (n = 10), chronically instrumented for the measurement of regional haemodynamics, were studied on 3 consecutive experimental days to assess responses to angiotensin II (AII) (125 pmol kg-1, i.v.) and noradrenaline (1 nmol kg-1, i.v.) in the absence and presence of the AT2-receptor antagonist, PD 123319 (10 mg kg-1, i.v.) (day 1), the AT1-receptor antagonist, EXP 3174 (1 mg kg-1, i.v.) (day 2), and PD 123319 (10 mg kg-1, i.v.) given 24 h after EXP 3174 (day 3). 2. In naive rats (day 1), PD 123319 did not antagonize the haemodynamic effects of AII or noradrenaline. EXP 3174 (day 2) caused a marked, prolonged blockade of the haemodynamic effects of AII but not those of noradrenaline. Twenty four h after administration of EXP 3174 (day 3) there was still significant attenuation of the haemodynamic effects of AII. However, administration of PD 123319 at this time caused a further inhibition (lasting 1 h) of the effects of AII but not those of noradrenaline. 3. An identical 3 day protocol was used in a separate group of rats (n = 6) in which the AT2-receptor antagonist, PD 123177, was given instead of PD 123319, and the results were essentially the same, i.e., PD 123177 significantly attenuated the haemodynamic effects of AII but only when given 24 h after EXP 3174.4. In a separate group of rats (n = 4), a low dose of EXP 3174 (60 pg kg-' i.v.) was given to naive rats in order to simulate the degree of inhibition of the effects of All seen after administration of AT2-receptor antagonists in animals pretreated with EXP 3174. This low dose of EXP 3174 did not produce a sustained inhibition of the effects of All and the time course of recovery of All responses was similar to that seen with PD 123319 or PD 123177 given after the high dose of EXP 3174.5. The apparent inhibition of the effects of AII by the AT2-receptor antagonists, PD 123319 and PD 123177, when these were administered 24 h after the AT,-receptor antagonist, EXP 3174, may have been due to the functional activation of AT2-receptors and/or loss of AT2-receptor antagonist selectivity,and/or the displacement of nonspecifically bound EXP 3174 by AT2-receptor antagonists. While the latter explanation seems the most likely, these results raise the possibility that nonpeptide, All-receptor antagonists that act at both AT,- and AT2-receptors may have therapeutic advantages over selective AT,-receptor antagonists.
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PMID:Inhibition of the haemodynamic effects of angiotensin II in conscious rats by AT2-receptor antagonists given after the AT1-receptor antagonist, EXP 3174. 147 80

This study was designed to identify the subtypes of angiotensin II (ANG II) receptors present on glomeruli and glomerular mesangial cells and establish their functional significance. Dup 753 and its metabolite EXP 3174, two nonpeptide ANG II-1 receptor (AT1) antagonists, displaced 125I-ANG II and its analogue 125I-[Sar1,Ala8]ANG II from their binding sites in rat and human glomeruli and cultured human mesangial cells, whereas CGP 42112 A and PD 123177, two ANG II-2 receptor (AT2) antagonists, exhibited little displacing activity. Dup 753 and EXP 3174 did not modify the dissociation constant (Kd) value but markedly decreased the number of sites of 125I-[Sar1,Ala8]ANG II binding. The addition of PD 123177 did not further inhibit binding when all AT1 sites were occupied by Dup 753. Binding was markedly reduced by dithiothreitol. EXP 3174 and Dup 753 inhibited the main biological functions of ANG II in mesangial cells including increases in intracellular calcium concentration, PGE2 production, and protein synthesis. PD 123177 was also active but at concentrations 1,000- to 10,000-fold greater than those of AT1 antagonists. These results indicate that 1) only AT1 receptors are present in glomeruli and glomerular mesangial cells; 2) these receptors mediate the functional responses to ANG II; 3) the nonpeptide AT1 antagonists behave as noncompetitive inhibitors; and 4) high concentrations of the nonpeptide AT2 antagonists can recognize AT1 sites.
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PMID:Characterization of angiotensin II receptor subtypes in human glomeruli and mesangial cells. 155 60

[3H]Senktide, a highly selective tachykinin NK3 receptor agonist, was used to study tachykinin NK3 receptors of rat and guinea pig brain. Guinea pig brain membranes had a Kd of 3.9 +/- 0.5 nM and a Bmax of 42 fmol/mg. Dose-displacement experiments with neurokinins and selective tachykinin receptor agonists revealed the following order of potency: [MePhe7]neurokinin B > neurokinin B > substance P > neurokinin A. This order is typical for a tachykinin NK3 receptor. To further characterize the specificity of this receptor, the effects of unrelated compounds such as: bradykinin, angiotensin II, bombesin and their structural analogs were also evaluated on the binding of [3H]senktide. Unexpectedly, the angiotensin AT1 receptor antagonists, DuP 753 (2-n-butyl-4-chloro-5-hydroxymethyl-1-[2'-(1H-tetrazol-5-yl)bip hen yl-4-yl)methyl]imidazole potassium salt), L-158,809 (5,7-dimethyl-2-ethyl-3-[(2'-(1H-tetrazol-5-yl) [1,1'-biphenyl]-4-yl) methyl]-3H-imidazo[4,5-beta]pyridine H2O) and EXP 3174 (2-n-butyl-4-chloro-1-[2'-(1H-tetrazol-5-yl)biphenyl-4-yl)methyl]i midazole- 5-carboxylic acid), inhibited the binding of [3H]senktide to its receptor in the guinea pig brain membranes with IC50 values of 18 microM, 25 microM and 50 microM, respectively. Similar effects were also observed with rat brain membranes. Angiotensin II, saralasin ([Sar1,Val5,Ala8]angiotensin II, a peptide angiotensin AT1 receptor antagonist) and PD 123,319 (1-[4-(dimethylamino)3-methylphenyl]methyl-5-(diphenylacetyl)-4,5, 6,7- tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylic acid, a known non-peptide angiotensin AT2 receptor antagonist) did not inhibit the binding of [3H]senktide to either type of membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Non-peptide angiotensin receptor antagonists bind to tachykinin NK3 receptors of rat and guinea pig brain. 751 91

1. The cardiovascular and behavioural effects elicted by the intracerebroventricular (i.c.v.) injection of substance P (SP), neurokinin A (NKA), [MePhe7]neurokinin B ([MePhe7]NKB) or angiotensin II (AII) in the conscious rat were assessed before and 5 min after i.c.v. pretreatment with antagonists selective for angiotensin AT1 (losartan and its active metabolite EXP 3174), angiotensin AT2 (PD 123,319) or tachykinin NK3 (R 486) receptors. 2. I.c.v. administration of 25 pmol AII evoked an increase in mean arterial blood pressure (MAP) and water intake behaviour, accompanied by a transient bradycardia, whereas 25 pmol [MePhe7]NKB caused a transient increase in MAP and heart rate (HR) concurrently with marked wet dog shake behaviour. At the same dose, SP and NKA were more potent than [MePhe7]NKB in increasing MAP and HR, but did not produce water intake or wet dog shake behaviours. 3. Losartan (650 pmol, i.c.v.) reduced significantly the cardiovascular and behavioural responses to AII or [MePhe7]NKB, but not to SP or NKA. While 65 pmol losartan was inactive, 260 pmol inhibited selectively the central effects of AII. Whereas EXP 3174 (6.5 nmol) blocked both AII and [MePhe7]NKB-mediated responses, the dose of 650 pmol blocked only the responses to AII. 4. The central responses to AII and [MePhe7]NKB were not affected by PD 123,319 (650 pmol). On the other hand, the [MePhe7]NKB-induced central effects were significantly reduced by R 486 (650 pmol). The NK3-selective antagonist had no effect against AII. 5. This study provides functional evidence, to support earlier binding data, that losartan (and to some extent its active metabolite EXP 3174) interact with the tachykinin NK3 receptor in rat brain. However,the cardiovascular and behavioural responses induced by central tachykinin agonists (SP, NKA and[MePhe7]NKB) and All are mediated by unrelated mechanisms.
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PMID:Functional interaction between losartan and central tachykinin NK3 receptors in the conscious rat. 754 Dec 80

We examined the effects of U-97018, an AT1 receptor antagonist, on the pressor response to intracerebroventricularly (i.c.v.) administered angiotensin II (AII) in conscious normotensive rats in comparison to losartan, EXP 3174, EXP 655, and saralasin. In an i.c.v. study, U-97018, losartan, and EXP 3174 reduced the pressor response. EXP 655, an AT2 selective antagonist, also inhibited the pressor response to i.c.v. AII. U-97018 combined with EXP 655 did not fully eliminate the pressor response to i.c.v. AII. Moreover, saralasin, a nonselective peptide AII antagonist, also failed to abolish the pressor response to i.c.v. AII. Therefore, both AT1- and AT2-receptors probably are functional in inhibiting the pressor response to i.c.v. AII and that a part of the i.c.v. AII-induced pressor response occurs through non-AT1- and non-AT2-receptors. In an intravenous (i.v.) study, U-97018, losartan, and EXP 3174 reduced the pressor response to i.c.v. AII. At 10 mg/kg orally (p.o.), which is an antihypertensive dose in spontaneously hypertensive rats (SHR), neither U-97018 nor losartan reduced the pressor response to i.c.v. AII even at 180 min after administration. This result indicates that neither U-97018 nor losartan, at the oral antihypertensive dose, reaches the brain in sufficient amount to affect the pressor response to i.c.v. AII.
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PMID:Effects of U-97018 on pressor responses to intracerebroventricularly administered angiotensin II in conscious normotensive rats. 756 32

The synthesis and pharmacological activity of new potent nonpeptide non-tetrazole angiotensin II (AII) receptor antagonists are described. These compounds are 4-thioimidazole derivatives linked on N1 to a biphenylsulfonyl fragment by a methylene spacer. Different acidic sulfonamides such as sulfonylureas 12, sulfonylcarbamates 15, sulfonylamides 16, and sulfonylsulfonamides 17 have been investigated as replacements to the known potent tetrazole moiety at the 2'-biphenyl position. Their activity were evaluated by AII receptor binding assay as well as by in vivo (i.v. and po) assays such as inhibition of the AII-induced pressor response in pithed rats. Most of the synthesized sulfonyl derivatives showed nanomolar affinity for the AT1 receptor subtype. The N-propylsulfonylurea 12d and the ethyl sulfonylcarbamate 15b as representative members of this series exhibited high oral activity in the pithed rat model with ID50 values of 0.38 and 0.4 mg/kg, respectively. Structure-activity relationships on the imidazole ring linked to the methylbiphenyl N-propylsulfonylurea fragment demonstrated similar features to those found in the corresponding tetrazole series. For both class of compounds, the linear butyl chain in position 2 and a carboxylic acid in position 5 were important for high in vitro and in vivo activity. In most cases, replacement of the carboxylic acid was detrimental to in vivo activity while maintaining the in vitro binding affinity. Introduction of a methylthio group in position 4 was found to enhance oral activity compared to compounds with chloro or other alkylthio, (polyfluoroalkyl)thio, and arylthio groups. 2-Butyl-4-(methylthio)-1-[[2'- [[[(propylamino)carbonyl]amino[sulfonyl](1,1'-biphenyl)-4- yl]methyl]-1-H-imidazole-5-carboxylic acid (12d) as the most promising example of the series was synthesized as its dipotassium salt (50, HR 720). This compound 50 inhibited the specific binding of [125I]-AII to rat liver membranes with an IC50 value of 0.48 nM. In vivo, 50 dose-dependently inhibited the AII-induced pressor response in normotensive pithed rats (ID50 = 0.11 mg/kg i.v. and 0.7 mg/kg po). In addition, this compound produced a marked and long-lasting decrease in blood pressure in high renin animal models and proved to be superior to the corresponding tetrazole 45 as well as to DuP 753 or its active metabolite EXP 3174. Compound 50 has been selected for in-depth investigations and is currently undergoing phase II clinical trials.
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PMID:Sulfonylureas and sulfonylcarbamates as new non-tetrazole angiotensin II receptor antagonists. Discovery of a highly potent orally active (imidazolylbiphenylyl)sulfonylurea (HR 720). 760 2

Circulating angiotensin II (ANG II) has several physiological effects that result from interaction of the peptide with AT1 receptors in the brain. Our purpose was to determine if selective pharmacological blockade of brain AT1 receptors would reverse chronic low-dose ANG II-induced hypertension. Male Sprague-Dawley rats were instrumented with chronic indwelling arterial and venous catheters and a lateral intracerebroventricular (i.c.v.) cannula. All rats received ANG II i.v. for 15 days at a dose of 4 ng.min-1. On days 2, 7 and 12 of the ANG II infusion a bolus of an AT1 receptor antagonist, the active metabolite of losartan, EXP 3174 (1 microgram in 2 microliters of saline, i.c.v.; n = 5) or vehicle (2 microliters of saline; n = 2) was administered into the cerebrospinal fluid. Mean arterial pressure and heart rate were measured at numerous time points after this injection. Although the dose of EXP 3174 used in preliminary experiments was shown to block the responses to i.c.v. ANG II this treatment did not lower MAP in chronic ANG II-hypertension. These results suggested that either ANG II-hypertension does not involve brain AT1 receptors, or that i.c.v. EXP 3174 may not gain access to brain sites at which circulating ANG II acts to produce hypertension. To test this latter possibility ANG II was microinjected into the area postrema of anesthetized rats. The area postrema is one of several circumventricular organs at which circulating ANG II may act to influence arterial pressure regulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cerebroventricular injection of angiotensin II antagonist: effects on blood pressure responses to central and systemic angiotensin II. 775 62

Our study demonstrated that inhibition of angiotensin II- (Ang II) mediated contractions of rabbit aorta by structurally diverse nonpeptide AT1 antagonists could distinguish surmountable from insurmountable AT1 antagonism. CI-996, L158809, EXP 3174 and SKF 108834 produced concentration-related rightward shifts in Ang II response curves and reduced the maximal contraction to Ang II, characteristic of insurmountable antagonism. In contrast, DuP 753 and SKF 108566, produced parallel rightward shifts in Ang II contractile curves without affecting the maximal response which is consistent with the definition of surmountable or competitive antagonism. In addition, CI-996 demonstrated potent inhibition of Ang II-stimulated inositol phosphate accumulation in rat aortic smooth muscle cells, behaving as an insurmountable antagonist. However, DuP 753 was a surmountable antagonist of Ang II-stimulated inositol phosphate accumulation. Repeated washing of rabbit aorta preincubated with either CI-996 or EXP 3174 did not restore the blunted Ang II contractions. In contrast, both DuP 753 and the structurally dissimilar SKF 108566 at a concentration of 100 nM showed complete recovery of Ang II responses within 2 hr of repeated washing. Surprisingly, repeated rinsing of rabbit aorta for up to 5 hr after incubation with 1 microM DuP 753 failed to restore responses to Ang II. In addition, Scatchard analysis of [125I] Ang II saturation binding experiments revealed a competitive and rapidly reversible nature of AT1 receptor antagonism for all the AT1 antagonists examined. Taken together, the results of this study provide evidence for a competitive and rapidly reversible binding interaction of structurally diverse non-peptide antagonists at the AT1 receptor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional studies but not receptor binding can distinguish surmountable from insurmountable AT1 antagonism. 775 78

In previous studies, we found that central administration of the AT1-receptor antagonist, EXP 3174, and the AT2-receptor antagonist, PD 123319, blocked the cardiovascular response to centrally-injected angiotensin II (AII), although another AT2-receptor antagonist (PD 123177) was ineffective. In the present study, we examined the effects of these three compounds on the pressor and dipsogenic response to centrally-injected AII in conscious, male Long Evans rats, and the effect of EXP 3174 and PD 123319 on drinking in response to water-deprivation in Brattleboro rats. In Long Evans rats, AII-induced water intake and pressor effects were inhibited by EXP 3174 and PD 123319 (although with different time courses). In contrast, PD 123177 had little effect on the pressor response to i.c.v. AII, but enhanced its dipsogenic action. Following 8 h water deprivation in Brattleboro rats, neither EXP 3174 nor PD 123319 inhibited drinking when water was returned. These data indicate that EXP 3174 and PD 123319 inhibit thirst evoked by centrally injected AII, but not that caused by extracellular dehydration. In addition, since the putative AT2-receptor antagonists PD 123319 and PD 123177 have the opposite effects on i.c.v. AII-induced water intake, these results cannot be easily reconciled with a simple model of thirst in which AT2-receptors are involved in a final common pathway for drinking.
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PMID:Effects of angiotensin II AT1- or AT2-receptor antagonists on drinking evoked by angiotensin II or water deprivation in rats. 792 26

We previously showed that angiotensin II (Ang II) and angiotensin-(2-8)-peptide [Ang-(2-8)] activate a phosphoinositide-specific phospholipase C (PLC) and cause calcium mobilization in rat aortic vascular smooth-muscle cells (VSMC), while Ang II and Ang-(1-7) produce prostaglandins. To define further the signal-transduction mechanisms activated by angiotensin peptides in smooth-muscle cells, we measured diacylglycerol (DAG) accumulation in response to different angiotensin peptides and its inhibition by subtype-selective receptor antagonists. Both an initial (10 s) and secondary (10 min) phase of DAG production in response to 100 nM Ang II were inhibited by 1 microM losartan (DuP 753), an AT1 antagonist, while 1 microM PD 123177, an AT2 antagonist, was ineffective. In contrast, the heptapeptide Ang-(1-7) did not produce DAG in VSMC. Ang II also caused the hydrolysis of phosphatidylinositol and phosphatidylcholine, the formation of phosphatidic acid and the formation of phosphatidylethanol (PEt) in the presence of ethanol, through activation of a PLD and a PLD-induced transphosphatidylation reaction. A similar concentration of Ang-(2-8) also activated PLD; in contrast, Ang-(1-7) was ineffective. PEt production by 100 nM Ang II was significantly attenuated by the AT1 antagonists losartan, its metabolite EXP 3174 or L-158,809 (all at 1 microM), whereas a similar concentration of the AT2 antagonists CGP 42112A or PD 123177 was ineffective. The production of PEt by Ang II was also partially attenuated by the removal of extracellular calcium and potentiated by increasing calcium concentrations, indicating that PLD activity is partially dependent on extracellular calcium. Thus VSMC PLD is coupled to an AT1 receptor and occurs in response to Ang II or Ang-(2-8), but not Ang-(1-7). Since AT1 receptors in VSMC are also coupled to activation of PLC, both PLC and PLD may be coupled to the same or a different AT1 receptor. Alternatively, PLD may be sequentially activated in response to Ang II activation of PLC and a subsequent increase in calcium concentration.
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PMID:Vascular smooth-muscle cells contain AT1 angiotensin receptors coupled to phospholipase D activation. 799 90

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