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Microalbuminuria (MA), conventionally defined as a urinary albumin excretion (UAE) of 30-300 mg/day, is recognised as a marker of endothelial dysfunction. Furthermore, it represents an established risk factor for cardiovascular morbidity and mortality and for end-stage renal disease in individuals with an adverse cardiovascular risk profile. It is common in the general population, particularly in patients with diabetes mellitus or arterial hypertension. There is growing evidence from prospective observational trials that UAE levels well below the current MA threshold ("lowgrade MA") are also associated with an increased risk of incident cardiovascular disease and allcause mortality. Even in apparently healthy individuals (without diabetes or hypertension), such an association has been shown. As albuminuria screening assays that are reliable even in the lower ranges are commercially available, there may be an important clinical role for MA in disease screening, comparable to the role of blood pressure and lipid screening. MA is modifiable, and the inhibition of the renin-angiotensin system by ACE inhibitors and AT1 receptor antagonists has been shown to result in a lower incidence of cardiovascular events.
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PMID:Low-grade albuminuria and cardiovascular risk : what is the evidence? 1745 40

The renin-angiotensin-aldosterone system (RAAS) plays an important part in the pathogenesis of arterial hypertension and the complications it causes in organs (the heart, the circulatory system, the brain, the kidneys), heart failure and kidney diseases. Materials that block the most upstream point of the RAAS cascade (ACE inhibitors - ACEI, AT1,-receptor (AT1R) blockers, aldosterone receptor blockers) have greatly expanded our options in the treatment and primary and secondary prevention of cardiovascular and renal diseases. ACEI and AT1R blockers interrupt the normal feedback provided by the release of renin into the circulatory system from the kidneys. After they are applied the reactive increase in active circulating renin leads to increased creation of angiotensin I and angiotensin II and the subsequent return of aldosterone secretions to pre-treatment values ("escape" phenomenon). The possible negative effect of these intermediary products of an incomplete blockade of RAAS on organ complications lead to an effort to develop a material that could block the renin-angiotensin cascade at its first stage--i.e. a renin blocker. The first efforts with renin antibodies or peptide analogues of renin prosegments failed to satisify the basic requirements for long-term medication--effectiveness when used orally. In recent years the first non-peptidic, oral renin ihibitor providing sustained effects has been developed, aliskiren fumarate. Aliskiren reduces BP depending on the dose (50-300 mg/day) in monotherapy or in combination with hydrochlorothiazide. Aliskiren lowers plasma renin activity (PRA) and neutralises the activation of the RAAS triggered by hydrochlorothiazide. Ambulatory BP monitoring has shown that taking the medicine once a day has a 24-hour effect and its continued residence in the kidneys suggests renoprotective effects. The compound is in the third stage of clinical tests as a monotherapy or in combination for the treatment of hypertension. It has also been shown to have an influence on the regression of cardiac hypertrophy (Aliskiren in Left-Ventricular Hypertrophy trial - ALLAY), the treatment of heart failure (Aliskiren Observation of Heart Failure Treatment trial - ALOFT) and diabetic (Aliskiren in the Evaluation of Proteinuria in Diabetes trial - AVOID). In April 206, the FDA permitted the use of aliskiren in the USA for the treatment of high BP and it is currently undergoing testing in Europe. The renin inhibitor has minimal undesirable side effects, like AT1-receptor blockers. The slightly lower effectiveness ofaliskiren than AT1-receptor blockers in reducing BP is caused by the fact that it does not block bradykinins. It is recommended as a monotherapy for clinical use or in combination with other antihypertensive medicines for conditions with high levels of PRA including its rise after diuretics, ACEI and AT1-receptor blockers. Aliskiren could therefore be used primarily with young patients, Caucasians, persons with ACEI intolerance, and also in diseases where angiotensin II is involved in the pathogenesis and the secondary prevention of cardiovascular disease. It is also safe for persons with concurrent renal problems, because it is mainly removed by the liver without great interference with other materials. Like ACEI, the renin inhibitor has a vasodilatory effect which could potentially improve the elasticity of arteries. The medicine has the same limitations and contraindications as ACEI and AT1R blockers, such as pregnancy and bilateral renal artery stenosis. A definitive assessment of the benefit of this new class of medicines and its broad application in the treatment of cardiovascular and other diseases will require demonstration of its long-term effect on morbidity and mortality, as well as comparison with other RAAS blockers in long clinical studies, which represent research programmes lasting another 7 to 8 years.
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PMID:[Does the rennin inhibitor aliskiren offer promising novel opportunities in the treatment of cardiovascular diseases?]. 1757 67

The metabolic syndrome (MS) is a common risk factor for cardiovascular disease and type-2 diabetes. Recently, telmisartan, an angiotensin II receptor antagonist that has an antihypertensive effect, has been reported to be a partial peroxisome proliferator-activated receptor gamma (PPARgamma) agonist. The anti-diabetic hormone adiponectin has been recognized as a marker of in vivo PPARgamma activation. Therefore, we studied telmisartan's effect on the metabolic profile and adiponectin levels in a fructose-induced hypertensive, hyperinsulinemic, hyperlipidemic rat model. Twenty-four male Sprague-Dawley rats were divided into three groups (eight in each). One group of control rats was fed standard chow for 5 weeks while a second was fed a fructose-enriched diet. A third group was fed a fructose-enriched diet for 5 weeks and treated with telmisartan 5 mg/kg/day during the last 2 weeks. Fructose feeding increased systolic blood pressure (mean+/-SEM), from 130+/-1 to 148+/-2 mmHg, insulin from 0.26+/-0.03 to 0.68+/-0.08 ng/mL, and triglycerides from 102+/-6 to 285+/-23 mg/dL (p<0.05 for all variables). Telmisartan treatment reversed these effects and reduced blood pressure to 125+/-2 mmHg, insulin levels to 0.41+/-0.07 ng/mL, and triglycerides to 146+/-18 mg/dL (p<0.05 for all variables), while attenuating the increase in body weight during weeks 3 to 5. In contrast, telmisartan did not affect plasma adiponectin levels. In conclusion, although telmisartan is considered a partial PPARgamma agonist, its beneficial effect in the fructose-induced hypertension, hypertriglyceridemia, and hyperinsulinemia rat model is apparently not mediated by adiponectin elevation but rather by direct inhibition of AT1 receptor.
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PMID:Effect of telmisartan, angiotensin II receptor antagonist, on metabolic profile in fructose-induced hypertensive, hyperinsulinemic, hyperlipidemic rats. 1836 28

Hypertension is the most common risk factor for cardiovascular disease, constituting the most common cause of death in industrialized countries. Therefore, the task of blood pressure reduction has significant importance in reducing vascular damage, myocardial infarctions, kidney damage and incidence of cerebrovascular accidents. The renin-angiotensin-aldosterone system (RAAS) plays a central role in control and function of the cardiovascular and renal systems, and is deeply involved in the pathophysiology of diseases of vasculature, heart, kidneys and others. Therefore, blockade of RAAS by angiotensin converting enzyme (ACE) inhibitors and blockers of angiotensin II type AT1 receptors (ARBs) is widely utilized by clinicians. Indeed, it has long been known that ACE inhibitors and ARBs protect different targets of angiotensin II, due to impedance of the negative effects of the hormone and the inhibition of aldosterone production, which contributes both directly and indirectly to the damages, independent of angiotensin II. Despite this, the morbidity and mortality resulting from the progression of cardiovascular diseases in patients treated with ACE inhibitors or ARBs remain high. As such, over the years, much effort has been dedicated to the development of direct inhibitors of renin. The earliest renin inhibitors, developed 30 years ago were not effective due to their protein nature, which prevents their oral administration and limited their clinical use. In the last decade, several non-protein renin inhibitors which could be given orally were developed, of which Aliskiren is the most well known representative. Due to the fact that neutralization of the RAAS by ACE inhibitors and ARBs has been reviewed at length many times, this review will focus on the renewed subject of renin inhibition. The earliest research, both in humans as well as in animal models, show that Aliskiren has therapeutic potential in treatment of patients with hypertension, cardiovascular disease and renal disease. However, the efficacy of Aliskiren in treating systolic and diastolic hypertension in patients was not better than that obtained using ACE inhibitors or ARBs. Even so, there is no need to lower levels of optimism for potential therapy using direct inhibitors of renin. Current research is still in its early stages and there is a need to remember that it took many years to prove the clinical usefulness of ACE inhibitors, which are now central to treatment of cardiovascular and renal diseases, including hypertension.
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PMID:[Oral inhibitors of renin and their potential use as therapeutic agents in treating hypertension]. 1869 32

New components and functions of the renin-angiotensin system (RAS) are still being unravelled. The classical RAS as it looked in the middle 1970s consisted of circulating renin, acting on angiotensinogen to produce angiotensin I, which in turn was converted into angiotensin II (Ang II) by angiotensin-converting enzyme (ACE). Ang II, still considered the main effector of RAS was believed to act only as a circulating hormone via angiotensin receptors, AT1 and AT2. Since then, an expanded view of RAS has gradually emerged. Local tissue RAS systems have been identified in most organs. Recently, evidence for an intracellular RAS has been reported. The new expanded view of RAS therefore covers both endocrine, paracrine and intracrine functions. Other peptides of RAS have been shown to have biological actions; angiotensin 2-8 heptapeptide (Ang III) has actions similar to those of Ang II. Further, the angiotensin 3-8 hexapeptide (Ang IV) exerts its actions via insulin-regulated amino peptidase receptors. Finally, angiotensin 1-7 (Ang 1-7) acts via mas receptors. The discovery of another ACE2 was an important complement to this picture. The recent discovery of renin receptors has made our view of RAS unexpectedly complex and multilayered. The importance of RAS in cardiovascular disease has been demonstrated by the clinical benefits of ACE inhibitors and AT1 receptor blockers. Great expectations are now generated by the introduction of renin inhibitors. Indeed, RAS regulates much more and diverse physiological functions than previously believed.
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PMID:Renin-angiotensin system revisited. 1920 73

Extracellular signal-regulated kinase 5 (ERK5), a recently discovered mitogen-activated protein kinase (MAPK), plays a key role in the development and pathogenesis of cardiovascular disease. In order to clarify the pathophysiological significance of ERK5 in vascular remodeling, we investigated ERK5 phosphorylation in hypertrophy of human aortic smooth muscle cells (HASMCs) induced by angiotensin II (Ang II). The AT1 receptor was involved in Ang II-induced ERK5 activity. Hypertrophy was detected by the measurement of protein synthesis with [(3)H]-Leu incorporation in cultured HASMCs. Ang II rapidly induced phosphorylation of ERK5 at Thr218/Tyr220 residues in a time- and dose-dependent manner. Activation of myocyte enhancer factor-2C (MEF2C) by ERK5 was inhibited by PD98059. Transfecting HASMCs with small interfering RNA (siRNA) to silence ERK5 inhibited Ang II-induced cell hypertrophy. Thus, ERK5 phosphorylation contributes to MEF2C activation and subsequent HASMC hypertrophy induced by Ang II, for a novel molecular mechanism in cardiovascular diseases induced by Ang II.
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PMID:Activation of ERK5 in angiotensin II-induced hypertrophy of human aortic smooth muscle cells. 1901 54

The adaptive immune response and, in particular, T cells have been shown to be important in the genesis of hypertension. In the present study, we sought to determine how the interplay between ANG II, NADPH oxidase, and reactive oxygen species modulates T cell activation and ultimately causes hypertension. We determined that T cells express angiotensinogen, the angiotensin I-converting enzyme, and renin and produce physiological levels of ANG II. AT1 receptors were primarily expressed intracellularly, and endogenously produced ANG II increased T-cell activation, expression of tissue homing markers, and production of the cytokine TNF-alpha. Inhibition of T-cell ACE reduced TNF-alpha production, indicating endogenously produced ANG II has a regulatory role in this process. Studies with specific antagonists and T cells from AT1R and AT2R-deficient mice indicated that both receptor subtypes contribute to TNF-alpha production. We found that superoxide was a critical mediator of T-cell TNF-alpha production, as this was significantly inhibited by polyethylene glycol (PEG)-SOD, but not PEG-catalase. Thus, T cells contain an endogenous renin-angiotensin system that modulates T-cell function, NADPH oxidase activity, and production of superoxide that, in turn, modulates TNF-alpha production. These findings contribute to our understanding of how ANG II and T cells enhance inflammation in cardiovascular disease.
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PMID:Regulation of T-cell function by endogenously produced angiotensin II. 1907 7

The insulin resistance syndrome (INSR) is associated with increased cardiovascular risk, and affects up to 25% of the Australian population aged >20 years. Increased arterial stiffness has been proposed as a common pathway by which INSR leads to increased cardiovascular risk. We have reviewed the role of nitric oxide (NO) and angiotensin II receptors in the modulation of arterial stiffness in the setting of insulin resistance. There is emerging evidence that early stages of INSR may be characterized by increased basal nitric oxide activity and increased activity of non-NO vasodilators such as endothelial derived hyperpolarization factor (EDHF) which is manifest by reduced arterial stiffness. Depletion of NO or ineffectiveness of NO mediated vasodilator mechanisms associated with the progression of INSR to type 2 diabetes may result in increased arterial stiffness, which predicts the development of cardiovascular disease. Thus in the early stages of INSR, increased NO and EDHF activity may represent compensatory mechanisms to early vascular damage. The renin-angiotensin system is activated in diseased vascular beds, with up regulation of the two known angiotensin II receptors: the angiotensin II type 1 receptor (AT1R) and the angiotensin II type 2 receptor (AT2R). Increased AT1R mediated activity in the vasculature is central to the development of increased arterial stiffness and is enhanced in INSR states. AT2R activity is increased in early in INSR and may contribute to the apparent increase in basal NO activity. AT1R blockade may therefore be valuable treatment for early INSR as antagonism of AT1 receptors would allow angiotensin II to act unopposed at AT2 receptors.
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PMID:Arterial stiffness in insulin resistance: the role of nitric oxide and angiotensin II receptors. 1943 51

Dendritic cells (DCs) and renin-angiotensin system (RAS) have both been reported to contribute to the pathogenesis of atherosclerosis. Recently researches find the RAS expression on DCs and its effect on DCs' differentiation and proinflammatory function. The pattern of RAS expression on DCs derived from normal monocytes vs that on DCs derived from cornoary artery diease was investigated. In 82 coronary artery disease (CAD) patients and healthy controls (CTL), expressions of angiotensin I-converting enzyme (ACE), angiotensin AT1 receptor and DC-specific ICAM-3-grabbing nonintegrin (DC-SIGN) on DCs were measured by western-blot: CAD patients had an increased expression of ACE, AT1 receptor and DC-SIGN compared to controls especially in acute myocardial infarction (AMI). Cardiovascular risk factors of cardiovascular disease and circulating anigotensin II (Ang II) were assessed and found increased in AMI compared with CTL. The DC-SIGN and high-sensitivity C-reactive protein (hsCRP) also had significant correlations with RAS expression on DCs. Our research demonstrated the RAS expressions on DCs and their increase in CAD especially AMI. The RAS activation on DCs may cause a series of changes such as enhancing recruitment of DCs, activating the T cells and increasing their proinflammtory functions. The recruitment and T cells contact ability of DCs increases through DC-SIGN may be one of pathogenesis of atherosclerosis and this function may promoted by tissue RAS. CRP may also have some effect to the local RAS exprssion on DCs.
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PMID:Expression of renin-angiotensin system on dendritic cells of patients with coronary artery disease. 1966 95

Dysregulation of the renin-angiotensin II (AngII)-aldosterone system can contribute to cardiovascular disease, such that an understanding of this system is critical. Diacylglycerol-sensitive serine/threonine protein kinase D (PKD) is activated by AngII in several systems, including the human adrenocortical carcinoma cell line NCI H295R, where this enzyme enhances chronic (24h) AngII-evoked aldosterone secretion. However, the role of PKD in acute AngII-elicited aldosterone secretion has not been previously examined. In primary cultures of bovine adrenal glomerulosa cells, which secrete detectable quantities of aldosterone in response to secretagogues within minutes, PKD was activated in response to AngII, but not an elevated potassium concentration or adrenocorticotrophic hormone. This activation was time- and dose-dependent and occurred through the AT1, but not the AT2, receptor. Adenovirus-mediated overexpression of constitutively active PKD resulted in enhanced AngII-induced aldosterone secretion; whereas overexpression of a dominant-negative PKD construct decreased AngII-stimulated aldosterone secretion. Thus, we demonstrate for the first time that PKD mediates acute AngII-induced aldosterone secretion.
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PMID:Angiotensin II-activated protein kinase D mediates acute aldosterone secretion. 1996 96


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