UMLS:C0011860 - FACTA Search

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiotensin converting enzyme (ACE) generates angiotensin II from angiotensin I, which plays a critical role in the pathophysiology of diabetic nephropathy. However, ACE2 generates angiotensin 1-7, which may protect the kidney by attenuating the effects of angiotensin II, since deletion of the Ace2 gene leads to glomerulosclerosis in mice, and pharmacologic inhibition of ACE2 exacerbates experimental diabetic nephropathy. We measured ACE2 and ACE expression in renal biopsies of patients with kidney disease due to type 2 diabetes to determine if the expression pattern is specific to diabetic nephropathy. ACE2 and ACE mRNA levels were measured by real-time PCR in laser microdissected renal biopsies from 13 diabetic and 8 control patients. ACE2 mRNA was significantly reduced by more than half in both the glomeruli and proximal tubules of the diabetic patients compared to controls, but ACE mRNA was increased in both compartments. There was a significant parallel decrease in ACE2 protein expression, determined by immunohistochemistry, in proximal tubules, a pattern not found in 12 patients with focal glomerulosclerosis or 10 patients with chronic allograft nephropathy. Our results suggest that the kidney disease of patients with type 2 diabetes is associated with a reduction in ACE2 gene and protein expression and this may contribute to the progression of renal injury.
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PMID:Decreased glomerular and tubular expression of ACE2 in patients with type 2 diabetes and kidney disease. 1940 93

Angiotensin II (Ang II) is well-known as a systemic vasoconstrictor but recently a novel role for the peptide in endocrine function has been suggested and it has been linked to the pathophysiology of type 2 diabetes mellitus. According to several large-scale clinical studies, blocking Ang II prevented the onset of type 2 diabetes in potential patients. Type 2 diabetes is a complicated disease that is primarily characterized by insulin resistance and relative insulin deficiency mediated by numerous organs. Among these organs, the pancreas, adipose tissue, skeletal muscle and liver are the most prominent in maintaining glucose homeostasis. Interestingly, locally generated Ang II has been identified in these organs, where it plays different physiological roles and is produced in relatively high amounts with significant function. In type 2 diabetic human patients or animal models, Ang II, its generating enzymes and receptors are up-regulated and trigger detrimental effects. Moreover, Ang II seems to play roles in the regulation of insulin secretion by the pancreatic beta-cell and insulin sensitivity by peripheral tissues, which are two critical factors contributing to the development of type 2 diabetes. Accordingly, inhibiting Ang II produced beneficial effects on individual organs and throughout the body. Therefore, the present review discusses the role of Ang II in particular organs during normal physiological conditions as well as in type 2 diabetes.
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PMID:Angiotensin II in type 2 diabetes mellitus. 1927 74

Adipocytes express all components of the renin-angiotensin system, and the renin-angiotensin system is involved in obesity and insulin resistance. Circulating angiotensin II (Ang II) is detectable in blood, but its significance in human obesity remains unknown. The aim of this study was to investigate plasma Ang II in obese patients with type 2 diabetes mellitus (T2D) and the change during weight loss. Fifty Japanese obese subjects with T2D (body weight, 75.0 +/- 14.1 kg; body mass index, 29.1 +/- 3.7 kg/m(2); visceral fat area [VFA], 169.3 +/- 54.3 cm(2); hemoglobin A(1c), 7.6% +/- 1.5%) were enrolled. The subjects were prescribed a diet of daily caloric intake of 20 kcal/kg for 24 weeks. Plasma Ang II was measured by radioimmunoassay. Leptin, adiponectin, and lipoprotein lipase mass in preheparin serum were also measured as adipocyte-derived factors. After 24 weeks of weight reduction diet, the mean body weight, VFA, and hemoglobin A(1c) decreased significantly by 2.3%, 7.0%, and 8.3%, respectively. The mean plasma Ang II decreased by 24% (P < .0001) and correlated with body weight both at baseline (r = 0.425, P = .0018) and at 24 weeks (r = 0.332, P = .0181). The change in Ang II correlated with changes in body weight (r = 0.335, P = .0167) and VFA (r = 0.329, P = .0191). The change in Ang II also correlated positively with change in leptin (r = 0.348, P = .0127) and tended to correlate negatively with change in lipoprotein lipase mass in preheparin serum (r = -0.260, P = .0683), which is a marker of insulin sensitivity. Plasma Ang II is associated with body weight, decreases during weight loss, and is associated with markers of insulin resistance in obese subjects with T2D.
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PMID:Circulating angiotensin II is associated with body fat accumulation and insulin resistance in obese subjects with type 2 diabetes mellitus. 1970 92

Impaired kidney function increases the risk of cardiovascular morbidity and mortality. Coexistence of hypertension and type 2 diabetes increases the risk of kidney damage, hypertension being an independent risk factor for kidney disease progression. Angiotensin II, through its inflammatory, proliferative, and thrombotic effects, adversely affects renal perfusion and increases oxidative stress, thus playing a pivotal role in kidney disease progression. Angiotensin II receptor blockers (ARBs) and angiotensin-converting enzyme (ACE) inhibitors improve markers of kidney disease and slow kidney disease progression in diabetic and nondiabetic patients; this kidney protection may be in addition to their antihypertensive activity in those with advanced proteinuric nephropathy. Key beneficial effects of ARBs and ACE inhibitors throughout the kidney disease continuum are primarily explained by blood pressure lowering effects and partially by their direct blockade of angiotensin II. Recent studies have shown that telmisartan, an ARB with high lipophilicity and the longest half-life compared with other ARBs, provides benefits on markers of cardiovascular risk, that is, microalbuminuria and slowing of early-stage nephropathy.
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PMID:Effects of angiotensin II receptor blockers on diabetic nephropathy. 1958 50

Elevated blood pressure levels are highly prevalent and are a major reason for cardiovascular events and thus place a significant financial burden on healthcare systems worldwide. Guidelines recommend five first-line anti-hypertensive drug classes, but compelling indications may indicate favoring one drug class over another. Angiotensin receptor blockers (ARBs) have demonstrated a blood pressure lowering efficacy which is at least comparable with other drug classes, including ACE inhibitors (ACE-I), beta-blockers, calcium channel blockers and diuretics. They have, in addition, a lower side effect profile than other drug classes and patients on ARBs are more persistent with therapy. Compelling indications for the use of ARBs are heart failure, post-myocardial infarction, diabetic nephropathy, proteinuria/microalbuminuria, left ventricular hypertrophy, atrial fibrillation, metabolic syndrome and ACE-I induced cough. The ARB irbesartan has demonstrated a high efficacy in lowering blood pressure, which has been shown to be at least comparable with ACE-Is and superior to other ARBs such as losartan and valsartan. This translated into a better cost-effectiveness for irbesartan than for valsartan and losartan in the treatment of hypertension. In addition, irbesartan has been shown to be effective in both early and late stage diabetic nephropathy. It has further demonstrated considerable cost savings over standard therapy including beta-blockers, diuretics and non-dihydropyridine calcium channel blockers at all stages of kidney disease. Based on efficacy data from the Irbesartan Diabetic Nephropathy Trial and Reduction of Endpoints in NIDDM (non insulin dependant diabetes melitis) with the Angiotensin II Antagonist Losartan Study, it has also demonstrated cost savings over losartan in late stage renal disease. While both losartan and irbesartan are registered for the treatment of late stage diabetic nephropathy, irbesartan is also registered for early stage diabetic nephropathy in the EU. In summary, the data from randomized clinical trials on the efficacy of antihypertensive drugs provides an indication of their real value to patients. In addition observational data from clinical practice and proven end-organ protection in diabetic nephropathy provides further evidence of the true value of irbesartan compared to other ARBs in the treatment of hypertension.
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PMID:The value of irbesartan in the management of hypertension. 1960

Hypertension is a major risk factor for the development of cardiovascular disease. Numerous placebo-controlled trials have demonstrated that treatment of hypertension results in substantial reduction of hypertension-related vascular events. The benefit of specific therapies beyond their effect on blood pressure is well established. Losartan is an orally-active, selective, nonpeptide, angiotensin II type 1-receptor antagonist (ARB), and it was the first in this class to be marketed. Several large-scale clinical trials have demonstrated that losartan and other ARBs have benefits in preventing cardiovascular disease. The Losartan Intervention For End point reduction in hypertension (LIFE) study demonstrated improved outcomes with losartan as compared with atenolol-based therapies in hypertensive patients with left ventricular hypertrophy, mainly because of stroke prevention. The Reduction of End points in Non-insulin-dependent diabetes mellitus with the Angiotensin II Antagonist Losartan (RENAAL) study demonstrated that losartan prevented the progression of diabetic nephropathy. In this review, evidence from these and other clinical trials with losartan shall be discussed. The pharmacodynamic and pharmacokinetic properties of losartan are described to explain its mechanisms of action. Among the ARB class, losartan possesses certain unique properties, which may enhance its cardiovascular protective effects. These include an increase of urinary uric acid excretion and antiatherothrombotic properties. Potential future roles for losartan and other ARBs shall be discussed, in addition to emphasizing areas in which evidence is currently lacking or indecisive, including head-to-head comparisons of ARBs and the effects of combining an ARB with angiotensin-converting-enzyme inhibitors.
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PMID:Losartan in cardiovascular disease. 1980 43

The favorable effects of the peroxisome proliferator-activated receptor-gamma ligand pioglitazone on glucose metabolism are associated with an increase in the fat-derived hormone adiponectin in the bloodstream. A recent clinical trial, Prospective Pioglitazone Clinical Trial in Macrovascular Events, demonstrated that pioglitazone improved cardiovascular outcomes in patients with type 2 diabetes mellitus. However, the functional role of adiponectin in cardioprotection by pioglitazone has not been examined experimentally. Here we investigated the effect of pioglitazone on angiotensin II (Ang II)-induced cardiac hypertrophy and assessed the potential contribution of adiponectin to the action of pioglitazone on the heart. Wild-type or adiponectin-deficient mice were treated with pioglitazone as food admixture at a concentration of 0.01% for 1 week followed by 2 weeks of infusion with Ang II at 3.2 mg/kg per day. Ang II infusion in wild-type mice resulted in exacerbated myocyte hypertrophy and increased interstitial fibrosis, which were accompanied by elevated phosphorylation of extracellular signal-regulated kinase and expression of transforming growth factor-beta1 in the heart. Treatment of wild-type mice with pioglitazone attenuated cardiac hypertrophy and fibrosis, extracellular signal-regulated kinase phosphorylation, and transforming growth factor-beta1 expression in response to Ang II. Pioglitazone also increased the plasma adiponectin level and phosphorylation of cardiac AMP-activated protein kinase in wild-type mice in the presence of Ang II. The suppressive effects of pioglitazone on Ang II-induced cardiac hypertrophy and fibrosis were diminished in adiponectin-deficient mice. Furthermore, pioglitazone had no effects on the phosphorylation of extracellular signal-regulated kinase and AMP-activated protein kinase in the Ang II-infused heart of adiponectin-deficient mice. These data provide direct evidence that pioglitazone protects against Ang II-induced pathological cardiac remodeling via an adiponectin-dependent mechanism.
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PMID:Evidence for the importance of adiponectin in the cardioprotective effects of pioglitazone. 1993 24

Endothelin (ET)-1 and angiotensin II (Ang II) are likely candidates for a key role in diabetic vascular complications. We demonstrated previously that an enhanced ET-1-induced contraction is present in mesenteric arteries from Goto-Kakizaki (GK) rats at the chronic stage of type 2 diabetes. Here, we investigated whether short-term treatment of such rats with losartan, an angiotensin type 1 receptor antagonist, might normalize the ET-1-induced contraction. In mesenteric arteries from GK rats at the chronic stage (34-38 weeks) (vs. those from age-matched control Wistar rats): (1) the ET-1-induced contraction was enhanced, (2) the levels of ET-1 and Ang II were increased, (3) ET-1-stimulated ERK2 phosphorylation was increased, and (4) the ACh-induced endothelium-dependent relaxation was reduced. Mesenteric arteries isolated from such GK rats following treatment with losartan (25mg/kg/day for 2 weeks) exhibited reduced ET-1- and Ang II-induced contractions, suppressed ET-1-stimulated ERK phosphorylation, and increased ACh-induced relaxation, while the rats exhibited normalized plasma NO metabolism and their mesenteric arteries exhibited increased basal NO formation. However, such losartan treatment did not alter the increased levels of ET-1 and Ang II seen in GK mesenteric arteries. Our data suggest that within the timescale studied here, losartan normalizes ET-1-induced mesenteric artery contraction through a suppression of ERK activities and/or by normalizing endothelial function.
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PMID:Short-term angiotensin-1 receptor antagonism in type 2 diabetic Goto-Kakizaki rats normalizes endothelin-1-induced mesenteric artery contraction. 2002 66

We recently showed that losartan and paricalcitol are synergistic in the treatment of diabetic nephropathy in a model of type 1 diabetes. To test this strategy in a model of type 2 diabetes, we treated 2-month-old diabetic Lprdb/db mice with losartan, paricalcitol, or a combination of losartan and paricalcitol for 3 months. Vehicle-treated diabetic mice developed progressive albuminuria and glomerular abnormalities with mesangial expansion and glomerulosclerosis compared to their non-diabetic littermate control mice. Accompanying damage of the glomerular filtration barrier was a marked reduction in podocyte number as well as reduced expression of slit diaphragm proteins. Further, there was increased glomerular expression of extracellular matrix proteins, monocyte chemoattractant protein-1 and transforming growth factor-beta. Losartan or paricalcitol each alone moderately ameliorated albuminuria and glomerular damage. However, their combined use showed a dramatic therapeutic synergism, manifested by prevention of progressive albuminuria, restoration of the glomerular filtration barrier, reversal of the decline in slit diaphragm proteins, reduced synthesis of extracellular matrix proteins, and reduction of glomerulosclerosis. These effects were accompanied by blockade of the compensatory increase of renin production and angiotensin I/II accumulation in the kidney. Thus, our study further shows that vitamin D analogs can increase the efficacy of AT1 receptor blockade, leading to a more effective prevention of kidney disease in type 2 diabetes.
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PMID:Combined vitamin D analog and AT1 receptor antagonist synergistically block the development of kidney disease in a model of type 2 diabetes. 2046 30

(Pro)renin receptor ((P)RR), a specific receptor for renin and prorenin, is a 350 amino-acid protein with a single transmembrane domain and may play important pathophysiological roles in diabetic nephropathy. The aim of the present study is to clarify the expression of (P)RR in the kidney with end-stage renal disease due to diabetic nephropathy. The kidney tissues were obtained at autopsy from patients with and without Type 2 diabetes mellitus (n=5 without diabetes mellitus; and n=8 with diabetes mellitus). Immunocytochemistry showed that (P)RR was mainly expressed in the tubular cells and collecting duct cells of the kidney without diabetic nephropathy. Cells in glomeruli were very weakly and sporadically immunostained for (P)RR. Vascular smooth muscle cells and endothelial cells were very weakly or were not immunostained for (P)RR. Adipocytes in the adipose tissue around the kidney were positively immunostained for (P)RR. Immunostaining pattern of (P)RR in the kidney with diabetic nephropathy was similar to that without diabetic nephropathy. However, most notably, (P)RR immunostaining in the tubular cells and collecting duct cells was clearly and frequently more strongly observed in the kidney with diabetic nephropathy up to the end-stage renal disease. The present study has raised the possibility that (P)RR expressed in the diabetic kidney may play a pathophysiological role in angiotensin I generation and renal fibrosis found in end-stage renal disease.
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PMID:Expression of (pro)renin receptor in human kidneys with end-stage kidney disease due to diabetic nephropathy. 2038 87

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