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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proliferation of smooth muscle cells within the intima plays a key role in vascular occlusive disorders such as atherosclerosis and restenosis following balloon angioplasty. Among the factors that may be important in the development of vascular lesions, several authors have reported that the local angiotensin system participates in modulating the proliferation of smooth muscle cells after arterial injury. This study was therefore designed to characterize the antagonistic properties and to investigate the antiproliferative effect of a newly developed non-peptide angiotensin II AT1 receptor antagonist, SR 47436. This compound is a potent and competitive antagonist of the binding of [125I]angiotensin II to its receptor on cultured human aortic smooth muscle cells, exhibiting an IC50 value of 1.7 +/- 0.6 nM. SR 47436 was 10-fold more potent than DuP 753 (Losartan) (IC50 = 20.8 +/- 3.7 nM). In these same cells, SR 47436 potently inhibited the angiotensin II-induced [Ca2+]i increase (IC50 = 0.53 +/- 0.13 vs. 7.4 +/- 1.3 nM for DuP 753). Angiotensin II is a potent mitogen for human aortic smooth muscle cells in culture, exhibiting a maximum proliferative response at 1 microM. SR 47436 and Losartan prevented angiotensin II-induced proliferation of these cells in a dose-dependent manner (IC50 = 0.32 +/- 0.09 and 0.71 +/- 0.08 microM, respectively). SR 47436 displayed a marked in vitro inhibition of serum-induced smooth muscle cell proliferation (IC50 = 5.5 +/- 0.8 microM). A selective AT2 receptor antagonist, PD 123177 did not affect angiotensin II-induced responses in these cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of SR 47436, a novel angiotensin II AT1 receptor antagonist, on human vascular smooth muscle cells in vitro. 814 71

The vasoactive peptides endothelin-1 (ET-1) and angiotensin-II (AII) have been implicated in chronic hypertension and may play important roles in related vascular diseases such as restenosis and atherosclerosis. Using a rat aortic smooth muscle (RASM) cell model, both ET-1 and AII induced concentration-dependent delayed increases in DNA synthesis relative to that in the serum-deprived controls. Stimulation of DNA synthesis was maximal at 100 nM for each peptide. All treatment of RASM cells resulted in a greater mitogenic effect (4- to 7-fold) than that observed for ET-1 (3-fold). When added in the presence of AII, ET-1 had a supplemental effect on DNA synthesis (5- to 10-fold above control). Although RASM cells expressed both ETA and AT1 receptors, radioligand binding experiments indicated that approximately 10-fold as many AT1 receptors as ETA receptors were present. In signal transduction studies, ET-1 and AII each elicited concentration-dependent increases in the intracellular Ca2+ concentration. ET-1 and AII also stimulated phosphoinositide metabolism and phosphorylation of a specific substrate for protein kinase-C. The release of total inositol phosphates in response to ET-1 and AII was concentration dependent and inhibited by the ETA receptor-selective antagonist BQ-123 and the AT1 receptor-selective antagonist losartan, respectively. In addition, tyrosine phosphorylation of 120- and 75-kilodalton proteins as well as the mitogen-activated protein kinases p44mapk and p42mapk was observed within 5 min of the addition of either ET-1 or AII. Taken together, these data indicate that ET-1 and AII may promote smooth muscle cell growth through common intracellular signaling mechanisms.
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PMID:Endothelin-1 and angiotensin-II stimulate delayed mitogenesis in cultured rat aortic smooth muscle cells: evidence for common signaling mechanisms. 817 Apr 71

Angiotensin II (Ang II) raises blood pressure (BP) by a number of actions, the most important ones being vasoconstriction, sympathetic nervous stimulation, increased aldosterone biosynthesis and renal actions. Other Ang II actions include induction of growth, cell migration, and mitosis of vascular smooth muscle cells, increased synthesis of collagen type I and III in fibroblasts, leading to thickening of the vascular wall and myocardium, and fibrosis. These actions are mediated by type 1 Ang II receptors (AT1), and may be blocked by losartan, a specific blocker of AT1 receptors. In particular, studies employing losartan have shown that Ang II is an important contributor to BP regulation and plays a significant role in hypertension and in the pathophysiology of vascular damage during the course of hypertension. Ang II is also involved in the process of atherosclerosis and in remodelling and repair processes of the myocardium following myocardial infarction. Finally, increased Ang II is an important part of neurohumoral activation in heart failure. Exciting new discoveries concerned with polymorphisms of genes coding for angiotensin converting enzyme (ACE) and angiotensinogen suggest that Ang II may be genetically associated with increased risk for myocardial infarction, hypertension and left ventricular hypertrophy.
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PMID:Role of angiotensin II in blood pressure regulation and in the pathophysiology of cardiovascular disorders. 858 76

To investigate how the renin-angiotensin system (RAS) might be involved in cholesterol-induced atherosclerosis, we studied the effects of a nonsulhydryl angiotensin converting enzyme (ACE) inhibitor, enalapril, and an angiotensin II receptor antagonist, E-4177, in cholesterol fed rabbits. Japanese white rabbits were randomly divided into four groups with the following dietary regimens: group A (n = 8) received a standard diet; group B (n = 8) had a 0.5% cholesterol diet; group C (n = 8) had a 0.5% cholesterol diet plus enalapril (10 mg/kg/day, p.o.); group D (n = 8) received a 0.5% cholesterol diet plus E-4177 (20 mg/kg/day, p.o.) and were fed these diets for 5 weeks. Enalapril or E-4177 had no significant effect on either the total plasma or the high density lipoprotein (HDL) cholesterol concentrations. However, the aortic cholesterol content in groups C and D was equally significantly less than that in group B. The plasma and aortic ACE activities were significantly reduced only in group C compared with those in the other groups. The aortic ACE mRNA and AT1 mRNA levels were assessed by a reverse transcription polymerase chain reaction (RT-PCR). The aortic ACE mRNA level was only significantly less in group C than in any of the other groups. The aortic AT1 mRNA level increased significantly in group B compared with that in group A and was significantly and equally reduced in both groups C and D compared with that in group B. These data indicate that angiotensin II rather than ACE may therefore be related to aortic cholesterol content. It follows therefore that the inhibition of angiotensin II by either ACE inhibitor or angiotensin II (type 1) receptor antagonist may play a role in prevention of atherosclerosis.
Atherosclerosis 1996 Nov 15
PMID:The effects of renin-angiotensin system inhibition on aortic cholesterol content in cholesterol-fed rabbits. 900 12

Hypertension, low-density lipoprotein (LDL), and fibrinogen are risk factors for atherosclerosis. We investigated the effect of reducing blood pressure, by blocking the renin-angiotensin system (RAS), on the accumulation of these atherogenic proteins in arterial walls and other tissues in conscious, unrestrained, normotensive and hypertensive rats. The accumulation of LDL and fibrinogen, labeled respectively with 125I and 131I via the adduct tyramine cellobiose ([125I]-TC-LDL and [131I]-TC-fibrinogen) was compared in aortic walls, heart, lung, skeletal muscle, liver, kidney, and adrenal gland during the final 24 h of treatment with either the angiotensin-converting enzyme (ACE) inhibitor captopril or the angiotensin II-receptor I (AT1) antagonist losartan. In normotensive rats, the blood pressure was decreased only by losartan. In spontaneously hypertensive rats (SHRs), the blood pressure was decreased by both losartan and captopril. Captopril had no significant effect on the accumulation of LDL or fibrinogen by the aortic wall. Losartan significantly increased the accumulation of LDL by the aortic wall of SHRs. Neither agent produced any change in LDL or fibrinogen accumulation in any of the other tissues. These results indicate that although blocking the RAS at either the enzymic or receptor level produces significant decrease of blood pressure in hypertensive animals, only losartan has any affect on LDL accumulation by the aortic wall.
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PMID:Effect of captopril and losartan on blood pressure and accumulation of LDL and fibrinogen by aortic wall and other tissues in normotensive and hypertensive rats. 900 81

Losartan potassium is the first of a new class of orally active antihypertensive drugs which antagonise the action of angiotensin (AT) II at the AT1 receptor subtype. Losartan potassium is converted by the liver to the active metabolite E-3174, which is a more potent antagonist at the AT1 receptor. E-3174 is responsible for most of the pharmacological effects of losartan potassium, and its long half-life contributes to the extended duration of action of the drug. Losartan potassium is effective as a once-daily antihypertensive agent. In mild to moderate hypertension, losartan potassium has similar efficacy to enalapril, atenolol and felodipine extended release. When losartan potassium is combined with hydrochlorothiazide there is a further reduction in blood pressure. Losartan potassium is well tolerated in mild, moderate and severe essential hypertension, with dizziness being reported as the only drug-related adverse effect. The overall rate of patient withdrawal from therapy due to adverse experiences with losartan potassium is lower (2.3%) than that of placebo (3.7%). First-dose hypotension is uncommon, perhaps due to the slower onset of action of the drug, and cough does not appear to be a significant problem. A number of areas concerning the safety and efficacy of losartan potassium remain to be clarified. In particular, long term tolerability studies are needed; cough only became apparent as an adverse effect of ACE inhibitors after 3 to 4 years of use. Postmarketing surveillance has shown that angioedema, a rare but life-threatening adverse effect of ACE inhibitors, also occurs with losartan potassium. Further data are needed on the use of losartan potassium in patients with renal impairment before accepting the recommendation that dosage adjustment is not necessary. The pharmacokinetics and pharmacodynamics of losartan potassium in patients with hepatic disease also require further investigation. Losartan potassium increases uric acid secretion and lowers plasma uric acid levels, which may be of benefit when losartan potassium is combined with a thiazide diuretic, but which may otherwise lead to uric acid stone formation and possibly to nephropathy. Simple control of blood pressure is no longer an adequate goal in the management of hypertension. Any new antihypertensive agent should also reduce cardiovascular events, prevent or cause regression of end-organ damage such as left ventricular hypertrophy, atherosclerosis and renal failure, and should not impair quality of life. Such data on losartan potassium are not currently available. Losartan potassium is likely to be used in patients who are intolerant of ACE inhibitors, but its future in the management of hypertension will depend on long term tolerability studies and data on its effects beyond simple blood pressure control.
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PMID:A risk-benefit assessment of losartan potassium in the treatment of hypertension. 901 Jun 43

Recent studies have been reported indicating that angiotensin II may potentiate neointimal formation. In the present study, we examined the antagonistic effect of tranilast on angiotensin II. Losartan was used as the reference compound. First, tranilast inhibited the angiotensin II-induced contraction of rabbit aortic strips in a noncompetitive manner (pD'(2) = 3.7), whereas it had little effect on the contraction induced by noradrenaline or endothelin-l. Second, tranilast inhibited the binding of (125)I-labeled angiotensin II to angiotensin AT1 receptors in rat liver membranes with an IC(50) value of 289 mu M. Finally, functional antagonism of tranilast (100 and 300 mu M) was demonstrated by its blockade of angiotensin II (10(-8)M)-induced (45)Ca(2+) -efflux from human vascular smooth muscle cells (VSMC). However, tranilast (30-300 mu M) exerted no influence on PDGF-induced formation of inositol triphosphates which cause an increase in [Ca(2+)]i in human VSMC. The antagonistic activity of tranilast towards angiotensin II may be involved in part in preventing restenosis after percutaneous transluminal coronary angioplasty (PTCA).
Atherosclerosis 1996 Apr 05
PMID:Tranilast antagonizes angiotensin II and inhibits its biological effects in vascular smooth muscle cells. 912 91

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

Myocardial infarction and stroke are the major cause of death in developed countries and are the clinical manifestation of atherosclerosis and hypertension. Both the environmental factors and genetic predisposition have an influence on the pathogenesis of these diseases. Despite we know lots of environmental risk factors and we made important advances in the prevention and treatment of mentioned diseases, our knowledge about the pathogenic linkage between genetic predisposition and cardiovascular diseases is still very little. Activation of the renin-angiotensin system has been proposed as a very important step in the pathogenesis of hypertension and atherosclerosis. In spite of vasoconstrictor activity, angiotensin II can stimulate migration and proliferation of vascular smooth muscle cells, macrophage-foam cells formation, adhesion and aggregation of platelets and fibrinolytic system inhibition. Angiotensin convertin enzyme inhibitors reduce the development of the atherosclerotic process after vascular injury and in hyperlipidemic animals. Blockade of renin-angiotensin system seems to be also effective in secondary prevention of myocardial infarction in men. In sum, the genetic variations inside the renin-angiotensin system which may affect the function of its components might have an influence on genetic predisposition to cardiovascular diseases. The paper deals with the current state of knowledge on association between polymorphic variations in renin gene, angiotensinogen gene, angiotensin converting enzyme gene and AT1 receptor gene and primary hypertension, ischaemic heart disease and myocardial infarction.
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PMID:[The role of DNA polymorphism in the renin-angiotensin system and the pathogenesis of cardiovascular diseases]. 923 64

The molecular and cellular mechanisms by which hypertension enhances atherosclerosis are poorly understood. Angiotensin II (Ang II) has been implicated in the regulation of cellular lipoxygenases (LO), which are thought to play a role in atherogenesis by inducing oxidative modification of low density lipoprotein (LDL). We sought to test the hypothesis that Ang II would stimulate murine macrophage LO activity (which has both 12- and 15-LO activity). Competitive binding studies revealed the presence of Ang II AT1 receptors on mouse peritoneal macrophages (MPM) and J-774 cells, but not on the RAW cell line. Valsartan, a specific AT1 receptor antagonist inhibited Ang II binding, whereas PD 123319, an AT2 receptor antagonist did not. Incubation of MPM or J-774 cells with Ang II (10 pM to 1 microM) for 24 h led to a 2.5-3.5-fold increase in LO activity, measured as generated 13-HODE or 12(S)-HETE. This stimulation was inhibited by valsartan, but not by PD 123319. In contrast, Ang II did not stimulate LO activity in RAW macrophages. Semiquantitative reverse transcriptase-polymerase chain reaction showed a 2-3-fold increase in LO mRNA in MPM, but not in RAW cells after treatment with Ang II. Ang II also induced an increase in 12-LO protein. In addition, pretreatment of J-774 cells with Ang II increased in a dose-dependent manner the ability of the cells to modify LDL, resulting in greater chemotactic activity for monocytes, typical of minimally modified LDL. This stimulation was inhibited by AT1 receptor blockade. In summary, these data suggest that Ang II increases macrophage LO activity via AT1 receptor-mediated mechanisms and this further increases the ability of the cells to generate minimally oxidized LDL. These studies provide a link between hypertension and the associated increased atherosclerosis observed in hypertensive patients.
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PMID:Angiotensin II increases macrophage-mediated modification of low density lipoprotein via a lipoxygenase-dependent pathway. 926 Nov 83


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