UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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Angiotensin II (AII) acts by 2 types of receptors: the ATI receptor which mediates its actions on vasoconstriction, renin (inhibition) and aldosterone (stimulation) secretions, cellular proliferation and angiogenesis and the non-AT1 (often called AT2) receptors. Mainly expressed in the embryon these latter may favor cellular differentiation and recruitment of collateral circulation. Angiotensin converting enzyme inhibitors (ACEI) decrease the synthesis of All and therefore the stimulation of both receptor types whereas AT1-receptor antagonists (AT1RA) block only the stimulation of these latter and increase the stimulation of AT2 receptor since they increase the production of All secondarily to the inhibition of the feedback of renin secretion by All. Experimentally ACEI and AT1RA decrease angiogenesis and cellular proliferation and favor cellular differentiation which could explain the protective effect of ACEI against cancer suggested recently in a Scotish study. Despite of their common suppressive effect on angiogenesis AT1RA may better than ACEI protect against ischemic events specially the cerebral ones because they favor the rapid recruitment of collateral circulation. This has been demonstrated for losartan in case of abrupt ligation of the carotid in the gerbil since its previous administration protects against fatal cerebral ischemia whereas its previous administration with enalapril abolishes this protection. These data may explain why, in the CAPP trial, captopril which has prevented more effectively diabetes occurrence could not be proved superior to diuretics and/or betablocker in the prevention of myocardial infarction and specially of strokes for which exist on the contrary a suspicion of a lower protection. Therefore a comparative trial between AT1RA and ACEI in the prevention of stroke recurrence should appear as a priority for Public Health and Pharmaceutical Industry Authorities.
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PMID:[Duality of angiotensin II receptors and risk for stroke and cancer: what is the connection?]. 1036 Jan 91

Due to its hemodynamic, metabolic and growth promoting effects, angiotensin II (AII) may play an important role in the pathogenesis of diabetic kidney disease. Consequently, decreasing the production or cellular action of AII is a rational target for therapeutic attempts aimed at slowing the progression of diabetic nephropathy. Based on their superior renoprotective performance in recent landmark studies, currently ACE inhibitors are the drugs of choice in diabetic patients with microalbuminuria or overt proteinuria. A new class of antihypertensive medications, the AT1 receptor antagonists may represent an alternative to ACE inhibitors in the treatment of diabetic nephropathy. They provide a more complete blockade of the renal renin-angiotensin system and are generally better tolerated than ACE inhibitors. On the other hand, AT1 receptor antagonists do not increase bradykinin levels, an effect that may contribute to the high level of renoprotection achieved by ACE inhibitors. Although human data are not available at this point, ACE inhibitors and AT1 receptor antagonists have similar beneficial effects on proteinuria, renal hypertrophy and glomerulosclerosis in animal models of diabetic kidney disease. Currently several prospective studies are being conducted to compare the efficacy of ACE inhibitors and AT1 receptor antagonists in the treatment of human diabetic nephropathy.
Diabetes Metab Res Rev
PMID:AT1 receptor antagonists: a challenge for ACE inhibitors in diabetic nephropathy. 1039 47

A lot of evidence points to the important role of the renin-angiotensin system in the physiopathology of hypertension and the progression of chronic renal failure. In this review, the authors report the data concerning the protective effects of antagonists of angiotensin II AT1 receptors (AT1ra). The AT1 ra have been shown to have beneficial effects in most experimental models of nephropathy in which they have been tested (renal ischaemia, essential or induced hypertension, glomerulonephritis, 5/6 nephrectomy, renal transplantation, induced diabetes, toxic and radiotherapy-induced nephropathy). Clinical trials confirm these beneficial effects. In healthy subjects and hypertensive patients, the AT1 ra have identical effects to those of angiotensin converting enzyme (ACE) inhibitors on renal haemodynamics. In hypertensives, Candesartan and Irbesartan increase renal blood flow and the glomerular filtration rate and decrease the filtration fraction. Two studies have also shown that Candesartan and Irbesartan reduce proteinuria in diabetic patients. Similar results have been reported in essential hypertension with renal failure. These data suggest that AT1 ra have beneficial effects on the progression of experimental kidney disease and on proteinuria in the clinical setting. Of the pharmacological agents available for use in this class, it is essential to propose molecules whose efficacy in antagonising the effects of angiotensin II lasts throughout the 24 hour period. Clinical trials are under way to evaluate the effects of AT1 ra on renal function in man over a long period.
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PMID:[Are the antagonists of angiotensin II AT1 receptors protectors of the kidney?]. 1044 11

To determine whether myocyte death and angiotensin II (AT II) formation are implicated in the development of diabetic cardiomyopathy, rats were injected with streptozotocin, and apoptosis and necrosis were measured at 3, 10, and 28 days. Expression of the components of the renin-angiotensin system (RAS) and AT II levels were assessed at 3 days. The percentage of AT II-labeled myocytes and the number and distribution of AT II sites in myocytes were measured at 3 and 10 days. The effects of AT1 blockade on local RAS and cell death were examined at 3 days. Diabetes was characterized by myocyte apoptosis that peaked at 3 days and decreased at 10 and 28 days, in spite of high concentrations of blood glucose. Cell necrosis was absent throughout. Angiotensinogen, renin, and AT1 receptor increased in myocytes from diabetic rat hearts, while angiotensin-converting enzyme and AT2 remained constant. AT II quantity increased severalfold, as did the fraction of AT II positive cells and the number of AT II sites per myocyte. However, AT II labeling decreased at 10 days, which paralleled the reduction in myocyte death. AT1 antagonist inhibited upregulation of this receptor and angiotensinogen, which prevented AT II synthesis and myocyte death at their peaks with diabetes. An aggregate 30% myocyte loss and a 14% increase in the volume of viable cells were found in diabetic rats at 28 days. Thus diabetic cardiomyopathy may be viewed as an AT II-dependent process in which that peptide plays a critical role in myocyte death and hypertrophy.
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PMID:Myocyte death in streptozotocin-induced diabetes in rats in angiotensin II- dependent. 1078 Jun 68

Angiotensin II receptor blockers (ARBs) represent a new class of effective and well tolerated orally active antihypertensive agents. Recent clinical trials have shown the added benefits of ARBs in hypertensive patients (reduction in left ventricular hypertrophy, improvement in diastolic function, decrease in ventricular arrhythmias, reduction in microalbuminuria, and improvement in renal function), and cardioprotective effect in patients with heart failure. Several large long-term studies are in progress to assess the beneficial effects of ARBs on cardiac hypertrophy, renal function, and cardiovascular and cerebrovascular morbidity and mortality in hypertensive patients with or without diabetes mellitus, and the value of these drugs in patients with heart disease and diabetic nephropathy. The ARBs specifically block the interaction of angiotensin II at the AT1 receptor, thereby relaxing smooth muscle, increasing salt and water excretion, reducing plasma volume, and decreasing cellular hypertrophy. These agents exert their blood pressure-lowering effect mainly by reducing peripheral vascular resistance usually without a rise in heart rate. Most of the commercially available ARBs control blood pressure for 24 h after once daily dosing. Sustained efficacy of blood pressure control, without any evidence of tachyphylaxis, has been demonstrated after long-term administration (3 years) of some of the ARBs. The efficacy of ARBs is similar to that of thiazide diuretics, beta-blockers, angiotensin-converting enzyme inhibitors or calcium channel blockers in patients with similar degree of hypertension. Higher daily doses, dietary salt restriction, and concomitant diuretic or ACE inhibitor administration amplify the antihypertensive effect of ARBs. The ARBs have a low incidence of adverse effects (headache, upper respiratory infection, back pain, muscle cramps, fatigue and dizziness), even in the elderly patients. After the approval of losartan, five other ARBs (candesartan cilexetil, eprosartan, irbesartan, telmisartan, and valsartan) and three combinations with hydrochlorothiazide (irbesartan, losartan and valsartan) have been approved as antihypertensive agents, and some 28 compounds are in various stages of development. The ARBs are non-peptide compounds with varied structures; some (candesartan, losartan, irbesartan, and valsartan) have a common tetrazolo-biphenyl structure. Except for irbesartan, all active ARBs have a carboxylic acid group. Candesartan cilexetil is a prodrug, while losartan has a metabolite (EXP3174) which is more active than the parent drug. No other metabolites of ARBs contribute significantly to the antihypertensive effect. The variation in the molecular structure of the ARBs results in differences in the binding affinity to the receptor and pharmacokinetic profiles. The differences observed in lipid solubility, absorption/distribution, plasma protein binding, bioavailability, biotransformation, plasma half-life, and systemic elimination influence the time of onset, duration of action, and efficacy of the ARBs. On the basis of the daily mg dose, the antihypertensive potency of the ARBs follows the sequence: candesartan cilexetil > telmisartan approximately = losartan > irbesartan approximately = valsartan > eprosartan. After oral administration, the ARBs are rapidly absorbed (time for peak plasma levels = 0.5-4 h) but they have a wide range of bioavailability (from a low of 13% for eprosartan to a high of 60-80% for irbesartan); food does not influence the bioavailability, except for valsartan (a reduction of 40-50%) and eprosartan (increase). A limited dose-peak plasma levels/areas under the plasma level-time curve proportionality is observed for some of the ARBs. Most of these drugs have high plasma protein binding (95-100%); irbesartan has the lowest binding among the group (90%). The steady-state volumes of distribution vary from a low of 9 L (candesartan) to a high of 500 L (telmisartan). (ABSTRACT TRUNCATE
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PMID:Clinical pharmacokinetics of angiotensin II (AT1) receptor blockers in hypertension. 1085 85

Diabetic nephropathy is a serious microangiopathic late complication of diabetes and is one of the most frequent causes of premature death of diabetic subjects. The main task of diabetologists and nephrologists in these patients is an attempt to arrest or at least delay progression of nephropathy. As to therapeutic possibilities, antihypertensive drugs are most suitable, i.e. angiotensin converting enzyme inhibitors, Ca blockers of the IInd generation and also blockers of AT1 receptors.
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PMID:[Antihypertensives and their importance in the initial stages of diabetic nephropathy]. 1095 59

Angiotensin II (ANG II) has multiple effects on cardiovascular and renal cells, including vasoconstriction, cell growth, induction of proinflammatory cytokines, and profibrogenic actions. Recent studies provide evidence that ANG II could stimulate intracellular formation of reactive oxygen species (ROS) such as the superoxide anion (O2-). This ANG II-mediated ROS formation exhibits different kinetic and lower absolute concentrations than those traditionally observed during the respiratory burst of phagocytic cells, but it likely involves similar membrane-bound NAD(P)H-oxidases. Current evidence suggests that ANG II, through AT1-receptor activation, upregulates several subunits of this multienzyme complex, resulting in an increase in intracellular O2- concentration. ROS are involved in several signal pathways, and redox-sensitive transcriptional factors (AP-1, NF-kappaB) have been characterized. ANG II-induced ROS play a pivotal role in several pathophysiologic situations of vascular and renal cells such as hypertension, endothelial dysfunction, nitrate tolerance, atherosclerosis, and cellular remodeling. Although these perceptions suggest that drugs interfering with ANG II effects (ACE inhibitors, AT1 -receptor antagonist) may serve as antioxidants, preventing vascular and renal changes, the clinical studies are not so straightforward. In fact, only specific risk groups, such as patients with diabetes mellitus or renal insufficiency, may benefit from ACE inhibitors, whereas hard endpoints showed no advantage for ACE inhibitors in patients with essential hypertension.
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PMID:Free radical production and angiotensin. 1098 Nov 45

Epidemiological evidence suggests that reducing blood pressure alone in hypertensive patients delays the onset of cardiovascular events without necessarily preventing the progression of chronic target-organ disease, such as end-stage renal failure and heart failure. Successful clinical management of hypertensive patients will therefore not be possible unless therapies are aimed both at the effective control of blood pressure and at the preservation of target-organ function. The new angiotensin II type I (AT1) receptor blocker candesartan cilexetil has been shown to be effective in reducing target-organ damage in animal models of hypertension, even at doses that do not produce significant reductions in blood pressure. Protective effects of candesartan cilexetil towards the heart and kidney have also been demonstrated in the clinical studies that have been conducted to date. Thus, candesartan cilexetil has been shown to induce regression of left ventricular hypertrophy within 8-12 weeks of treatment and to improve renal haemodynamics, both acutely and after 6 weeks of treatment in hypertensive patients. Furthermore, in hypertensive patients with co-existent non-insulin-dependent diabetes mellitus and microalbuminuria, 12 weeks of treatment with candesartan cilexetil, 8-16 mg, significantly reduced urinary albumin excretion. Clinical evidence is therefore accumulating that the antihypertensive efficacy and tolerability profile already established for candesartan cilexetil is combined with the renal and cardioprotective effects necessary for optimal management of hypertension.
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PMID:Preserving target-organ function with candesartan cilexetil in patients with hypertension. 1105 35

National and international societies have issued guidelines on the management of heart failure: The European Society of Cardiology, WHO, ACC/AHA Task Force Report, US Department of Health and Human Services, German Society of Cardiology. The therapeutic approaches to heart failure have undergone considerable changes during the last few years. The guidelines have to be updated almost yearly due to new results from prospective randomized studies. Although an agreement could be reached with respect to general measures and drug treatment, no agreement on mechanical devices, pacemakers and surgical interventions has been reached. The basis for medical treatment of chronic heart failure depends on diuretics, digitalis, ACE inhibitors, and beta-blockers. Calcium antagonists and other positive inotropic drugs, other than digitalis, should be avoided as far as possible. Thiazides, loop diuretics and aldosterone antagonists are needed for acute and chronic treatment of heart failure, alone or in combination (diuretic resistant heart failure!). Digitalis glycosides are needed in patients with atrial fibrillation with a fast ventricular rate or atrial flutter and in patients with systolic dysfunction, large hearts and symptomatic failure class NYHA III and IV. However, digitalis does not convert atrial fibrillation to sinus rhythm. Today there is no question that ACE inhibitors improve the prognosis of all patients with heart failure in all stages, if ejection fraction is reduced. Therefore, most patients after myocardial infarction or after having experienced pump failure due to myocarditis or cardiomyopathy are treated with ACE inhibitors and diuretics. The beneficial effects of ACE inhibitors seem to be most pronounced the worse the situation is. Relative risk reductions (mortality!) between 10% and 40% have been published depending on the severity of symptomatic left ventricular dysfunction. Those patients with high absolute risk have more to gain than those with low risk for any given "risk reduction", of course. Recent studies also indicate that most high risk cardiac patients profit from ACE inhibitors even if pump function is normal (i.e., patients with coronary heart disease, diabetes mellitus, cerebral vascular disease, hypertension) (15). AT1 antagonists can substitute for ACE inhibitors, if the latter are not tolerated due to cough. Up to now, beta-blocking agents apart from diuretics seem to be the best investigated drugs in heart failure. Large controlled studies with bisoprolol, carvedilol and metoprolol in addition to diuretics, digitalis and ACE inhibitors convincingly yielded positive results in chronic left ventricular failure patients. Reduction of mortality by 35% and even of sudden cardiac deaths by 40% have been proven beyond doubt. Thus, heart failure patients today should also receive beta-blocking agents in all stages of the disease. In the era of controlled prospective studies (evidence-based medicine), physicians are well advised to use only drugs that have been proven beneficial in large controlled studies.
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PMID:The management of heart failure--an overview. 1119 49

The interaction of ANG II with intrarenal AT1 receptors has been implicated in the progression of diabetic nephropathy, but the role of intrarenal AT2 receptors is unknown. The present studies determined the effect of early diabetes on components of the glomerular renin-angiotensin system and on expression of kidney AT2 receptors. Three groups of rats were studied after 2 wk: 1) control (C), 2) streptozotocin (STZ)-induced diabetic (D), and 3) STZ-induced diabetic with insulin implant (D+I), to maintain normoglycemia. By competitive RT-PCR, early diabetes had no significant effect on glomerular mRNA expression for renin, angiotensinogen, or angiotensin-converting enzyme (ACE). In isolated glomeruli, nonglycosylated (41-kDa) AT1 receptor protein expression (AT1A and AT1B) was increased in D rats, with no change in glycosylated (53-kDa) AT1 receptor protein or in AT1 receptor mRNA. By contrast, STZ diabetes caused a significant decrease in glomerular AT2 receptor protein expression (47.0 +/- 6.5% of C; P < 0.001; n = 6), with partial reversal in D+I rats. In normal rat kidney, AT2 receptor immunostaining was localized to glomerular endothelial cells and tubular epithelial cells in the cortex, interstitial, and tubular cells in the outer medulla, and inner medullary collecting duct cells. STZ diabetes caused a significant decrease in AT2 receptor immunostaining in all kidney regions, an effect partially reversed in D+I rats. In summary, early diabetes has no effect on glomerular mRNA expression for renin, angiotensinogen, or ACE. AT2 receptors are present in glomeruli and are downregulated in early diabetes, as are all kidney AT2 receptors. Our data suggest that alterations in the balance of kidney AT1 and AT2 receptor expression may contribute to ANG II-mediated glomerular injury in progressive diabetic nephropathy.
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PMID:Early streptozotocin-diabetes mellitus downregulates rat kidney AT2 receptors. 1120 1

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