Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011881 (diabetic nephropathy)
10,836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We explored the relative roles of the suppression of angiotensin II and the prevention of bradykinin degradation in mediating the renoprotective effects of ACE inhibitors in experimental diabetic nephropathy. Over a 24-week period, we studied male Sprague-Dawley diabetic and control rats and Sprague-Dawley diabetic rats treated with the ACE inhibitor ramipril, the angiotensin II-AT1 receptor antagonist valsartan, the bradykinin-B2 receptor antagonist HOE 140 (icatibant), and a combination of ramipril and icatibant. Serial measurements of urinary albumin excretion, blood pressure, and glycated hemoglobin were performed monthly. After 6 months, the animals were killed for the measurement of kidney weight and the assessment of glomerular ultrastructure. Over 24 weeks, urinary albumin excretion showed a continuous rise in the untreated diabetic rats. Both ramipril and valsartan, which were equihypotensive, prevented the increase in urinary albumin excretion over the whole study period. Icatibant therapy did not attenuate the antialbuminuric effect of the ACE inhibitor, nor did it have any effect as the sole therapy. Diabetes was associated with increased glomerular basement membrane thickness, glomerular volume, and total mesangial volume. Both ACE inhibition and angiotensin II receptor antagonism attenuated the glomerular ultrastructural changes to a similar degree. Icatibant did not attenuate the effects of ramipril on glomerular morphology. ACE inhibitors and angiotensin II-AT1 receptor blockers appear to confer similar benefits in experimental diabetic nephropathy, and bradykinin-B2 receptor blockers do not influence this effect. These findings suggest that the blockade of angiotensin II is the major pathway responsible for renoprotection afforded by ACE inhibition in experimental diabetic nephropathy.
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PMID:Role of angiotensin II and bradykinin in experimental diabetic nephropathy. Functional and structural studies. 931 58

Diabetic nephropathy is the most common cause of end-stage renal disease (ESRD) in the United States, and accounts for 35% of all the patients with ESRD entering a dialysis program; 63% of patients with diabetic nephropathy have type II diabetes mellitus. Hypertension is a major risk factor for renal disease and is common in people with diabetes mellitus. Strategies for preventing the progression of renal failure in patients with diabetes mellitus include glycemic control, and control of blood pressure. Blocking the renin-angiotensin system (RAS) slows the progression of established diabetic nephropathy in type I diabetes mellitus, and inhibiting angiotensin II formation retards or impedes the progression from microalbuminuria to established diabetic nephropathy (macroproteinuria) in people with type I diabetes mellitus. The situation could be the same for people with type II diabetes mellitus. The ability of RAS blockade using irbesartan, an AT1 angiotensin II receptor antagonist, to slow the progression in renal failure has been compared with that of the calcium channel blocker amlodipine and placebo in a pilot study. The results suggest that blockade of the RAS, in this case with irbesartan, is at least equivalent to calcium channel blockers with respect to antihypertensive efficacy, but provides better renoprotective benefits.
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PMID:Renoprotection and renin-angiotensin system blockade in diabetes mellitus. 943 77

Glomerulosclerosis and tubulointerstitial fibrosis are common morphological correlates of many end-stage kidneys. There is ample evidence that transforming growth factor-beta (TGF-beta) plays a major role in these alterations by directly stimulating synthesis of many extracellular matrix components and reducing collagenase production, finally leading to renal scarring. Although many factors may induce TGF-beta expression in the kidney, one very interesting aspect is the link between angiotensin II (ANG II) and TGF-beta. Originating from observations in vascular smooth muscle cells, there are now several additional studies showing that ANG II stimulates TGF-beta expression in the kidney. Although cell culture studies have convincingly demonstrated that the vasoactive peptide directly stimulates transcription as well as bioactivation of TGF-beta, the in vivo evidence is more indirect. Nevertheless, there are several pathophysiological situations including unilateral ureteral obstruction, chronic cyclosporin A nephrotoxicity, various models of hypertension, and probably diabetic nephropathy in which ANG II-mediated TGF-beta induction has been demonstrated to play an important role in the progression of the disease. The fascinating aspect of this relationship between ANG II and TGF-beta is the fact that hemodynamic changes as well as structural changes are linked together generating a unifying model of progression of chronic renal failure with ANG II as the key player. Angiotensin-converting enzyme (ACE) inhibitor and the more recently introduced AT1-receptor blocker may be potential drugs to interfere with this ANG II-mediated TGF-beta expression. Therefore, these drugs should not only be considered as antihypertensive medications, but should rather be viewed as renoprotective substances influencing renal remodeling by preventing local TGF-beta expression.
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PMID:Link between angiotensin II and TGF-beta in the kidney. 952 2

ACE inhibitors have achieved widespread usage in the treatment of cardiovascular and renal disease. ACE inhibitors alter the balance between the vasoconstrictive, salt-retentive, and hypertrophic properties of angiotensin II (Ang II) and the vasodilatory and natriuretic properties of bradykinin and alter the metabolism of a number of other vasoactive substances. ACE inhibitors differ in the chemical structure of their active moieties, in potency, in bioavailability, in plasma half-life, in route of elimination, in their distribution and affinity for tissue-bound ACE, and in whether they are administered as prodrugs. Thus, the side effects of ACE inhibitors can be divided into those that are class specific and those that relate to specific agents. ACE inhibitors decrease systemic vascular resistance without increasing heart rate and promote natriuresis. They have proved effective in the treatment of hypertension, they decrease mortality in congestive heart failure and left ventricular dysfunction after myocardial infarction, and they delay the progression of diabetic nephropathy. Ongoing studies will elucidate the effect of ACE inhibitors on cardiovascular mortality in essential hypertension, the role of ACE inhibitors in patients without ventricular dysfunction after myocardial infarction, and the role of ACE inhibitors compared with newly available angiotensin AT1 receptor antagonists.
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PMID:Angiotensin-converting enzyme inhibitors. 957 53

Blockade of the renin-angiotensin system with angiotensin-converting enzyme (ACE) inhibitors is now recognized as an effective approach for the treatment of hypertension and congestive heart failure. In addition, ACE inhibitors are very effective for the prevention of chronic renal failure. Today, it is possible to antagonize the effects of angiotensin II more specifically using AT1 receptor antagonists. Several non-peptide, orally active angiotensin II receptor antagonists have recently been developed clinically. These new molecules are as effective as ACE inhibitors, calcium antagonists and beta-blockers at reducing blood pressure in hypertensive patients. Furthermore, they appear to have similar systemic and renal hemodynamic properties in patients with congestive heart failure and renal diseases. Now, several large clinical trials such as the LIFE, the RENAAL and the ELITE II studies are under way to investigate the long-term benefits of one of these compounds in hypertension, heart failure and type II diabetic nephropathy.
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PMID:[Angiotensin II AT1 receptor antagonists: clinical development and future perspectives]. 977 27

Diabetic nephropathy has become the single most important cause of endstage renal failure in most countries of the Western world. Against this background, the role of the renin-angiotensin system (RAS) and its blockade command considerable interest. In diabetic patients and in diabetic animals, the circulating components of the RAS are suppressed. Although the evidence is not completely uniform, there are indirect arguments (renal hemodynamic response to RAS blockade, AT1 receptor expression), however, which would be consistent with increased intrarenal action of angiotensin (ANG) II. There is solid evidence that ACE inhibitors effectively interfere with progression of micro-albuminuria both in IDDM and NIDDM. They also prevent progression of advanced renal failure in IDDM, while there is only preliminary evidence in this respect for NIDDM. ACE inhibitors are superior to conventional antihypertensive agents (with the possible exception of some calcium channel blockers), but such superiority is seen only when the levels of blood pressure are relatively high. In diabetic animals, treatment with ANG II receptor blockers interferes with the development of glomerular lesions. In acute and subacute studies on diabetic patients, ANG II receptor blockers reduced albuminuria (or proteinuria) more than beta-blockers. Head-on comparison of equipotent doses ACE inhibitors and ANG II receptor blockers in non-diabetic patients produced equal reductions in proteinuria. The long-term effects of ANG II receptor blockers on progression of advanced diabetic nephropathy is the object of two large international studies. The results will not be available before the year 2000.
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PMID:Diabetes--renal function--what are the special problems? 983 74

The benefit of angiotensin-converting enzyme (ACE) inhibitor (i) therapy in diabetic glomerulosclerosis is thought to be largely the result of attenuation of angiotensin II (AngII) effects on blood pressure, glomerular hemodynamics and hypertrophy, and tissue fibrosis. The present study was undertaken to determine whether the addition of AngII receptor antagonist therapy to ACEi therapy in diabetic nephropathy results in attenuation of AngII effects beyond that achieved by ACEi therapy alone. Seven patients were studied as inpatients on the General Clinical Research Center each for 3 consecutive weeks as follows: week 1, the patients' usual regimen which included daily oral moderate to high dose ACEi therapy; week 2, the patients' usual regimen plus oral losartan (an antagonist (a) of the angiotensin type 1 receptor, AT1) 50 mg (n = 3) or 100 mg (n = 4) daily; week 3, return to the patients' usual regimen. Diet, physical activity, and blood glucose were held as constant as possible during the three weeks of daily testing. We found that plasma renin levels increased significantly during combination therapy and then returned to baseline values with discontinuation of AT1a therapy: mean baseline renin values (week 1) 3.0 ng/ml/min +/- 1.1 SE, mean renin values during combination therapy (week 2) 7.0 ng/ml/min +/- 3.2 (p = 0.0078 by Wilcoxon rank sum test), mean renin values after discontinuation of AT1a therapy (week 3) 3.9 ng/ml/min +/- 2.0 (NS compared to baseline values). In addition, 2 patients developed transient hypotension when losartan therapy was initiated. During this short-term study, 24-hour proteinuria, serum creatinine, serum potassium, and plasma aldosterone were not changed significantly by combination therapy. We conclude that in patients with diabetic nephropathy addition of AT1a therapy to ACEi therapy attenuates AngII effects better than ACEi therapy alone. We suggest that combination therapy for the management of diabetic glomerulosclerosis merits further investigation.
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PMID:Combination ACE inhibitor and angiotensin II receptor antagonist therapy in diabetic nephropathy. 1008 42

The renin-angiotensin-aldosterone system (RAAS) plays an important role in both the short-term and long-term regulation of arterial blood pressure, and fluid and electrolyte balance. The RAAS is a dual hormone system, serving as both a circulating and a local tissue hormone system (i.e., local mediator) as well as neurotransmitter or neuromediator functions in CNS. Control of blood pressure by the RAAS is exerted through multiple actions of angiotensin II, a small peptide which is a potent vasoconstrictor hormone implicated in the genesis and maintenance of hypertension. Hypertension is a primary risk factor associated with cardiovascular, cerebral and renal vascular disease. One of the approaches to the treatment of hypertension, which may be considered as a major scientific advancement, involves the use of drugs affecting the RAAS. Pharmacological interruption of the RAAS was initially employed in the late 1970s with the advent of the angiotensin converting enzyme (ACE) inhibitor, captopril. ACE inhibitors have since gained widespread use in the treatment of mild to moderate hypertension, congestive heart failure, myocardial infarction, and diabetic nephropathy. As the roles of the RAAS in the pathophysiology of several diseases was explored, so did the realization of the importance of inhibiting the actions of angiotensin II. Although ACE inhibitors are well tolerated, they are also involved in the activation of bradykinin, enkephalins, and other biologically active peptides. These actions result in adverse effects such as cough, increased bronchial reactivity, and angioedema. Thus, the goal of achieving a more specific blockade of the effects of angiotensin II than is possible with ACE inhibition. The introduction of the nonpeptide angiotensin II receptor antagonist losartan in 1995 marked the achievement of this objective and has opened new vistas in understanding and controlling the additional biological effects of angiotensin II. Complementary investigations into the cloning and sequencing of angiotensin II receptors have demonstrated the existence of a family of angiotensin II receptor subtypes. Two major types of angiotensin II receptors have been identified in humans. The type 1 receptor (AT1) mediates most known effects of angiotensin II. The type 2 receptor (AT2), for which no precise function was known in the past, has gained importance recently and new mechanisms of intracellular signalling have been proposed. This review presents recent advances in angiotensin II receptor pharmacology, molecular biology, and signal transduction, with particular reference to the AT1 receptor. Excellent reviews have appeared recently on this subject.
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PMID:Angiotensin II receptors-antagonists, molecular biology, and signal transduction. 1009 99

Blockade of the renin-angiotensin system is recognized as an effective approach for the treatment of hypertension and congestive heart failure. It is possible to antagonize the effects of angiotensin II (AngII) by blocking its receptors, using nonpeptide receptor antagonists. Six angiotensin receptor blockers (ARB) have been approved for the treatment of hypertension: losartan, valsartan, irbesartan, candesartan, telmisartan, and eprosartan. These new drugs are highly selective for the AT1 receptor subtype and induce dose-dependent inhibition of the BP response to exogenous AngII. Numerous double-blind, placebo-controlled studies have demonstrated that ARB are efficacious for treating mild, moderate, and severe hypertension. When compared with other classes of antihypertensive agents, ARB are as effective as angiotensin-converting enzyme inhibitors, calcium antagonists, thiazide diuretics, and beta-blockers. One advantage of ARB as a class is their excellent tolerability and side effect profile. Several large clinical trials of ARB are now under way to demonstrate their benefits in hypertension, heart failure, and type II diabetic nephropathy.
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PMID:Comparative antihypertensive effects of angiotensin II receptor antagonists. 1020 83

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.
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PMID:AT1 receptor antagonists: a challenge for ACE inhibitors in diabetic nephropathy. 1039 47


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