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:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the effect of the angiotensin II AT1 receptor antagonist losartan (DuP753) on echocardiographic left ventricular (LV) anatomy in Dahl rats on high sodium diet, 27 Dahl salt-sensitive (Dahl-S, 13 on drug and 14 receiving tap water) and 27 Dahl salt-resistant rats (Dahl-R, 13 on drug and 14 receiving tap water) were studied by M-mode echocardiography during 8 weeks of 8% NaCl diet. At the endpoint (after 8 weeks or the last echocardiogram for animals who died earlier), Dahl-S receiving losartan had lower LV mass (1.6 +/- 0.4 g/kg 0.59) than Dahl-S receiving tap water (2.2 +/- 0.7 g/kg 0.59; P < .005), although blood pressure was only partially reduced (167 +/- 29 v 195 +/- 52; P = .05). This difference was mainly due to lower LV wall thickness (P < .02), with a less consistent decrease in LV chamber size in Dahl-S receiving losartan. Blood pressure was normal in Dahl-R (tap water group = 116 +/- 11 mm Hg; losartan group = 115 +/- 13 mm Hg) and losartan had no effect on LV mass (1.6 +/- 0.4 g/kg 0.59) in both groups). In the majority of rats, echocardiographic measurements were compared between the end of second or third week and the last available study: LV mass increased in salt-loaded Dahl-S receiving tap water (1.6+/- 0.6 to 2.1 +/- 0.7 g/kg 0.59, P < .04) and was stable in Dahl-S receiving losartan (1.5 +/- 0.1 to 1.5 +/- 0.3 g/kg 0.59), paralleling changes in LV chamber dimension. Thus, a high salt diet leads to hypertension and eccentric LV hypertrophy in Dahl-S but not in Dahl-R. Inhibition of angiotensin II AT1 receptors reduces the development of LV hypertrophy in Dahl-S rats despite lack of efficient control of blood pressure.
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PMID:Reduction of development of left ventricular hypertrophy in salt-loaded Dahl salt-sensitive rats by angiotensin II receptor inhibition. 869 19

KT3-671 (2-propyl-8-oxo-1-[(2'-(1H-tetrazole-5-yl)biphenyl-4-yl)methyl]-4,5,6, 7-tetrahydrocycloheptimidazole), a structurally new nonpeptide angiotensin AT1-receptor antagonist, was administered orally and repeatedly to 15-week-old stroke-prone spontaneously hypertensive rats for 7 weeks; and its effects on blood pressure, heart rate, renal function, plasma renin concentration (PRC), plasma aldosterone concentration (PAC) and hypertension-related tissue damage in the brain, heart, kidney and mesenteric artery were investigated. KT3-671 at a dose of 3 or 10 mg/kg, p.o. per day prevented development of hypertension and produced a significant and consistent reduction of blood pressure in a dose-dependent manner. Enalapril at a dose of 10 mg/kg per day produced cardiovascular effects similar to those of KT3-671 at 10 mg/kg. Despite marked reduction in blood pressure, neither KT3-671 nor enalapril affected the heart rate. KT3-671 at 10 mg/kg produced a transient and significant reduction of urinary sodium excretion in the second week, but did not affect renal function at any other time during the experimental period. Both KT3-671 at 10 mg/kg and enalapril at 10 mg/kg produced a significant increase in PRC and showed a tendency to decrease PAC. Repeated administration of KT3-671 reduced the severity of the pathological changes in the kidney. These results suggest that KT3-671 is a potentially useful antihypertensive drug.
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PMID:Antihypertensive effect of chronic KT3-671, a structurally new nonpeptide angiotensin AT1-receptor antagonist, in stroke-prone spontaneously hypertensive rats. 869 29

Angiotensin II is a multifunctional hormone that exerts its effects by interacting will cell surface receptors. Two major subtypes of receptors (AT1 and AT2) have been distinguished by pharmacological and molecular biological techniques. AT1 receptors have been further subdivided into AT1A and AT1B receptors. Several other isoforms have been found, notably in nonmammalian systems, but further information is necessary before definitive classification can be made. AT1 receptors mediate most known functions of angiotensin II, while AT2 receptors may be important developmentally. The molecular, structural, and biochemical characteristics of these receptors have been described, as well as the factors that regulate their expression. This receptor system has been implicated in several cardiovascular diseases, including hypertension, restenosis after angioplasty, cardiac hypertrophy, heart failure, myocardial infarction, and ventricular remodeling. Structural analysis of AT receptors may provide the basis for the development of new therapeutic agents with enhanced specificity for the treatment of these diseases.
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PMID:Angiotensin receptors and their therapeutic implications. 872 91

The intrarenal renin-angiotensin system (RAS) contributes to the increased renal vascular resistance and reactivity observed in spontaneously hypertensive rats (SHR) and to the pathogenesis of high blood pressure (BP). Thus, we decided to characterize angiotensin II (ANG II) receptors in the renal arteries and glomeruli of 16-week-old SHR and their age-matched, normotensive Wistar-Kyoto (WKY) controls. SHR had significantly higher BP (153 +/- 4 v 96 +/- 10 mmHg) and heart weight (440 +/- 5 v 327 +/- 4 g/100 g body weight) than WKY rats. There was no difference in plasma renin activity between strains. Radioligand binding assays using non-peptide antagonists for AT1 (losartan) and AT2 (PD 123319) showed that renal preglomerular microvessels and glomeruli expressed a single receptor population (AT1) for ANG II. AT1 density tended to be lower in glomeruli of SHR compared to WKY (377 +/- 45 v 555 +/- 74 fmol/mg protein), but was significantly higher in preglomerular vessels (93 +/- 7 v 57 +/- 1 fmol/mg protein). No difference in receptor affinity was found in either preparation. Isolated kidney perfusion revealed that at low flow (3-10 ml/min), perfusion pressure was similar in both strains; however, at higher flow levels, SHR showed higher reactivity and less compliance than their controls. In addition, SHR presented a higher renal vascular reactivity to ANG II (but not to arterenol) than WKY rats. Thus, upregulation of ANG II receptors in the renal vasculature may mediate the hyperreactivity to ANG II observed in SHR kidney.
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PMID:Characterization and hemodynamic implications of renal vascular angiotensin II receptors in SHR. 872 67

1. Male, vasopressin-deficient, normotensive (DI/N) and hypertensive (DI/H) rats were chronically instrumented (all surgery under sodium methohexitone anaesthesia) to allow assessment of resting haemodynamic status and responses to antagonism of AT1-receptors (Experiment 1), ET(A-) and ET(B-) receptors (Experiment 2) or adrenoceptors (Experiment 3). 2. Before any treatment, mean arterial blood pressure (MAP) was higher, and hindquarters vascular conductance was consistently lower in all groups of DI/H rats than in DI/N rats. 3. In Experiment 1, losartan (10 mg kg-1 i.v.), an AT1-receptor antagonist, was given 5 h after s.c. injection of saline, (DI/N, n = 8; DI/H, n = 8) or hyperoncotic polyethylene glycol, (DI/N, n = 9; DI/H, n = 9) to induce isosmotic hypovolaemia. In the volume-replete state, losartan caused similar small falls in MAP in the two groups (maximum delta MAP; DI/N, -9 +/- 2; DI/H, -15 +/- 5 mmHg), but the mesenteric and hindquarters vasodilatations were greater in DI/N rats. In the volume-depleted state the effects of losartan were augmented (delta MAP; DI/N, -32 +/- 3; DI/H. -31 +/- 3 mmHg), but its vasodilator effects were still greater in DI/N than in DI/H rats. 4. In Experiment 2, infusion of the ET(A-)ET(B-)receptor antagonist, SB 209670 (600 micrograms kg-1 h-1; DI/N, n = 8; DI/H, n = 9), had haemodynamic effects that were not different from those during saline infusion in DI/N (n = 7) and DI/H rats (n = 8). 5. In Experiment 3, sequential administration of the beta 2-adrenoceptor antagonist, ICI 118551 (0.2 mg kg-1 bolus, 0.1 mg kg-1 h-1 infusion), the alpha 2-adrenoceptor antagonist, idazoxan (0.75 mg kg-1 bolus, 1 mg kg-1 h-1 infusion), and losartan (10 mg kg-1 bolus) had only slight haemodynamic effects in DI/N (n = 8) and DI/H (n = 9) rats. Subsequent administration of the alpha 1-adrenoceptor antagonist, prazosin (0.5 mg kg-1 bolus, 0.8 mg kg-1 h-1 infusion) caused marked hypotension, although MAP was still higher in DI/H (95 +/- 4 mmHg) than in DI/N (75 +/- 4 mmHg) rats. However, in this circumstance there were no significant differences between renal, or mesenteric, or hindquarters vascular conductances in the two groups. 6. The results indicate that the hypertension and hindquarters vasoconstriction in DI/H rats is not dependent on AII or endothelin. Moreover, the relative elevation in MAP in DI/H persists in the presence of antagonism of beta 2, alpha 2- and alpha 1-adrenoceptors, in spite of no significant difference in regional vascular conductances.
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PMID:Regional haemodynamic effects of antagonists of angiotensin II, endothelin and adrenoceptors in conscious, vasopressin-deficient, genetically hypertensive rats. 873 34

Angiotensin II has been demonstrated to be involved in the regulation of cellular growth of several tissues in response to developmental, physiological, and pathophysiological processes. Angiotensin II has been implicated in the developmental growth of the left ventricle in the neonate and remodeling of the heart following chronic hypertension and myocardial infarction. The inhibition of DNA synthesis and collagen deposition in myocardial interstitium following myocardial infarction by angiotensin converting enzyme inhibitor, suggests that angiotensin II mediates interstitial and perivascular fibrobrosis by preventing fibroblast proliferation. In the past, little attention was focused on the identity and functional roles of cardiac fibroblasts. Recent in vitro studies utilizing cultured cardiac fibroblasts demonstrate that angiotensin II, acting via the AT1 receptor, initiates intracellular signalling pathways in common with those of peptide growth factors. Below, we describe growth-related aspects of cardiac fibroblasts with respect to angiotensin II receptors, conventional and novel signal transduction systems, secretion of extracellular matrix proteins and growth factors, and localization of renin-angiotensin system components.
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PMID:Angiotensin II signalling pathways in cardiac fibroblasts: conventional versus novel mechanisms in mediating cardiac growth and function. 873 24

To support the use of a combination of losartan, a highly specific and selective AT1 angiotensin II receptor antagonist, and hydrochlorothiazide for treatment of hypertension, a pharmacokinetic drug interaction study was conducted. In this open-label, randomized, three-period, crossover study, patients with mild to moderate hypertension received a 12.5-mg tablet of hydrochlorothiazide, a 50-mg losartan tablet, or a combination tablet of 12.5 mg of hydrochlorothiazide and 50 mg of losartan for 7 days. Twelve patients (age range, 35-55 years; mean age, 44 years) were allocated to treatment. Drug interactions were evaluated by comparing the 24-hour area under the concentration-time curve (AUC24) for losartan and its active metabolite, E-3174, when losartan (50 mg) was given alone or in combination with 12.5 mg hydrochlorothiazide. The urinary recovery over the 24-hour period of hydrochlorothiazide was compared for hydrochlorothiazide (12.5 mg) given alone or in combination with 50 mg losartan. A clinically significant interaction was defined as a treatment difference of more than 35%. There was no evidence of a clinically significant effect of hydrochlorothiazide on the pharmacokinetics of losartan or E-3174, as the geometric mean AUC24 ratio (90% confidence interval [CI]) was 1.02 (0.95, 1.09) for losartan and 1.02 (0.96, 1.09) for E-3174. Based on urinary recovery over a 24-hour period of hydrochlorothiazide, losartan did not affect the pharmacokinetics of hydrochlorothiazide, as the geometric mean ratio of urinary hydrochlorothiazide recovery (90% CI) was 0.898 (0.79, 1.20). There was a minor (17%) decrease in the AUC24 of hydrochlorothiazide after administration of the combination tablet. Coadministration of hydrochlorothiazide and losartan was well tolerated.
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PMID:Absence of a pharmacokinetic interaction between losartan and hydrochlorothiazide. 875 Mar 72

L-163,017 (6-[benzoylamino]-7-methyl-2-propyl-3-[[2'-(N-(3-methyl-1-butoxy) carbonylaminosulfonyl)[1,1']-biphenyl-4-yl]methyl]-3H-imidazo[4,5- b]pyridine) is a potent, orally active, nonpeptide angiotensin II receptor antagonist. Conscious rats and dogs were dosed p.o. and i.v.; in both species the plasma bioequivalents are similar at the angiotensin AT1 and AT2 receptor sites indicating balanced activity is maintained in vivo. L-163,017 prevents the pressor response to intravenous (i.v.) angiotensin II in the conscious rat, dog, and rhesus monkey. L-163,017 also significantly reduces blood pressure in a renin-dependent model of hypertension, similar to an angiotensin converting enzyme inhibitor (Enalapril) and an angiotensin AT1 receptor-selective antagonist (L-159,282). These studies indicate that neither the angiotensin AT2 receptor nor bradykinin is important in the acute antihypertensive activity of angiotensin converting enzyme inhibitors or angiotensin II receptor antagonists.
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PMID:In vivo pharmacology of an angiotensin AT1 receptor antagonist with balanced affinity for AT2 receptors. 875 Jul 4

Angiotensin II (Ang II) is both a vasoactive and a potent growth-promoting factor for vascular smooth muscle cells. Little is known about the in vivo contribution of AT1 and AT2 receptor activation to the biological action of Ang II. Therefore, we investigated the effect of AT1 or AT2 subtype receptor chronic blockade by losartan or PD123319 on the vascular hypertrophy in rats with Ang II-induced hypertension. Normotensive rats received for 3 wk subcutaneous infusions of Ang II (120 ng/kg per min), or Ang II + PD 123319 (30 mg/kg per d), or Ang II + losartan (10 mg/kg per d) or PD 123319 alone, and were compared with control animals. In normotensive animals, chronic blockade of AT2 receptors did not affect the plasma level of angiotensin II and the vascular reactivity to angiotensin II mediated by the AT1 receptor. Chronic blockade of AT1I in rats receiving Ang II resulted in normal arterial pressure, but it induced significant aortic hypertrophy and fibrosis. Chronic blockade of AT2 receptors in Ang II-induced hypertensive rats had no effect on arterial pressure, but antagonized the effect of Ang II on arterial hypertrophy and fibrosis, suggesting that in vivo vasotrophic effects of Ang II are at least partially mediated via AT2 subtype receptors.
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PMID:Chronic blockade of AT2-subtype receptors prevents the effect of angiotensin II on the rat vascular structure. 875 52

We examined the mechanisms mediating hypertension in conscious rats during acute and chronic infusion of angiotensin II (ANG II) at pressor doses (50, 100, and 200 ng.kg-1.min-1). Trimethaphan-induced blood pressure reduction was inversely related to the acute dose of ANG II, consistent with a constrictor action of ANG II on vascular smooth muscle and withdrawal of sympathetic tone. During chronic ANG II infusion, the entire increase in mean arterial pressure (MAP) was inhibited by trimethaphan, consistent with neural mediation. During acute ANG II hypertension, the AT1-specific receptor blocker losartan induced a large fall in MAP (64 +/- 4 mmHg) in ganglion-blocked (chlorisondamine) rats, whereas, during chronic ANG II hypertension, losartan had only a small hypotensive effect (11 +/- 3 mmHg). To determine the time course of the change from vascular smooth muscle action to neural action, we measured MAP in response to trimethaphan during the first 24 h of ANG II infusion. After 5 h, the minimal MAP in response to trimethaphan was significantly higher than that before ANG II. After 10 h of infusion, trimethaphan decreased MAP to pre-ANG II levels. That is, the neural component was fully active after only 10 h of infusion in rats. Finally, chronic administration of ANG II resulted in a dose-related increase in MAP that, at all doses, was completely inhibited by trimethaphan. These findings are consistent with ANG II acting primarily on vascular smooth muscle during acute infusion and via neural pathways during chronic treatment. The transition from direct smooth muscle to indirect neural action is rapid in rats (< 10 h), and the MAP and neural responses to ANG II are dose related during chronic hypertension.
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PMID:Acute and chronic angiotensin hypertension: neural and nonneural components, time course, and dose dependency. 876 Feb 21


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