Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0948265 (metabolic syndrome)
 24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The AT1 receptor mediates many biological effects of the renin angiotensin system such as vasoconstriction and cell proliferation. The expression level of the AT1 receptor is subjected to various pathophysiological influences. Insulin, which is elevated in the metabolic syndrome, induces a overexpression of vascular AT1 receptors leading to an enhanced biological efficacy of angiotensin II. This heterologous regulation of the AT1 receptor by insulin may explain the fact that the metabolic syndrome is frequently associated with hypertension and atherosclerosis.
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PMID:Interaction between insulin and AT1 receptor. Relevance for hypertension and arteriosclerosis. 983 76

Type 2 diabetes is a cardiovascular disease equivalent that is associated with accelerated atherosclerosis and significant mortality. However, the metabolic syndrome and prediabetes are associated with increased cardiovascular mortality, indicating that atherogenic vascular changes begin prior to the onset of overt diabetes. At the core of diabetes and the metabolic syndrome is insulin resistance (IR), which sets the stage for dyslipidemia, hypertension, and inflammation. Endothelial dysfunction is the first stage of the atherosclerosis process and results from exposure to cardiovascular risk factors, such as IR and diabetes. IR and atherosclerosis follow parallel paths as they progress in severity. Thiazolidinediones, angiotensin-converting enzyme inhibitors, angiotensin receptor-AT1 blockers, and statins are widely used in the treatment of diabetes. Emerging evidence indicates that these pharmacologic agents have added mechanisms of action, especially on the endothelium and in the prevention of diabetes.
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PMID:Insulin resistance and the endothelium. 1603 73

Telmisartan (Micardis, Pritor), a highly selective angiotensin II (AII) type 1 (AT1) receptor antagonist, is approved for the treatment of hypertension, either as monotherapy or in combination with other antihypertensive agents. The long elimination half-life of telmisartan ensures the drug provides effective reductions in blood pressure (BP) across the entire 24-hour dosage interval. Extensive evidence from well designed clinical trials and the clinical practice setting indicates that telmisartan, either as monotherapy or in combination with other antihypertensive agents, provides long-term antihypertensive efficacy and is well tolerated in a broad spectrum of hypertensive patients, including the elderly and those with coexisting type 2 diabetes mellitus, metabolic syndrome and/or renal impairment. Notably, BP control is sustained throughout the 24-hour dosage interval, including during the last 6 hours of this period. Independent of its effect on BP, telmisartan displays favourable effects on insulin resistance, lipid levels, left ventricular hypertrophy (LVH) and renal function. The consistent antihypertensive efficacy during the entire 24-hour dosage interval and sustained BP-lowering effect in the long term, combined with its favourable tolerability profile, mean that telmisartan is a valuable first-line treatment option for the management of essential hypertension.
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PMID:Telmisartan: a review of its use in the management of hypertension. 1639 68

The biological actions of angiotensin II (ANG), the most prominent hormone of the renin-angiotensin-aldosterone system (RAAS), may promote the development of atherosclerosis in many ways. ANG aggravates hypertension, metabolic syndrome, and endothelial dysfunction, and thereby constitutes a major risk factor for cardiovascular disease. The formation of atherosclerotic lesions involves local uptake, synthesis and oxidation of lipids, inflammation, as well as cellular migration and proliferation--mechanisms that may all be enhanced by ANG via its AT1 receptor. ANG may also increase the risk of acute thrombosis by destabilizing atherosclerotic plaques and enhancing the activity of thrombocytes and coagulation. After myocardial infarction, ANG promotes myocardial remodeling and fibrosis, and its many pathological mechanisms deteriorate the prognosis of these high-risk patients in particular. Therapeutically, inhibitors of the angiotensin I-converting enzyme (ACEI) and AT1 receptor blockers (ARB) are available to suppress the generation and cellular signaling of ANG, respectively. Despite major differences in the efficacy of ANG suppression and the modulation of other hormones and receptors, both classes of drugs are generally effective in attenuating numerous pathomechanisms of ANG in vitro, and in diminishing the development of atherosclerotic lesions and restenosis after angioplasty in various animal models. In clinical therapy, ACEI and ACE are well-tolerated antihypertensive drugs that also improve the prognosis of heart failure patients. After myocardial infarction and in stable coronary heart disease, ACEI have been shown to reduce mortality in a manner independent of hemodynamic alterations. However, there is little evidence that inhibitors of the RAAS may be effective against arterial restenosis, and a possible benefit of these substances compared to other antihypertensive drugs in the primary prevention of coronary heart disease in hypertensive patients is still a matter of debate, possibly depending on the specific substance and condition being investigated. As such, the general clinical efficacy of ACEI and ARB may be due to a positive influence on hemodynamic load, vascular function, myocardial remodeling, and neuro-humoral regulation, rather than to a direct attenuation of the atherosclerotic process. Further therapeutic advances may be achieved by identifying optimum drugs, patient populations, and treatment protocols.
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PMID:ACE inhibitors and angiotensin II receptor antagonists. 1659 9

During aging increases in body weight, insulin resistance, and elevated systolic pressure contribute to the development of metabolic syndrome. Long-term systemic blockade of the renin-angiotensin system (RAS) with either an angiotensin (Ang) II type 1 (AT1) receptor antagonist or angiotensin converting enzyme inhibitor improves insulin sensitivity and decreases risk of new onset (type II) diabetes. However, the role of the brain RAS in mediating development of insulin insensitivity during aging is not known. Therefore, we compared responses to an oral glucose load in transgenic rats with selective antisense suppression of brain angiotensinogen (ASrAogen); (mRen2)27 rats with high brain angiotensin II; and control Hannover Sprague-Dawley (SD) rats, at wk 16 and 68 of age. ASrAogen animals had lower body weight than either SD or (mRen2)27 rats at both ages (p < 0.001). The oral glucose tolerance test at 16 wk in (mRen2)27 animals revealed a higher glucose-insulin index (154,421 +/- 11,231 units; p < 0.05) and a lower glucose-insulin index in ASrAogen rats (41,580 +/- 10,923 units, p < 0.05) compared to SD rats (97,134 +/- 19,822 units), suggesting insulin resistance in the (mRen2)27 and enhanced insulin sensitivity in the ASrAogen relative to SD rats. At 68 wk, the glucose-insulin index remained low in the ASrAogen rats as evidence of maintained insulin sensitivity during aging compared with either SD or (mRen2)27 (p < 0.05). SD animals do not differ from (mRen2)27 rats at 68 wk indicating the development of a state of relative insulin resistance with increased age in the SD rats. Moreover, there was a positive correlation (r = 0.44; p < 0.05) between body weight and the glucose-insulin index in SD, but not ASrAogen or (mRen2)27 rats. The relationships between insulin and leptin, insulin and glucose, and leptin and body weight observed in SD rats were absent in ASrAogen and (mRen2)27 rats. We conclude that the glial RAS plays a role in development of insulin resistance as well as influencing weight gain associated with early aging.
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PMID:Rats with low brain angiotensinogen do not exhibit insulin resistance during early aging. 1732 75

This study analyzes the effects of losartan (AT1 blocker) and pioglitazone (insulin sensitizer), alone and in combination, in the fructose-overloaded rat, a model of metabolic syndrome. All treatments (nine weeks) reduced blood pressure and triglyceridemia and also restored the diminished release of vasodilator prostaglandins (prostacyclin in aorta and mesenteric vascular bed and prostaglandin E(2) in the latter). Pioglitazone, alone and in combination with losartan, reduced the release of the vasoconstrictor thromboxane in controls and fructose rats in both vascular preparations. In conclusion, although combination therapy and single treatments exerted similar effects, there may still be some advantage to the combined treatment.
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PMID:Pioglitazone and losartan modify hemodynamic and metabolic parameters and vascular prostanoids in fructose-overloaded rats. 1829 71

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

The metabolic syndrome considerably increases the risk of cardiovascular and renal events in hypertension. It has been associated with a wide range of classical and new cardiovascular risk factors as well as with early signs of subclinical cardiovascular and renal damage. Obesity and insulin resistance, beside a constellation of independent factors, which include molecules of hepatic, vascular, and immunologic origin with proinflammatory properties, have been implicated in the pathogenesis. The close relationships among the different components of the syndrome and their associated disturbances make it difficult to understand what the underlying causes and consequences are. At each of these key points, insulin resistance and obesity/proinflammatory molecules, interaction of demographics, lifestyle, genetic factors, and environmental fetal programming results in the final phenotype. High prevalence of end-organ damage and poor prognosis has been demonstrated in a large number of cross-sectional and a few number of prospective studies. The objective of treatment is both to reduce the high risk of a cardiovascular or a renal event and to prevent the much greater chance that metabolic syndrome patients have to develop type 2 diabetes or hypertension. Treatment consists in the opposition to the underlying mechanisms of the metabolic syndrome, adopting lifestyle interventions that effectively reduce visceral obesity with or without the use of drugs that oppose the development of insulin resistance or body weight gain. Treatment of the individual components of the syndrome is also necessary. Concerning blood pressure control, it should be based on lifestyle changes, diet, and physical exercise, which allows for weight reduction and improves muscular blood flow. When antihypertensive drugs are necessary, angiotensin-converting enzyme inhibitors, angiotensin II-AT1 receptor blockers, or even calcium channel blockers are preferable over diuretics and classical beta-blockers in monotherapy, if no compelling indications are present for its use. If a combination of drugs is required, low-dose diuretics can be used. A combination of thiazide diuretics and beta-blockers should be avoided.
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PMID:The metabolic syndrome in hypertension: European society of hypertension position statement. 1880 11

Essential hypertension is an insulin resistant state. Early insulin signaling steps are impaired in essential hypertension and a large body of data suggests that there is a crosstalk at multiple levels between the signal transduction pathways that mediate insulin and angiotensin II actions. At the extracellular level the angiotensin converting enzyme (ACE) regulates the synthesis of angiotensin II and bradykinin that is a powerful vasodilator. At early intracellular level angiotensin II acts on JAK-2/IRS1-IRS2/PI3-kinase, JNK and ERK to phosphorylate serine residues of key elements of insulin signaling pathway therefore inhibiting signaling by the insulin receptor. On another level angiotensin II inhibits the insulin signaling inducing the regulatory protein SOCS 3. Angiotensin II acting through the AT1 receptor can inhibit insulin-induced nitric oxide (NO) production by activating ERK 1/2 and JNK and enhances the activity of NADPH oxidase that leads to an increased reactive oxygen species generation. From the clinical standpoint, the inhibition of the renin angiotensin system improves insulin sensitivity and decreases the incidence of Type 2 Diabetes Mellitus (T2DM). This might represent an alternative approach to prevent type 2 diabetes in patients with hypertension and metabolic syndrome, (i.e. insulin resistant patients). This review will discuss: a) the molecular mechanisms of the crosstalk between the insulin and angiotensin II signaling systems b) the results of clinical studies employing drugs targeting the renin-angiotensin II-aldosterone systems and their role in glucose metabolism and diabetes prevention.
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PMID:The crosstalk between insulin and renin-angiotensin-aldosterone signaling systems and its effect on glucose metabolism and diabetes prevention. 1885 18

Hypertension in metabolic syndrome is common. Basic principles of therapeutic approach like decrease of body weight are discussed. Goal blood pressure levels are < or = 130/80mm Hg. ACE-inhibitors/AT1-blockers are considered drugs of choice. In most cases it is necessary to combine at least two drugs. Preferred combination is ACE-inhibitor/AT1-blocker + calcium channel blocker.
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PMID:[Treatment of hypertension in metabolic syndrome]. 1973 67


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