UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Receptor for AGE (RAGE) is a multi-ligand member of the immunoglobulin superfamily of cell surface molecules. Engagement of RAGE by its signal transduction ligands evokes inflammatory cell infiltration and activation in the vessel wall. In diabetes, when fueled by oxidant stress, hyperglycemia, and superimposed stresses such as hyperlipidemia or acute balloon/endothelial denuding arterial injury, the ligand-RAGE axis amplifies vascular stress and accelerates atherosclerosis and neointimal expansion. In this brief synopsis, we review the use of rodent models to test these concepts. Taken together, our findings support the premise that RAGE is an amplification step in vascular inflammation and acceleration of atherosclerosis. Future studies must rigorously test the potential impact of RAGE blockade in human subjects; such trials are on the horizon.
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PMID:RAGE axis: Animal models and novel insights into the vascular complications of diabetes. 1515 81

Calcium dobesilate stabilizes blood-retinal barrier in patients with diabetic retinopathy and possesses antioxidant properties in the retinas of rats with streptozotocin-induced diabetes, exposed ex vivo to ischemia-reperfusion. Here we investigated the action of calcium dobesilate on retinal albumin leakage in streptozotocin-diabetic rats, together with relevant in vivo retinal antioxidant and permeability markers, i.e., carboxymethyl-lysine-advanced glycation end product (CML-AGE) formation and vascular endothelial cell growth factor (VEGF) overexpression. Twenty days after streptozotocin administration, diabetic rats were treated for 10 days with calcium dobesilate (100 mg/kg/day per os) or vehicle. Retinal albumin leakage, CML-AGE formation, and VEGF overexpression were evaluated by immunohistochemistry of frozen eye sections. Diabetic rats exhibited dramatic increases in: (i) retinal albumin leakage (31% of positive vessels vs. 0.2% in nondiabetic rats, P<0.008), (ii) CML-AGE retinal occurrence (40+/-3% vs. undetectable positive vessels), and (iii) retinal VEGF protein expression (14.6+/-1.1 vs. 3.5+/-0.5 VEGF-positive spots/field, P<10(-4)). Calcium dobesilate significantly reduced: (i) retinal albumin leakage (by 70%, P<0.008), (ii) retinal CML-AGEs contents (by 62%, P<0.008), and (iii) retinal VEGF expression (by 69.4%, P<0.008). In conclusion, calcium dobesilate orally given to diabetic rats markedly reduced retinal hyperpermeability, CML-AGE contents, and VEGF overexpression. These results strongly suggest that calcium dobesilate stabilizes blood-retinal barrier in diabetic retinopathy via an in situ antioxidant action. Further studies in patients are required to confirm such view.
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PMID:Reduction of retinal albumin leakage by the antioxidant calcium dobesilate in streptozotocin-diabetic rats. 1524 73

At high levels as seen in diabetes, glucose reacts with and forms adducts (advanced glycation end products; AGEs) on macromolecules including proteins and DNA, eliciting cellular dysfunction and leading to vascular disease. The major means is through cellular receptors; the best characterized is the receptor for advanced glycation end products (RAGE). Accumulation of both AGE/RAGE in addition to other identified ligands of RAGE, including S100/calgranulins, is the hallmark of this receptor in disease pathogenesis. Blockade of ligand-receptor interaction directly at the protein level, or transgenetically, prevents development of micro vascular (nephropathy) and macro vascular (atherosclerosis/restenosis) disease in small animal models. Furthermore, allelic variants of RAGE exist that alter the protein function and gene expression, which may further affect disease outcome. In conclusion, RAGE is a target for drug development to prevent vascular disease in diabetic and nondiabetic subjects.
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PMID:RAGE: a novel target for drug intervention in diabetic vascular disease. 1529 Aug 45

Acausal relation between hyperglycemia and accelerated atherosclerosis has been recently suggested. The AGE-RAGE interaction is a potential mechanism underlying the accelerated atherosclerosis. Hyperglycemia causes via nonenzymatic glycation the formation of AGEs (advanced glycation endproducts). AGEs as well as other ligands like S100/Calgranulin and Amphoterin mediate receptor-independent and -dependent (via the interaction with RAGE) effects. The ligand-RAGE-interaction results in an activation of NF-kappaB, increased expression of cytokines, chemokines, and adhesion molecules and induces oxidative stress. A relevant role of the ligand-RAGE-interaction has been demonstrated in in vivo studies, both for the accelerated atherosclerosis and increased neointima formation in diabetes mellitus. Recent data analysing atherosclerotic lesions of diabetic patients provide further evidence for the pathogenetic role of the RAGE-ligand-interaction. In addition, new experimental data established that AGEs interact with other receptors than RAGE, while RAGE interacts with a diverse group of ligands. Thus, further studies are needed for the characterization of the ligand-RAGE-interaction. These studies will provide a rationale for the development of new therapeutic approaches for accelerated atherosclerosis in diabetes mellitus.
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PMID:[AGE-RAGE: a hypothesis or a mechanism?]. 1534 Jul 36

This article describes the analysis of autofluorescence of advanced glycation end products of hemoglobin (Hb-AGE). Formed as a result of slow, spontaneous and non-enzymatic glycation reactions, Hb-AGE possesses a characteristic autofluorescence at 308/345 nm (lambda(ex)/lambda(em)). Even in the presence of heme as a quenching molecule, the surface presence of the glycated adduct gave rise to autofluorescence with the quantum yield of 0.19. The specificity of monoclonal antibody developed against common AGE structure with Hb-AGE was demonstrated using reduction in fluorescence polarization value due to increased molecular volume while binding. The formation of fluorescent adduct in hemoglobin in the advanced stage of glycation and the non-fluorescent HbA(1c) will be of major use in distinguishing and to know the past status of diabetes mellitus. While autofluorescence correlated highly with HbA(1c) value under in vivo condition (r = 0.85), it was moderate in the clinical samples (r = 0.55). The results suggest a non-linear relation between glycemia and glycation, indicating the application of Hb-AGE as a measure of susceptibility to glycation rather than glycation itself.
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PMID:Autofluorescence characterization of advanced glycation end products of hemoglobin. 1555 35

Vascular diseases, especially atherosclerosis, are the main cause of morbidity and mortality in diabetics. Diabetes greatly increases the risk of developing coronary heart disease, cerebral vascular accident and lower limb arteritis. The physiopathology of vascular disease in the diabetic patient involves endothelial and smooth muscle cell abnormalities. Metabolic disturbances which are characteristic of diabetes, such as hyperglycaemia or AGE accumulation, contribute to endothelial dysfunction and augment the inflammatory response at the vascular level. Atherosclerotic plaques in diabetics are more inflammatory than in non-diabetics, with an accumulation of macrophages and T lymphocytes, a larger lipid core and the presence of a greater number of macrophages and smooth muscle cells in apoptosis, which makes them more vulnerable.
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PMID:[Physiopathology of atherosclerosis in diabetics]. 1566 76

Patients with diabetes mellitus increases in number in recent years and atherosclerosis-related vascular complications are the major cause of death in diabetic patients. A massive cluster of macrophage-derived foam cells in the subendothelial spaces is one of the characteristic features of the early stages of atherosclerotic lesions. In the present work, we mainly focused on the possible links of glycated-proteins and AGE-modified proteins to the development and progression of diabetic macrovascular complications.
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PMID:[The mechanisms of the development and progression of diabetic macrovascular complications]. 1577 93

Skeletal ability to resist mechanical stress is determined by bone amount and quality, which relies on macro- and micro-architecture, turnover, bone matrix, and mineralisation; the role of collagen has not been clearly elucidated. Numerous post-translational steps are involved in collagen type I biosynthesis, including residue hydroxylation and glycosylation catalysed by enzymes that work until the protein folds forming the triple helix; therefore, folding rate regulates these processes. Overglycosylated hydroxylysines are poor substrates for epsilon-amino group deamination which initiates cross-link formation. Three clinical conditions associated with fractures may relate collagen overglycosylation with bone quality: (i) Osteogenesis Imperfecta, in which genetic mutations distort triple helix conformation and slow folding rate favouring overglycosylation; (ii) diabetes mellitus, with collagen overglycosylation by AGE accumulation; and, (iii) menopause, according to experimental studies demonstrating ovariectomy-related trabecular bone collagen overglycosylation preventable by 17beta-estradiol or tamoxifen. Specific actions on collagen of drugs used for bone protection should be explored in future studies.
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PMID:Collagen overglycosylation: a biochemical feature that may contribute to bone quality. 1578 Dec 23

Non-enzymic protein glycosylation (glycation) plays important roles in ageing and in diabetes and its secondary complications. Dietary constituents may play important roles in accelerating or suppressing glycation. It is suggested that carnivorous diets contain a potential anti-glycating agent, carnosine (beta-alanyl-histidine), whilst vegetarians may lack intake of the dipeptide. The possible beneficial effects of carnosine and related structures on protein carbonyl stress, AGE formation, secondary diabetic complications and age-related neuropathology are discussed.
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PMID:Glycation, ageing and carnosine: are carnivorous diets beneficial? 1595 46

Endothelial dysfunction, with decreased NO (nitric oxide) biosynthesis, may play a pathophysiological role in diabetic vasculopathy. The aim of the present study was to determine the relative contributions of glucose and AGE (advanced glycation end-product) accumulation in suppressing NOS-3 (the endothelial isoform of NO synthase). Cultured HUVECs (human umbilical vein endothelial cells) were incubated with different concentrations of glucose, unmodified albumin or AGE-modified albumin for different times. NOS activity was measured from the conversion of L-[(3)H]arginine into L-[(3)H]citrulline, and the expression, serine phosphorylation and O-glycosylation of NOS-3 were determined by Western blotting. High (25 mmol/l) glucose, for up to 12 days of incubation, had no effect on the activity or expression of NOS-3, nor on its degree of serine phosphorylation or O-glycosylation, compared with physiological (5 mmol/l) glucose. By contrast, AGE-modified albumin exerted a concentration- and time-dependent suppression of NOS-3 expression in HUVECs at a range of concentrations (0-200 mg/l) found in diabetic plasma; this was evident after 24 h, whereas inhibition of NOS activity was seen after only 3 h incubation with AGE-modified albumin, consistent with our previous observations of rapid suppression of NOS-3 serine phosphorylation and NOS-3 activity by AGE-modified albumin. In conclusion, AGE-modified albumin suppresses NOS-3 activity in HUVECs through two mechanisms: one rapid, involving suppression of its serine phosphorylation, and another slower, involving a decrease in its expression. We also conclude that, in the context of the chronic hyperglycaemia in diabetes, the effects of AGEs on endothelial NO biosynthesis are considerably more important than those of glucose.
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PMID:Inhibition of human endothelial cell nitric oxide synthesis by advanced glycation end-products but not glucose: relevance to diabetes. 1602 82

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