Fructose feeding induces a moderate increase in blood pressure levels in normal rats that is associated with insulin resistance, hyperinsulinemia, and hypertriglyceridemia. The sympathetic nervous system seems to participate in the alterations of this model. To further explore the mechanisms underlying fructose-induced hypertension, the effects of the AT1 receptor antagonist losartan on blood pressure, insulin resistance, renal function, and vascular reactivity in mesenteric vascular beds were studied. Sprague-Dawley rats were fed for 4 weeks with diets containing 60% fructose or 60% starch (control), and half of each group received losartan (1 mg/kg per day) in the drinking water. Fructose-fed rats showed higher (P < .05) blood pressure levels and plasma concentrations of triglycerides and insulin than those of controls. Losartan treatment prevented both blood pressure elevation and hyperinsulinemia in fructose-fed rats but not elevation of plasma triglycerides. Plasma glucose and insulin levels in response to an oral glucose load were higher (P < .05) in fructose-fed rats than in controls. These exaggerated responses were prevented by losartan treatment. No differences in the constrictor responses of mesenteric vascular beds to KCl (60 mumol), angiotensin II (1 nmol), phenylephrine (10(-5) mol/L), or endothelin-1 (10 pmol) were found between the two groups. Relaxing responses to acetylcholine or sodium nitroprusside in phenylephrine-precontracted mesenteric vascular beds and constrictor response to the nitric oxide synthesis inhibitor NG-nitro-L-arginine methyl ester (100 nmol) were comparable in both groups. Losartan blunted angiotensin II constriction and reduced (P < .05) responses to phenylephrine in all groups.(ABSTRACT TRUNCATED AT 250 WORDS)
The effects of angiotensin (AT)(1) receptor antagonists on functional and morphological alterations associated with atherosclerosis are not well known. The current study was performed to examine the long-term effects of valsartan (3 or 10 mg/kg per day for 10 weeks) on endothelial function and structural changes in aorta from rabbits fed with either a control diet or a cholesterol-enriched diet. Rabbits fed with the cholesterol-rich diet showed higher (P<0.05) plasma levels of cholesterol than did controls. Treatment with valsartan (3 or 10 mg/kg per day) did not alter plasma cholesterol levels or systolic arterial pressure in any group. Contractions induced by angiotensin II were comparable in both control and hypercholesterolemic rabbits and were markedly reduced by treatment with valsartan. Relaxations induced by acetylcholine were lower in hypercholesterolemic rabbits than in controls. Treatment with valsartan (3 or 10 mg/kg per day) enhanced (P<0.05) this response in hypercholesterolemic rabbits but not in controls. Lumen and media cross-sectional areas were comparable in control and hypercholesterolemic rabbits. Vessel area was higher (P<0.05) in hypercholesterolemic rabbits than in controls. Intimal lesion was 29.5+/-6% in cholesterol-fed rabbits and nonexistent in control rabbits. Treatments with 3 and 10 mg/kg per day valsartan reduced (P<0.05) intimal lesion to 2.4+/-0.7% and 2.7+/-0.9%, respectively, and increased lumen area in hypercholesterolemic rabbits. No changes in either vessel or media cross-sectional areas were observed in these animals. In summary, angiotensin II, through AT(1) receptors, appears to play a key role in the development of the vascular functional and structural changes associated with hypercholesterolemia. AT(1) receptor antagonists, besides their antihypertensive effects, could be an important therapeutic tool to reduce the development of atherosclerosis.
The effects of the administration of either the angiotensin converting enzyme (ACE) inhibitor, quinapril (10 mg/kg/day, orally), or the calcium antagonist, diltiazem (100 mg/kg/day, orally), on blood pressure (BP), renal function, and vascular reactivity in isolated perfused mesenteric beds were studied in rats treated for 8 weeks with the nitric oxide (NO ) synthesis inhibitor, iVG-nitro-Larginine methyl ester (LNAME, 40 mglkglday). The oral administration of LNAME significantly increased systolic BP values, which reached the levels of 186 t 7 mm Hg at week 8. Both quinapril and diltiazem reduced this, although the ACE inhibitor was more effective than the calcium antagonist. The chronic inhibition of NO resulted in an increase in water excretion whether or not the increase in systolic BP was prevented by the coadministration of either quinapril or diltiazem. At the end of the experiment, LNAMEtreated rats presented higher proteinuria than control rats (140 t 4 mg/24 hours v 21 t 1 mg/24 hours, P < .05). This elevated protein excretion was normalized by both antihypertensive drugs. None of the treatments was able to modify either natriuresis or plasma creatinine levels. Endothelium-dependent relaxations to acetylcholine (10 '12 to 10 mol/L) were comparable in all groups. However, the vasoconstriction induced by either the continuous infusion of phenylephrine (10 mol/L) or by a bolus of angiotensin II (1 nmol) was higher in the animals that received LNAME than in control ones. The antihypertensive therapy normalized the response to phenylephrine but not to angiotensin II. These data suggest that both quinapril and diltiazem are not only able to reduce BP elevation induced by the chronic administration of LNAME in rats, but also to prevent the renal damage and the hyperresponsiveness to phenylephrine induced by this NO synthesis inhibitor. Am J Hypertens 1996; 9:1077-1083
Nitric oxide seems to be involved in the mechanisms underlying the antihypertensive and renal responses of losartan in spontaneously hypertensive rats (SHR). We investigated the contribution of nitric oxide to the effect of this angiotensin II (Ang II) type 1 (AT1) receptor antagonist on the constrictor response of phenylephrine in aortic rings from SHR. Furthermore, since it has been suggested that Ang II could bind to unblocked AT2 receptors, during administration of an AT1 receptor antagonist, we also studied the effect of the AT2 receptor antagonist PD 123319 on the contractile response to phenylephrine in aortic rings from SHR. To this end, we studied dose-response curves of phenylephrine (10(-9) to 10(-5) mol/L) in the presence and absence of losartan (10(-9), 10(-7), and 10(-5) mol/L) in SHR aortic rings. Preincubation with losartan reduced the constrictor response to phenylephrine but not to KCl (10 to 120 mmol/L) in a dose-dependent manner. On the other hand, the presence of captopril (10(-5) mol/L) in the incubation medium did not alter the response to phenylephrine, even at the dose of 10(-3) mol/L. The reduced response to phenylephrine in the presence of losartan was abolished in both endothelium-denuded rings and rings treated with a nitric oxide synthesis inhibitor. A similar situation was observed in PD 123319-pretreated rings, in which the effect of losartan on the contractile response to phenylephrine was reversed. Losartan was not able to stimulate the production of aortic cGMP compared with the control group. Likewise, losartan did not modify the relaxing responses to either acetylcholine or sodium nitroprusside in phenylephrine-preconstricted aortic rings. Furthermore, losartan did not alter isometric tension in aortic rings in either basal or phenylephrine-preconstricted conditions. These data demonstrate that Ang II potentiates the vasoconstriction induced by phenylephrine through the stimulation of AT1 receptors. Moreover, AT2 receptors and nitric oxide appear to be involved in this effect.
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