UMLS:C0011881 - FACTA Search

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Query: UMLS:C0011881 (diabetic nephropathy)
10,836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Angiotensin II receptor blockers (ARBs) have been efficacious and safe drugs for the treatment of hypertension, heart failure, diabetic nephropathy and stroke from several short and long term clinical trials. The ARBs exert their effects through selective blockade of the angiotensin II (Ang-II) subtype 1 (AT1) receptor and quite possibly through stimulation by Ang-II of the unoccupied subtype 2 (AT2) receptor. The ARBs are equipotent to other antihypertensive drugs with respect to their effect on blood pressure, heart failure or diabetic nephropathy. They appear to be superior to the other drugs with respect to their stroke protective effect. They exert their stroke protective effect by a dual action, selectively blocking the action of Ang-II on the AT1 receptors, while allowing Ang-II to stimulate the unoccupied AT2 receptors. This dual action is unique to ARBs and results in vasodilation and increase in blood flow to the ischemic zone of the brain leading to improvement and prevention of its extension. All these actions of the ARBs will be discussed in this comprehensive review.
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PMID:Clinical experience with the use of angiotensin receptor blockers in patients with cardiovascular, cerebrovascular and renal diseases. 1866 66

The blockade of the renin-angiotensin-aldosterone system (RAAS) is helpful in the management of arterial hypertension, congestive heart failure, post-myocardial infarction and diabetic nephropathy. Such blockade can be obtained with an angiotensin converting enzyme inhibitor, a specific antagonist of angiotensin II AT1 receptors, an aldosterone receptor antagonist and/or a direct inhibitor of renin such as aliskiren. Various studies have demonstrated that a dual or even triple RAAS inhibition may offer a better cardiorenal protection, in refractory congestive heart failure and in nephropathy with proteinuria. However, in the ONTARGET study, the dual inhibition with ramipril plus telmisartan did not provide any additional benefit compared to ramipril alone in high-risk cardiovascular patients, but showed a worse tolerance profile.
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PMID:[What is the purpose of dual or triple inhibition of the renin-angiotensin-aldosterone system?]. 1881 62

The renin-angiotensin system (RAS) plays a critical role in the development of diabetic nephropathy, and blockade of the RAS is currently used for treatment of diabetic nephropathy. One major problem for the current RAS inhibitors is the compensatory renin increase, which reduces the efficacy of RAS inhibition. We have shown that vitamin D exerts renoprotective actions by transcriptionally suppressing renin. Here we demonstrated that combination therapy with an AT1 receptor blocker and a vitamin D analog markedly ameliorated renal injury in the streptozotocin (STZ)-induced diabetes model due to the blockade of the compensatory renin rise by the vitamin D analog, leading to more effective RAS inhibition. STZ-treated diabetic DBA/2J mice developed progressive albuminuria and glomerulosclerosis within 13 weeks, accompanied by increased intrarenal production of angiotensin (Ang) II, fibronection, TGF-beta, and MCP-1 and decreased expression of slit diaphragm proteins. Treatment of the diabetic mice with losartan or paricalcitol (19-nor-1,25-dihydroxyvitamin D(2), an activated vitamin D analog) alone moderately ameliorated kidney injury; however, combined treatment with losartan and paricalcitol completely prevented albuminuria, restored glomerular filtration barrier structure, and markedly reduced glomerulosclerosis. The combined treatment suppressed the induction of fibronection, TGF-beta, and MCP-1 and reversed the decline of slit diaphragm proteins nephrin, Neph-1, ZO-1, and alpha-actinin-4. These were accompanied by blockade of intrarenal renin and Ang II accumulation induced by hyperglycemia and losartan. These data demonstrate that inhibition of the RAS with combination of vitamin D analogs and RAS inhibitors effectively prevents renal injury in diabetic nephropathy.
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PMID:Combination therapy with AT1 blocker and vitamin D analog markedly ameliorates diabetic nephropathy: blockade of compensatory renin increase. 1883 78

Evidence from recent studies indicates that in patients with diabetic nephropathy combined therapy with ACE inhibitors (ACEI) and AT1-receptor antagonists (ARB) results in more complete blockade of the renin-angiotensin-aldosterone system (RAS) than monotherapy, and reduces proteinuria. Most of these trials, however, had short follow-up, included a small number of patients, and were heterogeneous, so the opportunity to start this treatment in these patients remains unclear. This review summarizes the results of these studies, describing the renal effects of dual RAS blockade in both type 1 and type 2 diabetic patients.
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PMID:Renal effects of dual renin-angiotensin-aldosterone system blockade in patients with diabetic nephropathy. 1895 80

Angiotensin (Ang)-converting enzyme (ACE) 2 cleaves Ang-II into the vasodilator peptide Ang-(1-7), thus acting as a pivotal element in balancing the local effects of these peptides. ACE2 has been identified in various tissues and is supposed to be a modulator of cardiovascular function. Decreases in ACE2 expression and activity have been reported in models of hypertension, heart failure, atherosclerosis, diabetic nephropathy and others. In addition, the expression level and/or activity are affected by other renin-angiotensin system components (e.g., ACE and AT1 receptors). Local inhibition or global deletion of brain ACE2 induces a reduction in baroreflex sensitivity. Moreover, ACE2-null mice have been shown to exhibit either blood pressure or cardiac dysfunction phenotypes. On the other hand, over-expression of ACE2 exerts protective effects in local tissues, including the brain. In this review, we will first summarize the major findings linking ACE2 to cardiovascular function in the periphery then focus on recent discoveries related to ACE2 in the CNS. Finally, we will unveil new tools designed to address the importance of central ACE2 in various diseases, and discuss the potential for this carboxypeptidase as a new target in the treatment of hypertension and other cardiovascular diseases.
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PMID:Angiotensin-converting enzyme 2 in the brain: properties and future directions. 1901 90

The aim of this study was designed to investigate the possible beneficial effects of the angiotensin-converting enzyme (ACE) inhibitor, Quinapril (Q) and, the angiotensin (ang) II T(1) (AT1) receptor blocker, irbesartan (Irb), in streptozotocin (STZ)-induced diabetes in rats. The rats were randomly allotted into one of five experimental groups: A (control), B (diabetic untreated), C (diabetic treated with Q), D (diabetic treated with Irb), and E (diabetic treated with Q&Irb), each group containing 10 animals. Groups B-E received STZ. Diabetes was induced in four groups by a single intraperitoneal (i.p) injection of STZ (50 mg/kg, freshly dissolved in 5 mmol/L citrate buffer, pH 4.5). Two days after STZ treatment, development of diabetes in four experimental groups was confirmed by measuring blood glucose levels in a tail vein blood samples. Rats with blood glucose levels of 250 mg/dL or higher were considered to be diabetic. The rats in Q-, Irb-, and Q&Irb-treated groups were given Q (in a dose of 3 mg/kg body weight), Irb (5 mg/kg body weight), and Q&Irb (in a dose of 1.5 mg/kg + 2.5 mg/kg body weight) once a day orally by using intra-gastric intubation for 12 weeks starting two days after STZ injection. Treatment of Q and especially Irb reduced the glomerular size and thickening of capsular, glomerular, and tubular basement membranes; and increased amounts of mesangial matrix and tubular dilatation and renal function as compared with diabetics untreated. Notably, the better effects were obtained when Q and Irb given together. We conclude that Q, Irb, and especially Q+Irb therapy causes renal morphologic and functional improvement after STZ-induced diabetes in rats. We believe that further preclinical research into the utility of Q and Irb treatment, alone or its combination, may indicate its usefulness as a potential treatment in diabetic nephropathy (DNp).
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PMID:Effect of angiotensin-converting enzyme inhibition and angiotensin II type 1 receptor blockade on streptozotocin-induced diabetic nephropathy. 1901 56

Aliskiren (Rasilez) is the first oral renin inhibitor. Its present indication is essential hypertension, as monotherapy or in combination with other antihypertensive agents (diuretic, calcium antagonist, ...). It may also be associated with an angiotensin converting enzyme inhibitor (or an AT1 angiotensin receptor antagonist) in order to benefit of a dual blockade of the renin-angiotensin-aldosterone system. The usual daily dose is 150 mg, to be increased up to 300 mg if necessary. New clinical trials are ongoing to validate this novel therapeutic approach in other indications such as congestive heart failure and diabetic nephropathy.
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PMID:[Aliskiren (Rasilez), direct renin inhibitor]. 1905 13

Angiotensin-(1-7) (Ang-[1-7]) is a heptapeptide member of the renin-angiotensin system (RAS), and acts as a vasodilator and antagonist of angiotensin II (Ang II) in the vasculature. The role of Ang-(1-7) in regulating kidney function is not well understood. Within the kidneys, Ang-(1-7) is generated by angiotensin-converting enzyme 2 (ACE2)-mediated degradation of Ang II, sequential cleavage of the precursor angiotensin I (Ang I) by ACE2 and ACE, or the actions of brush-border membrane peptidases on Ang I. Ang-(1-7) mediates its effects via binding to kidney Mas receptors, although some actions may occur via Ang II AT1 or AT2 receptors. In vitro studies suggest that Ang-(1-7) is an intrarenal vasodilator. Ang-(1-7) has been reported to induce either natriuresis/diuresis or sodium and water retention, via modulation of sodium transporters in the proximal tubule and loop of Henle, and collecting duct water transport. In the proximal tubule, Ang-(1-7) antagonizes growth-promoting signaling pathways via activation of a protein tyrosine phosphatase, whereas in mesangial cells, Ang-(1-7) stimulates cell growth via activation of mitogen-activated protein kinases. The phenotype of the Mas gene knockout mouse suggests that Ang-(1-7)-signaling events exert cardiovascular protection by regulating blood pressure, and by limiting production of reactive oxygen species and extracellular matrix proteins. Ang-(1-7) also protects against renal injury in the renal wrap hypertension model, independent of effects on blood pressure. In diabetic nephropathy, however, the role of Ang-(1-7) on disease progression remains unclear. In summary, Ang-(1-7) and its receptor Mas have emerged as important components of the intrarenal RAS. The signaling and downstream effects of Ang-(1-7) in the kidney are complex and appear to be cell specific. The body of evidence suggests that Ang-(1-7) is protective against endothelial dysfunction or Ang II-stimulated proximal tubular injury, although the overall effects on glomerular function require further study.
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PMID:Angiotensin-(1-7) and its effects in the kidney. 1957 9

The phylogenetically old renin-angiotensin-system (RAS) was originally described as a circulating hormonal system and a main cardiovascular regulator. However, there also exist 'local RASs' which are situated in cardiovascular as well as non-cardiovascular tissues where they are involved in physiological and patho-physiological processes such as inflammation, fibrosis, proliferation or apoptosis. Local RASs are activated in diabetes, preferentially in organs affected by hyperglycaemic injury such as the kidney or the retina. Increased renal or retinal Ang II levels may contribute to diabetic tissue injury in two ways: (i) by stimulating the angiotensin AT1-receptor and downstream pathological chains of events and (ii) by bidirectional interaction with the 'classical' hyperglycaemia-induced pathobiochemical pathways (oxidative stress, generation of advanced glycation end products, increased polyol pathway flux, activation of protein kinase C, increased hexosamine pathway flux). The involvement of the RAS in the pathomechanisms underlying diabetic end organ damage suggests pharmacological RAS inhibition as a therapeutic approach in these disorders. This assumption has been supported by numerous animal studies. Clinically, RAS inhibition is currently the first line, guideline-approved treatment in diabetic nephropathy. The recently published DIRECT, RASS and AdRem studies provided evidence that RAS inhibition may also be beneficial in diabetic retinopathy; however, evidence for RAS-inhibition in retinopathy is still much weaker than for nephropathy. The present article reviews the emerging knowledge about cardiovascular and non-cardiovascular effects of the RAS with an emphasis on the mechanisms of RAS involvement and pharmacological RAS inhibition in diabetic end organ damage.
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PMID:The evolving story of the RAAS in hypertension, diabetes and CV disease: moving from macrovascular to microvascular targets. 1981 70

Diabetes mellitus and arterial hypertension are major cardiovascular risk factors with high co-morbidity. Microalbuminuria is an independent risk marker, and routine monitoring of urinary albumin is mandatory in patients with diabetes and hypertension. The therapeutic goal of antihypertensive treatment is < 130/80 mm Hg, however in the presence of nephropathy < 125/75 mm Hg should be achieved. Therapy is based on lifestyle-interventions including 1) weight reduction, 2) regular moderate physical activity, 3) modification of diet with restriction of salt- and alcohol consumption as well as 4) cessation of smoking. Renin- and ACE-inhibitors as well as AT1-receptor antagonists are drugs of first choice, delaying the progression of diabetic nephropathy most effectively.
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PMID:[Diabetes and hypertension]. 1987 7

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