Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The development of angiotensin receptor blockers (ARBs) has resulted in effective oral treatment for hypertension. One of the most recent members of this therapeutic class is olmesartan medoxomil (OM). The active metabolite, olmesartan, produces insurmountable AT1 receptor blockade and dose-dependently reduces BP. In both experimental and clinical studies, ARBs have been shown to exert renoprotective effects in addition to antihypertensive activity. In an SHR model of hypertensive renal injury, OM (3.0 and 10.0 mg/kg/day) dose-dependently reduced BP but also reduced urinary protein excretion by 65% and 75%, respectively (P < 0.05). Similar doses of OM, in a DOCA-salt hypertensive rat model, did not affect BP but reduced urinary protein excretion by 26% and 39% when compared to control hypertensive animals (P < 0.05). Hypertension is a major pathophysiological determinant of progressive arterial damage that can accelerate the development of diabetic nephropathy. At doses of 0.6 and 6.0 mg/kg/day, OM significantly reduces hypertension associated with type 2 diabetes. These doses of OM reduced BP and dose-dependently reduced proteinuria 31% and 76%, respectively, in hypertensive ZDF rats (P < 0.01). OM also reduced renocortical and renomedulla injury by 19% and 50% at doses of 0.6 and 6.0 mg/kg/day. The glomerular sclerosis index (GSI) was also reduced by 25% and 37% (P < 0.05). Thus, OM improves both functional and morphologic damage associated with diabetic nephropathy. These studies demonstrate that OM, a potent ARB, dose-dependently reduces BP and also provides a dose-related nephroprotective effect in animal models of diabetes. These studies show that the antihypertensive affect of OM is renoprotective but suggest that these renal benefits may also occur independently from a reduction in BP. A further evaluation of the effects of OM in diabetes is warranted.
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PMID:The angiotensin-II (AT-II) receptor blocker olmesartan reduces renal damage in animal models of hypertension and diabetes. 1641 56

Despite the well-documented effect of irbesartan, an angiotensin AT1 receptor antagonist, on diabetic nephropathy, its effect on mortality related to multiple metabolic risk factors is unknown. To address this question, obese fa/fa Zucker rats were submitted to a 13-month treatment by irbesartan (30 mg/kg/day p.o.). Vehicle-treated obese fa/fa Zucker rats exhibited an important mortality (72%), which was markedly reduced by irbesartan (22%, P<0.05). Mortality in control lean fa/+ rats attained 12%. Irbesartan diminished the elevation in urinary protein excretion, plasma creatinine and urea nitrogen levels, and reduced the extent of glomerular and tubulo-interstitial lesions together with a reduction of urinary monocyte chemoattractant protein-1 excretion in fa/fa Zucker rats. Irbesartan treatment prevented the rise in plasma total cholesterol, triglycerides and glucose levels, and partially corrected low-density lipoprotein/high-density lipoprotein (LDL/HDL) cholesterol ratio in fa/fa Zucker rats. Therefore, prolonged irbesartan treatment preserves renal function and metabolic profile, and substantially increases survival in obese fa/fa Zucker rats.
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PMID:Long-term blockade of angiotensin AT1 receptors increases survival of obese Zucker rats. 1651 82

Diabetic nephropathy shows a higher incidence in male subjects, which may in part be owing to genetic factors. The angiotensin II type 2 receptor (AT2), present in the renal glomerulus, may oppose the deleterious effects of the type I receptor (AT1) through vasodilatation and growth inhibition. We determined whether the functional intronic G1675A or A1818T polymorphism of the X-chromosomal AT2 gene is associated with blood pressure levels or with kidney function. We genotyped 996 (538 female/458 male subjects) Finnish patients with type I diabetes from the FinnDiane-study in a cross-sectional study. DNA samples were amplified using standard polymerase chain reaction protocol and the genotypes were determined by the minisequencing method. Male patients with the AA haplotype had a lower glomerular filtration rate (83 +/- 32 vs 94 +/- 34 ml min(-1) 1.73 m(-2), P = 0.008) and a higher pulse pressure (PP) (62 +/- 18 vs 57 +/- 15 mm Hg, P = 0.002; P < 0.05 after adjustment for age) than did those with the GT haplotype. No differences between the genotypes or haplotypes and these variables were evident in females. In males, the G1675A was also an independent variable in a linear regression analysis with PP (r(2) = 0.16, coefficient=3.64, s.e.m.=1.38, P < 0.01) as the dependent variable. These data suggest a gender-specific association between the AT2 gene and kidney function and premature aging of the arterial tree in patients with type I diabetes.
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PMID:The AT2 gene may have a gender-specific effect on kidney function and pulse pressure in type I diabetic patients. 1659

Angiotensin II antagonists (AIIAs) were introduced to treat hypertension about 10 years ago. During this period they were evaluated not only in terms of efficacy and safety but also in several large studies with clinical outcomes. They are efficacious in all clinical forms of hypertension and are effective also in all ethnic groups. Cardiovascular and renal protection in proteinuric diabetic nephropathy beyond blood pressure reduction was proved in major clinical studies: Losartan Intervention For Endpoint reduction in hypertension study (LIFE), Reduction of Endpoint in Non-Insulin dependent Diabetes Mellitus with the AII Antagonist Losartan (RENAAL) and Irbesartan Type 2 Diabetic Nephropathy Trial (IDNT). Their blood pressure independent protective effect is also mentioned by the blockade of AT1 receptor. As a class AIIs have a tolerability profile similar to placebo.
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PMID:Angiotensin II antagonists: clinical experience in the treatment of hypertension, prevention of cardiovascular outcomes and renal protection in diabetic nephropathy and proteinuria. 1676 99

Angiotensin II (Ang II) has powerful sodium-retaining, growth-promoting and pro- inflammatory properties in addition to its physiological role in maintaining body salt and fluid balance and blood pressure homeostasis. Increased circulating and local tissue Ang II is one of the most important factors contributing to the development of sodium and fluid retention, hypertension and target organ damage. The importance of Ang II in the pathogenesis of hypertension and target organ injury is best demonstrated by the effectiveness of angiotensin- converting enzyme (ACE) inhibitors and AT1-receptor antagonists in treating hypertension and progressive renal disease including diabetic nephropathy. The detrimental effects of Ang II are mediated primarily by the AT1-receptor, while the AT2-receptor may oppose the AT1-receptor. The classical view of the AT1-receptor-mediated effects of Ang II is that the agonist binds its receptors at the cell surface, and following receptor phosphorylation, activates downstream signal transduction pathways and intracellular responses. However, evidence is emerging that binding of Ang II to its cell surface AT1-receptors also activates endocytotic (or internalisation) processes that promote trafficking of both the effector and the receptor into intracellular compartments. Whether internalised Ang II has important intracrine and signalling actions is not well understood. The purpose of this article is to review recent advances in Ang II research with focus on the mechanisms underlying high levels of intracellular Ang II in proximal tubule cells and the contribution of receptor-mediated endocytosis of extracellular Ang II. Further attention is devoted to the question whether intracellular and/or internalised Ang II plays a physiological role by activating cytoplasmic or nuclear receptors in proximal tubule cells. This information may aid future development of drugs to prevent and treat Ang II-induced target organ injury in cardiovascular and renal diseases by blocking intracellular and/or nuclear actions of Ang II.
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PMID:Novel roles of intracrine angiotensin II and signalling mechanisms in kidney cells. 1748 23

The renin-angiotensin-aldosterone-system (RAAS) is an important regulator of blood pressure and fluid-electrolyte homeostasis. RAAS has been implicated in pathogenesis of hypertension, congestive heart failure, and chronic renal failure. Aliskiren is the first non-peptide orally active renin inhibitor approved by FDA. Angiotensin Converting Enzyme (ACE) Inhibitors are associated with frequent side effects such as cough and angio-oedema. Recently, the role of ACE2 and neutral endopeptidase (NEP) in the formation of an important active metabolite/mediator of RAAS, ang 1-7, has initiated attempts towards development of ACE2 inhibitors and combined ACE/NEP inhibitors. Furukawa and colleagues developed a series of low molecular weight nonpeptide imidazole analogues that possess weak but selective, competitive AT1 receptor blocking property. Till date, many compounds have exhibited promising AT1 blocking activity which cause a more complete RAAS blockade than ACE inhibitors. Many have reached the market for alternative treatment of hypertension, heart failure and diabetic nephropathy in ACE inhibitor intolerant patients and still more are waiting in the queue. But, the hallmark of this area of drug research is marked by a progress in understanding molecular interaction of these blockers at the AT1 receptor and unraveling the enigmatic influence of AT2 receptors on growth/anti-growth, differentiation and the regeneration of neuronal tissue. Different modeling strategies are underway to develop tailor made molecules with the best of properties like Dual Action (Angiotensin And Endothelin) Receptor Antagonists (DARA), ACE/NEP inhibitors, triple inhibitors, AT2 agonists, AT1/TxA2 antagonists, balanced AT1/AT2 antagonists, and nonpeptide renin inhibitors. This abstract gives an overview of these various angiotensin receptor antagonists.
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PMID:An update on non-peptide angiotensin receptor antagonists and related RAAS modulators. 1769 38

Angiotensin II receptor blockers (ARBs) are widely used in patients with hypertension, heart failure, diabetic nephropathy, and other conditions. Over-stimulation of AT2 receptor as a result of AT1 blockade may contribute to the beneficial effects of ARBs through vasodilation and inhibition of cardiac and vascular hypertrophy and fibrosis. Some experimental studies, however, suggested that AT, receptor overstimulation, in addition to beneficial effects, might trigger inhibition of angiogenesis and apoptosis. In a review, some authors suggested that ARBs may increase the risk of myocardial infarction. This position triggered a hot scientific debate and further analyses of existing data. We completed a meta-analysis of randomized clinical trials comparing ARBs with either placebo or active drugs different from ARBs. ARBs were not associated with an excess risk of myocardial infarction (odds ratio 1.03 in a random-effect model and 1.02 in a fixed-effect model). Cardiovascular mortality did not differ between ARBs and drugs different from ARBs (odds ratio 1.00 in a random-effect model and 0.99 in a fixed-effect model) and it was slightly lesser with ARBs than with placebo (odds ratio 0.91; 95% confidence interval 0.83-0.99; p = 0.042) in a prespecified subgroup analysis. Other meta-analyses confirmed these data. In conclusion, evidence from randomized trials does not support the hypothesis that AT2 receptor over-stimulation produces harmful clinical effects. Current indications and contraindications to the use of ARBs in patients with hypertension, heart failure, and diabetic nephropathy should be maintained and probably extended to the entire class of these drugs.
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PMID:[Antihypertensive therapy and cardiovascular prevention. The role of angiotensin II receptor blockers]. 1769

Angiotensin II and its type 1 receptor (AT1R) play important roles in the pathogenesis of renal disease and diabetic nephropathy. The 12/15-lipoxygenase pathway of arachidonate metabolism and its lipid products have also been implicated in diabetic nephropathy. However, it is unclear whether 12/15-lipoxygenase regulates expression of AT1R. In cultured rat mesangial cells, we found that the 12/15-lipoxygenase product 12(S)-hydroxyeicosatetraenoic acid (12(S)-HETE) increased AT1R mRNA and protein expression, primarily by stabilizing AT1R mRNA. Pretreatment with 12(S)-HETE also amplified the signaling effects of angiotensin II, likely due to the increased AT1R expression. Levels of AT1R protein expression decreased when 12/15-lipoxygenase was knocked down with specific short hairpin RNA (shRNA) compared with control cells. Similarly, levels of the AT1 receptor, but not the AT2 receptor, were significantly lower in mesangial cells and glomeruli derived from 12/15-lipoxygenase knockout mice compared with control mice. Reciprocally, stable overexpression of 12/15-lipoxygenase increased AT1R expression in cultured mesangial cells. In vivo, modified siRNA targeting 12/15-lipoxygenase reduced glomerular AT1R expression in a diabetic mouse model. Interestingly, angiotensin II induced greater levels of 12/15-lipoxygenase, TGF-beta1, and fibronectin (FN) in AT1R-overexpressing mesangial cells compared with control cells. Therefore, oxidized lipids generated by the 12/15-lipoxygenase-mediated metabolism of arachidonic acid can enhance AT1R expression in mesangial cells and augment the profibrotic effects of angiotensin II.
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PMID:Products of 12/15-lipoxygenase upregulate the angiotensin II receptor. 1823 84

Renin angiotensin system (RAS) worsens diabetic nephropathy (DN) by increasing oxidative stress. We compared the effect of three different RAS inhibitors: the angiotensin converting enzyme inhibitor Ramipril, the vasopeptidase inhibitor AVE7688 and the angiotensin receptor (AT1) antagonist Losartan on the formation of oxidative and carbonyl stress derived protein modifications in kidney from Zucker obese hyperglycemic rats (ZDFn Gm-fa/fa). Gas chromatography-mass spectrometry was used to measure representative markers of several protein oxidative pathways: direct oxidation [dinitrophenylhydrazine reactive carbonyls (DNP), glutamic (GSA), and aminoadipic (AASA) semialdehydes], mixed glyco- and lipoxidation [N(epsilon)-carboxyethyl-lysine (CEL) and N(epsilon)-(carboxymethyl)-lysine (CML)] and lipoxidation-[N(epsilon)-(malondialdehyde)-lysine-(MDAL)], as well as renal fatty acid composition. Urinary albumin (a marker of DN), DNP, GSA, and MDAL levels, were increased in all obese rats and were dose dependently decreased by AVE7688 whereas Ramipril and Losartan were less efficient. These results show that RAS inhibition improves DN at several levels, independently of its effects on blood pressure and glycemic control, via mechanisms depending of renal oxidative stress.
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PMID:Inhibition of renin angiotensin system decreases renal protein oxidative damage in diabetic rats. 1824 27

The correlations co-exist among diabetes mellitus, hypertension and the kidney. Renal injury will develop in 35% type 1 and type 2 diabetes mellitus patients. Diabetic nephropathy is the key factor for the occurence of hypertension in type 1 diabetes mellitus. In case of type 2 diabetes mellitus with prevalent essencial hypertension the diabetic nephropathy is supporting factor for the development of hypertension. Untreated or inadequately treated hypertension accelerates the progression of diabetic renal impairment. The presence of diabetes mellitus as well as hypertension or proteinuria is significant cardiovascular risk factor. The goal of treatment with angiotensin converting enzyme inhibitors or AT1 receptor of angiotensin II blockers is both slowing-down of renal injury progression and reduction in risk of cardiovascular complications.
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PMID:[Diabetes mellitus, hypertension and kidney]. 1863 Jun 36


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