Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The migration as well as proliferation of coronary artery medial smooth muscle cells (SMC) into the intima is proposed to be an important process of intimal thickening in coronary atherosclerosis. In the current study, we examined the effects of the angiotensin type 1 receptor antagonist valsartan on angiotensin II (Ang II)-induced migration of cultured human coronary artery SMC using Boyden's chamber methods. Ang II significantly stimulated human coronary artery SMC migration in a concentration-dependent manner between 10(-6) and 10(-8) mol/l when cells of passage 4 to 6 were used. However, the migration response to Ang II was moderately decreased in cells of passage 10 to 12, and was markedly decreased in cells of passage 15 to 17, compared to that of passage 4 to 6. Ang II-induced migration was blocked by the Ang II type 1 (AT1) receptor antagonist valsartan in a concentration-dependent manner. By contrast, the Ang II type 2 (AT2) receptor antagonist PD 123319 did not affect Ang II-induced migration. Ang II modestly increased the cell number of human coronary artery SMC after a 24-h incubation. This increase in cell numbers was also clearly blocked by valsartan, but not by PD 123319. These results indicate that Ang II stimulates migration as well as proliferation via AT1 receptors in human coronary artery SMC when cells of passage 4 to 6 are used. Valsartan may prevent the progression of coronary atherosclerosis through an inhibition of Ang II-induced migration and proliferation in these cells, although in vivo evidence is lacking.
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PMID:Effects of valsartan on angiotensin II-induced migration of human coronary artery smooth muscle cells. 1113 Dec 81

The Heart Outcomes Prevention Evaluation (HOPE) study conclusively demonstrated that ramipril, an angiotensin-converting enzyme (ACE) inhibitor, reduces the risk of cardiovascular death, myocardial infarction (MI), and death in patients at risk for cardiovascular events but without heart failure. The Study to Evaluate Carotid Ultrasound Changes in Patients Treated with Ramipril and Vitamin E (SECURE) substudy demonstrated that ramipril also reduced atherosclerosis. These results suggest that the renin-angiotensin system (RAS) has a more important role in the development and progression of atherosclerosis than previously believed, and they indicate the need for further clinical studies to define the range of benefits available from modifying the RAS. Achieving maximum benefit may require treatment with both an ACE inhibitor and an angiotensin II type-1 receptor blocker (ARB). The Randomized Evaluation of Strategies for Left Ventricular Dysfunction (RESOLVD) study indicated that combining an ACE inhibitor with an ARB decreased blood pressure and improved the ejection fraction more than treatment with either drug alone in patients with congestive heart failure. The Valsartan in Heart Failure Trial (Val-HeFT) showed that the combination of an ACE inhibitor and an ARB reduced hospitalization for heart failure in patients with congestive heart failure by 27.5%, although no decrease in all-cause mortality was observed. The Ongoing Telmisartan Alone and in Combination with Ramipril Global Endpoint Trial (ONTARGET) is a large, long-term study (23,400 patients, 5.5 years). It will compare the benefits of ACE inhibitor treatment, ARB treatment, and treatment with an ACE inhibitor and ARB together, in a study population with established coronary artery disease, stroke, peripheral vascular disease, or diabetes with end-organ damage. Patients with congestive heart failure will be excluded. In a parallel study, patients unable to tolerate an ACE inhibitor will be randomized to receive telmisartan or placebo (the Telmisartan Randomized Assessment Study in ACE-I Intolerant Patients with Cardiovascular Disease [TRANSCEND]). The primary endpoint for both trials is a composite of cardiovascular death, MI, stroke, and hospitalization for heart failure. Secondary endpoints will investigate reductions in the development of diabetes mellitus, nephropathy, dementia, and atrial fibrillation. These 2 trials are expected to provide new insights into the optimal treatment of patients at high risk of complications from atherosclerosis.
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PMID:From the HOPE to the ONTARGET and the TRANSCEND studies: challenges in improving prognosis. 1183 7

In hypercholesterolemic and hypertensive patients, an increased propensity of their low-density lipoprotein (LDL) to oxidative modification has been observed. Because oxidized LDL (ox-LDL) plays a major role in atherosclerosis, the current study analyzed the anti-oxidative effect of valsartan (an angiotensin II receptor antagonist) therapy in combination with fluvastatin therapy in these patients. Administration of 40 mg/d of fluvastatin for 2 months to seven patients resulted in significant reduction in plasma total and LDL cholesterol (by 24-28%). Valsartan administration (80 mg/d for an additional 2-month period) in combination with fluvastatin did not further affect plasma cholesterol levels. Fluvastatin therapy inhibited the susceptibility of LDL to copper ion-induced oxidation, as shown by prolongation of the lag time by 22% and by a reduction of thiobarbituric acid-reactive substances (TBARS) levels by 14%, as compared with the patient's LDL baseline oxidation. The addition of valsartan to fluvastatin resulted in a further 17% prolongation of the lag time and in an additional reduction of 21% in TBARS levels. In a parallel study, the LDL from eight patients who were first treated with 80 mg/d of valsartan for 2 months demonstrated reduced susceptibility to copper ion-induced oxidation, as observed by prolongation of lag time by 23% and reduction in TBARS levels by 19%, compared with the baseline values. The administration of 40 mg/d of fluvastatin for an additional 2 months in combination with valsartan, however, demonstrated no further inhibitory effect on LDL oxidation. The anti-oxidative properties of fluvastatin and valsartan against LDL oxidation were also demonstrated in vitro and the combination of both drugs was shown to have an additive effect. Valsartan therapy in hypercholesterolemic and hypertensive patients has an additive anti-oxidative effect to that of fluvastatin therapy. This may be related both to the anti-oxidative properties of valsartan and to the blocking of angiotensin II-induced oxidative stress.
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PMID:Valsartan therapy has additive anti-oxidative effect to that of fluvastatin therapy against low-density lipoprotein oxidation: studies in hypercholesterolemic and hypertensive patients. 1207 74

The Annual Scientific Sessions of the American Heart Association is the leading scientific conference in the cardiovascular field, both for basic and clinical research in cardiology and related disclipines. This report covers the outcome of major clinical trials that were presented in the 'late-breaking' clinical trial sessions. The Valsartan in Acute Myocardial Infarction Trial (VALIANT) investigated the angiotensin receptor blocker valsartan, the angiotensin-converting enzyme inhibitor captopril, and their combination in 14,703 survivors of an acute myocardial infarction with a reduced left ventricular ejection fraction on clinical outcome. The study demonstrated that valsartan and captopril where equally effective, whereas the combination was associated with an increased risk of side effects without further benefit. VALIANT is a landmark trial because it was the first large study that compared the combination of an angiotensin receptor blocker with an angiotensin-converting enzyme inhibitor in the setting of acute myocardial infarction. Other trials that will be summarised in this report are the Na + /H + Exchange Inhibition to Prevent Coronary Events in Acute Cardiac Conditions Trial (EXPEDITION; cariporide in coronary artery bypass graft surgery), the Reversal of Atherosclerosis with Aggressive Lipid Lowering Trial (REVERSAL; atorvastatin and pravastatin for atherosclerosis reversal), the Stroke Prevention Using an Oral Thrombin Inhibitor in Atrial Fibrillation V (SPORTIF V; ximelagatran and warfarin for stroke prevention in atrial fibrillation), the Prophylactic Amiodarone for the Prevention of Arrhythmias that Begin Early After Revascularisation (PAPABEAR; amiodarone for the prevention of postoperative atrial fibrillation), the Acute and Chronic Therapeutic Impact of a Vasopressin 2 Antagonist in Congestive Heart Failure (ACTIV in CHF; vasopressin 2 antagonist tolvaptan in congestive heart failure) and Prevention of Renal and Vascular Endstage Disease Intervention Trial (PREVEND IT; fosinopril and pravastatin in microalbuminuric subjects without hypertension or hypercholesterolemia).
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PMID:American Heart Association scientific sessions. 1510 93

Angiotensin II (Ang II) is a powerful accelerator of atherosclerosis. Herein, we describe a novel transcription mechanism through which Ang II inhibits macrophage expression of the ATP-binding cassette transporter A1 (ABCA1), a key regulator of reverse cholesterol transport. We demonstrate that chronic Ang II infusion substantially promotes macrophage infiltration, foam cell formation, and atherosclerosis in low-density lipoprotein receptor-deficient mice and significantly reduces ABCA1 expression in peripheral macrophages. Administration of the Ang II type 1 receptor blocker valsartan inhibited Ang II-induced ABCA1 mRNA repression, macrophage cholesterol accumulation, and atherosclerosis. Ang II treatment reduced ABCA1 promoter activity of in vitro cultured mouse peritoneal macrophages, inducing fos-related antigen 2 (Fra2) protein binding to an ABCA1 promoter E-box motif, a site known to negatively regulate macrophage ABCA1 transcription. Valsartan pretreatment blocked Fra2 binding to the ABCA1 promoter, and Fra2 small interfering RNA pretreatment attenuated Ang II-mediated ABCA1 transcriptional inhibition, confirming the role of Fra2 in this process. This new evidence suggests that Ang II, a well-known proinflammatory and pro-oxidative factor, alters macrophage cholesterol homeostasis by repressing ABCA1 to promote foam cell formation and atherosclerosis.
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PMID:Transcriptional repression of ATP-binding cassette transporter A1 gene in macrophages: a novel atherosclerotic effect of angiotensin II. 1622 68

Chronic inflammation is common in hypertension and acts as an independent determinant of arterial blood pressure. Hypertensive patients are reported to have high circulating levels of pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and C-reactive protein (CRP). Recently, angiotensin II receptor blockers (ARBs) have been shown to possess benefits in addition to their ability to lower blood pressure, including anti-inflammatory and antioxidative properties within the vasculature. We evaluated the effects of the angiotensin II receptor blocker, valsartan, on these inflammatory cytokines. Thirty-nine patients with essential hypertension participated. These subjects received valsartan, 40 to 80 mg/day. Serum TNF-alpha, IL-6, CRP, and serum amyloid A (SAA) were measured before and after 3 months of treatment with valsartan. Valsartan significantly decreased systolic and diastolic blood pressure (160 +/- 16/92 +/- 11 mm Hg to 147 +/- 21/84 +/- 11 mm Hg, P = 0.001/P = 0.001, respectively). Serum TNF-alpha (9.1 +/- 8.6 pg/mL to 6.1 +/- 1.0 pg/mL, P = 0.006) and IL-6 (9.3 +/- 1.7 pg/mL to 8.9 +/- 1.4 pg/mL, P = 0.005) were significantly reduced after treatment with valsartan. However, C-reactive protein and serum amyloid A did not change. The angiotensin II receptor blocker, valsartan, may inhibit the development of atherosclerosis by lowering serum pro-inflammatory cytokines.
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PMID:Effects of angiotensin II receptor blockade with valsartan on pro-inflammatory cytokines in patients with essential hypertension. 1630 95

Several lines of evidence suggest that both advanced glycation end products (AGEs) and oxidation processes play key roles in the physiology of aging and age-related pathologies, leading to irreversible proteins modifications in both tissues and the extracellular matrix. Such an accelerated accumulation of these modifications has been reported to be present in several age-related chronic diseases, such as atherosclerosis, diabetes, arthritis, and neurodegenerative diseases. The current literature reveals that the specific inhibition of AGEs may constitute an innovative therapeutic goal. In experimental animals, the use of sartans significantly reduces blood pressure and kidney pentosidine content, improving both histologic renal damage and proteinuria. In this study, 12 subjects who were affected by diabetes mellitus and hypertension were subjected to oral antihypertensive therapy with valsartan (class of sartans) with timed sampling of plasma and urine pentosidine, N(epsilon)-(carboxymethyl)lysine (CML), malondialdehyde, and isoprostanes levels, respectively, at baseline and after both 3 and 6 months, with parallel ongoing evaluation of glycemic control and blood pressure levels. Valsartan elicited a good antihypertensive effect with a 30% decrease in plasma pentosidine levels (P < .05) after 3 months of therapy, followed by a slight increase after 6 months. Urinary pentosidine concentrations exhibited a 40% decrease after 3 months (215 +/- 19 vs 129 +/- 23 nmol/24 h) and a further significant reduction after 6 months of therapy (105 +/- 24 nmol/24 h). Plasma CML levels showed a progressive decrease after 3 months (23.15 +/- 3.215 vs 19.88 +/- 1.684 micromol/mL) and achieved a further slight reduction after 6 months of therapy (19.48 +/- 1.339 micromol/mL); for urinary CML, a statistically significant reduction was gained after the sixth month of therapy (48.51 +/- 5.70 vs 30.30 +/- 2.77 micromol/24 h after 3 months and 27.02 +/- 4.13 micromol/24 h after 6 months; F = 7.62, P < .005). Plasma and urinary concentrations of malondialdehyde were slightly modified by valsartan treatment; the mean levels after both 3 and 6 months did not significantly differ from baseline. Urinary 15-F2t-isoprostanes (2.96 +/- 0.45 ng/24 h) levels displayed a progressive decrease after both 3 (2.27 +/- 0.31 ng/24 h) and 6 months (1.70 +/- 0.23 ng/24 h) with statistical significance achieved only at the end of the study (P < .05). The present data suggest interesting in vivo antiglycation and antioxidation effects of this angiotensin II receptor antagonist with reductions in plasma and urinary pentosidine, plasma CML, and urinary isoprostanes levels. The present study supports an antagonistic role of valsartan in the production of AGEs precursors through the chelation of transition metals and an antioxidant activity that scavenges reactive oxygen species. This property of valsartan may broaden the scope of newly developed pharmacologic inhibitors of advanced glycoxidation.
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PMID:Effects of valsartan therapy on protein glycoxidation. 1714 34

Angiotensin II (Ang II) plays a key role in the regulation of blood pressure and fluid homeostasis. Valsartan is a highly selective Ang II receptor blocker that specifically and selectively blocks Ang II at the AT1-receptor. In animal models, valsartan has shown positive effects on vasoconstriction, proliferation, remodelling, endothelial function and thrombogenesis, inflammation and atherosclerosis. These data are likely to be confirmed by the results of current clinical trials and valsartan is set to provide improved cardiovascular therapy in the future.
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PMID:New basic science initiatives with the angiotensin II receptor blocker valsartan. 1719 10

Angiotensin-converting enzyme inhibitors and angiotensin receptor blockers are thought to possess cardioprotective, cerebroprotective, and nephroprotective properties. Both classes of agents can prevent or reverse endothelial dysfunction and atherosclerosis, thereby potentially reducing the risk of cardiovascular events. Such a reduction has been shown with angiotensin-converting enzyme inhibitors in patients with coronary artery disease, but no such data are scarce with angiotensin receptor blockers (Valsartan in Acute Myocardial Infarction study). Both angiotensin-converting enzyme inhibitors and angiotensin receptor blockers have been shown to reduce damage in target organs, such as the heart and kidney, and to decrease cardiovascular mortality and morbidity in patients with congestive heart failure. These drugs (especially angiotensin receptor blockers) may successfully prevent atrial fibrillation and play a protective role in metabolic syndrome. In some clinical settings, combined therapy angiotensin-converting enzyme inhibitors with angiotensin receptor blocker (double blockade of the renin-angiotensin- aldosterone system) may appear the most effective.
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PMID:On target to dual block RAS? 1914 53


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