UMLS:C0004135 - FACTA Search

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To investigate the role of the renin-angiotensin system in the regulation of adrenal growth in deoxycorticosterone (DOC)-salt hypertensive rats, and the adrenal gene expression of angiotensin AT1 and AT2 receptors, three groups of uninephrectomized rats + DOC pellet + 0.9% NaCl were given water (DOC), losartan (DOC-L), or ramipril (DOC-R) by gavage. Controls had sham surgery and water gavage. Tail-cuff systolic and mean intra-arterial blood pressures were significantly higher in the three DOC groups than in controls and not different among the groups. Adrenal weight of DOC was slightly but not significantly greater than that of controls, while those of DOC-L and DOC-R were greater than that of controls (P < .01). Northern blots showed that AT1 and AT2 gene expression was significantly reduced in DOC (by 33% and 60%), while that of AT1 (but not AT2) was significantly reduced further (versus control and DOC) in DOC-L and DOC-R. There were negative correlations between adrenal weight and AT1 (r = -.80, P < .0001) or AT2 (r = -.60, P < .005). We conclude that DOC-salt hypertension downregulates adrenal AT1 and AT2 gene expression by different mechanisms. Removal of the effects of angiotensin by losartan or ramipril downregulates AT1 further and promotes adrenal growth, indicating the presence of an AT1-mediated growth-inhibitory action of angiotensin II on the adrenal gland. These observations constitute an additional example of a growth-inhibitory role for the AT1 receptor, opposite to its more common growth-promoting actions in other organs and tissues.
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PMID:Regulation of growth of the adrenal gland in DOC-salt hypertension. Role of angiotensin II receptor subtypes. 903 35

1. A hormonal-sympathetic reflex model for long-term control of arterial pressure is presented. It is hypothesized that the hormonal-sympathetic reflex regulates arterial pressure during chronic dietary salt loading by decreasing sympathetic tone. This sympathetic response is mediated by an increase in plasma vasopressin (AVP) and a decrease in plasma angiotensin (AngII). 2. Three new models of neurogenic salt-dependent hypertension are presented. All models are theoretically based on an impaired hormonal-sympathetic reflex. 3. In the first model, sympathetic responsiveness is 'clamped' by long-term alpha-adrenergic blockade with prazosin. Prazosin treated rats exhibit marked salt-dependent hypertension despite normal suppression of the renin-angiotensin system. 4. In the second model, the ability of the central nervous system to respond to salt-induced changes in AVP and AngII concentrations was prevented by long-term administration of antagonists selective for the AVP-V1 and AT1. This 'clamp' of the afferent hormonal signal resulted in salt-dependent hypertension identical in magnitude to that observed in prazosin treated rats. 5. In the third model, the long-term arterial pressure responses to increasing dietary salt were examined in sino-aortic denervated (SAD) rats. SAD rats exhibited salt-dependent hypertension, of lesser magnitude than that observed with 'clamped' afferent and efferent pathways of the hormonal-sympathetic reflex. 6. A primary role for hormonal 'error signals' is presented and the impact this perspective has on past and future investigations of central mechanisms of long-term arterial pressure regulation is discussed.
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PMID:Hormones as long-term error signals for the sympathetic nervous system: importance of a new perspective. 904 15

Low sodium intake has been demonstrated to upregulate the gene expression of the predominant renal type 1 angiotensin II (Ang II) receptor (AT1), the AT1A subtype. The study presented here tests the hypothesis that the upregulation of renal AT1 mRNA induced by sodium depletion occurs conjointly with an elevation of the AT1 receptor that modulates renal growth. Seven-week-old male Wistar rats were divided into four groups and treated for 2 wk with normal sodium diet, normal sodium diet plus 3 mg/kg/day losartan, low sodium diet, or low sodium diet plus losartan. Body weight and MAP were not significantly different among the four groups. Plasma renin activity was significantly elevated by losartan treatment, low salt intake, or a combination of the two, compared with the plasma renin activity of the controls. Northern blot analysis indicated that renal AT1 mRNA levels were significantly increased-183% by losartan, 212% by low salt intake, and 227% by the combination of the two-compared with their levels in controls. Radioligand binding assays revealed that AT1 receptors were significantly increased by low salt intake but were significantly decreased by losartan treatment. Renal AT1 receptor binding in the rats subjected to sodium depletion plus losartan did not differ from that in control rats. Kidney weight, kidney weight/body weight ratio, and renal DNA and protein content were not altered by sodium depletion but were significantly lowered by losartan treatment with both normal and low sodium intake, compared with those of controls. The protein/DNA ratio was not significantly different among the four groups. Blockade of renal AT1 receptors with losartan was found to retard normal renal growth, indicating that Ang II is required for normal renal development. Low sodium intake was found to increase mRNA and expression of the renal AT1 receptor but to have no effect on renal growth, suggesting that an increase in renal mass above a normal level requires the activation of multiple factors. Blockade of the AT1 receptor by losartan was found to upregulate AT1 mRNA but to down-regulate the AT1 receptor, suggesting that AT1 receptor-mediated intracellular events are necessary to sustain functional AT1 receptor expression in the kidney.
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PMID:Regulation of angiotensin type 1 receptor and its gene expression: role in renal growth. 904 37

This study aimed to characterize the influence of endogenous angiotensin II on renal renin gene expression during different states of a stimulated and of a suppressed renin system. To this end the renin system in male Sprague Dawley rats was stimulated by unilateral renal artery clipping (0.2 mm clip), by furosemide (60 mg/kg per diem) or isoproterenol (160 microg/kg per diem), and by ingestion of a low-salt diet (0.02%), or was suppressed by setting a contralateral renal artery clip (0.2-mm clip) or by ingestion of a high-salt diet (4%). During the last 2 days of these different treatment regimens, the animals were treated with the angiotensin II AT1 receptor antagonist losartan (40 mg/kg per diem) and renal renin mRNA levels were assayed. Renin gene expression was stimulated four- to fivefold by renal artery clipping and isoproterenol infusion, two- to three-fold by furosemide and a low-salt diet, and about four-fold by losartan. Additional treatment with losartan potentiated the stimulatory effects of a low-salt diet, of furosemide and of isoproterenol infusion on renin gene expression, whilst there was no significant additional effect of losartan on renin gene expression in clipped kidneys. Both contralateral renal artery clipping and a high-salt diet decreased renin mRNA levels to about 50% of the control value. In rts with a unilateral clip, additional losartan treatment caused renin mRNA to increase to about 350% of the control value in the contralateral kidney but to only 100% of the control value in animals on a high-salt diet. These findings suggest that the enhanced formation of angiotensin II during a low-salt intake, during tubular inhibition of salt reabsorption or during beta-adrenoreceptor activation plays a relevant negative feedback role in the activation of the renin gene. Moreover, in rats with one hypoperfused kidney, angiotensin II could be involved in the inhibition of renin gene expression in the contralateral kidney. In hypoperfused kidneys, however, and in animals on a high-salt diet, angiotensin II appears to play a only a minor feedback role in the regulation of the renin gene.
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PMID:The role of angiotensin II in the feedback control of renin gene expression. 913 70

Thrombin has been implicated as an important mediator of vascular lesion formation in atherosclerosis and restenosis. To investigate a potential role for thrombin signaling in the vascular response to hypertension, we have studied thrombin receptor (TR) expression and regulation in hypertensive rats. Aortic TR mRNA was upregulated by angiotensin II (Ang II)-induced hypertension (10.7 +/- 2.5 times control, P < .02), which correlated with a 4-fold increase in thrombin-induced constriction in isolated endothelium-denuded aortic rings. The AT1 receptor antagonist losartan normalized blood pressure and TR mRNA. Conversely, lowering blood pressure to the same degree with hydralazine did not abolish the upregulation of TR mRNA expression. When low-renin low-Ang II hypertension was induced in Dahl salt-sensitive rats, there was no detectable increase in the expression of aortic thrombin receptor mRNA. Finally, treatment with a chimeric heparin-binding form of the recombinant human Cu/Zn superoxide dismutase caused complete inhibition of TR mRNA upregulation, suggesting that an increased rate of superoxide anion production is an important signaling mechanism. Thus, increased TR expression via a redox-sensitive mechanism in the aortic smooth muscle of rats treated with Ang II represents a novel in vivo mechanism through which the hypertensive effects of Ang II are mediated.
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PMID:Vascular thrombin receptor regulation in hypertensive rats. 916 86

Experiments in cattle compared the effects of intracerebroventricular (i.c.v.) infusions of losartan and PD-123319 on water intake caused by water restriction, i.c.v. infusion of hypertonic NaCl, or i.c.v. infusion of angiotensin II (ANG II). The effects of these receptor antagonists on sodium intake caused by sodium depletion were also examined. Losartan infusion caused dose-dependent inhibition of the high water intake caused by the physiological stimulus of water restriction or by ANG II infusion but did not affect salt appetite. PD-123319 infused at equimolar or greater (in ANG II experiments) doses did not affect water intake or salt intake due to sodium depletion. The results of these i.c.v. infusion experiments confirm our earlier proposal that the physiological regulation of water intake in cattle may be mediated by ANG II acting centrally via AT1 receptors. The dose of losartan that inhibited thirst in cattle did not inhibit sodium appetite, nor did an equimolar dose of PD-123319.
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PMID:Central infusion of the AT1 receptor antagonist losartan inhibits thirst but not sodium appetite in cattle. 922 11

The aims of this study were to identify whether tissue renin is regulated by a negative-feedback mechanism produced by locally generated angiotensin (Ang II) in the adrenal cortex and to detect the pathway of Ang II modulation. For this purpose, in 36 12-week old, salt-restricted, nephrectomized Sprague-Dawley rats, we studied the effects of the Ang II AT1-subtype receptor antagonist losartan and of the Ang II AT2-subtype receptor antagonist PD123319 on renin mRNA and activity, aldosterone synthase mRNA, and AT1a-, AT1b-, and AT2-subtype receptor expression in the adrenal cortex. Ten additional rats, kept on a regular diet and then nephrectomized, were also studied. In salt-restricted, nephrectomized rats, losartan administration caused increases of adrenal renin mRNA (P<.05) and activity (P<.05) and a concomitant reduction of aldosterone synthase mRNA (P<.05). In addition, after losartan AT1b, receptor mRNA was reduced (P<.05), AT1a receptor mRNA was unchanged, and AT2 mRNA was increased (P<.05). PD123319 did not significantly modify any of these parameters. In conclusion, in salt-restricted, nephrectomized rats, selective antagonism of AT1-subtype receptors stimulates the expression and the activity of renin in the adrenal cortex. This observation demonstrates that Ang II locally formed in the adrenal cortex exerts a modulatory negative-feedback action on adrenal renin biosynthesis independent of the influence of the circulating renin-Ang system; this action is largely mediated through the AT1b-subtype receptors.
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PMID:Opposite feedback control of renin and aldosterone biosynthesis in the adrenal cortex by angiotensin II AT1-subtype receptors. 932 82

The aim of the study was to investigate whether the adrenal renin-angiotensin system plays an independent role in the regulation of mineralocorticoid biosynthesis in the adrenal gland and to explore the mechanisms of this action. Twelve-week-old male Sprague-Dawley rats were studied: 22 rats were maintained on a regular diet; 27 and 22 rats received a low salt diet with and without treatment, respectively, with the angiotensin II (Ang II) AT1-subtype receptor antagonist losartan (10 mg/kg per day). A fraction of each group of rats underwent bilateral nephrectomy (n = 12, 15, and 10, respectively) and was killed 48 hours later. In an additional group of 24 (12 intact and 12 nephrectomized) rats, the effects of the Ang II AT2-subtype receptor antagonist PD123319 were investigated. In intact rats, plasma renin activity (PRA) and adrenal renin activity and expression were progressively raised by salt restriction and losartan, whereas aldosterone synthase mRNA and plasma aldosterone (PA) levels were increased by salt restriction and reduced by losartan. Forty-eight hours after nephrectomy, PRA fell to undetectable levels; in contrast, adrenal renin expression, assessed by semiquantitative reverse-transcriptase polymerase chain reaction (using GAPDH as a standard for gene expression), showed an 18-fold increase and was further increased after salt restriction and losartan (all P < .05). Also, adrenal renin activity was raised after nephrectomy and further increased after salt restriction (P < .05) and losartan. Cytochrome P450 aldosterone synthase expression in the adrenal cortex was stimulated by nephrectomy alone and by nephrectomy combined with low salt intake (P < .05), with consequent increases in PA concentrations. In losartan-treated salt-restricted nephrectomized rats, cytochrome P450 aldosterone synthase expression (P < .05 versus nephrectomy alone and nephrectomy plus salt restriction) and PA concentrations were diminished (P < .05) in spite of the observed increases of adrenal renin expression. The AT2-receptor antagonism did not significantly affect PRA, adrenal renin, and aldosterone biosynthesis and production in either intact or nephrectomized salt-restricted rats. These results demonstrate that the adrenal renin-angiotensin system plays an independent role in the regulation of mineralocorticoid biosynthesis in vivo. This action is mediated primarily via the Ang II AT1-subtype receptors.
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PMID:Role of tissue renin in the regulation of aldosterone biosynthesis in the adrenal cortex of nephrectomized rats. 935 60

The regulation of angiotensin II (Ang II) receptors and Ang II-induced modulation of intracellular Ca2+ concentration in cardiac cells from hearts of experimentally induced hypertensive deoxycorticosterone acetate (DOCA)-salt and control unilaterally nephrectomized (Uni-Nx) Sprague-Dawley rats was assessed. Ang II receptor density and intracellular Ca2+ concentration measurements were examined in adult ventricular myocytes and fibroblasts by radioligand binding assay and digital imaging using fura 2 methodology, respectively. Four-week DOCA-salt treatment induced hypertension associated with cardiac hypertrophy. Ang II binding studies demonstrated that adult ventricular myocytes and fibroblasts possess mainly the AT1 subtype receptor. Moreover, DOCA-salt hypertension was associated with a 1.8-fold increase in Ang II-specific binding compared with myocytes from Uni-Nx control rats. Intracellular Ca2+ responses induced by increasing Ang II concentrations (10[-12] to 10[-4] mol/L) were significantly enhanced in cardiomyocytes from DOCA-salt rats. The effects of Ang II on intracellular Ca2+ spike frequency were unaltered in cardiomyocytes from DOCA-salt-hypertensive rats. The density of AT1 subtype receptors was not modified in ventricular fibroblasts after DOCA-salt treatment. Ang II increased intracellular Ca2+ concentration similarly in ventricular fibroblasts from normal and hypertensive rats. In conclusion, DOCA-salt hypertension is characterized by an increased AT1 receptor density and intracellular calcium responses in ventricular myocytes, whereas in ventricular fibroblasts the AT1 receptor status is unaltered. These findings report for the first time the cardiac cell-specific implication of Ang II and the intracellular calcium signaling pathway stimulated by the AT1 receptor in cardiac hypertrophy in DOCA-salt-hypertensive rats.
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PMID:Cardiac type-1 angiotensin II receptor status in deoxycorticosterone acetate-salt hypertension in rats. 936 84

The pharmacological profile of YM358, 2,7-diethyl-5-[[2'-(1 H-tetrazol-5-yl)biphenyl-4-yl]methyl]-5H-pyrazolo[1,5-b][1,2,4]tri azole potassium salt monohydrate, a novel non-peptide angiotensin AT1 receptor antagonist, was studied in vitro and in vivo. YM358 competed with [125I][Sar1, Ile8]angiotensin II for angiotensin AT1 receptors in rat liver membranes. YM358 displayed competitive kinetics and the pKi value was calculated as 8.79. In contrast, YM358 had little effect on the binding of [125I][Sar1, Ile8]angiotensin II to the angiotensin AT2 receptor in bovine cerebellum. In isolated rabbit aorta, YM358 produced a parallel rightward shift in the concentration-response curve for angiotensin II with a pA2 value of 8.82. YM358 had no effect on the contraction induced by KCl, norepinephrine, serotonin, histamine, prostaglandin F2alpha or endothelin-1 even at 10(-5) M. On the basis of pKi values in the binding assay and pA2 values in the isolated tissues, YM358 was approximately 3-10 times more potent than losartan in antagonizing angiotensin AT1 receptors. In pithed rats, intravenous administration of YM358 inhibited an increase in mean blood pressure induced by intravenous infusion of angiotensin II in a dose-dependent manner. In conscious normotensive rats, YM358 at 3-30 mg/kg p.o. inhibited the angiotensin II-induced pressor response in a dose-dependent manner. YM358 at 30 mg/kg caused maximum and complete inhibition 30 min after dosing, and inhibition lasted more than 24 h. These results demonstrate that YM358 is a potent, AT1-selective and competitive nonpeptide angiotensin receptor antagonist. Moreover, YM358 is both orally active and long-lasting. This pharmacological profile suggests that YM358 would be suitable for the treatment of cardiovascular disorders such as hypertension and chronic heart failure.
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PMID:Pharmacological profile of YM358, a novel nonpeptide angiotensin AT1 receptor antagonist. 936 70

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