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)

In diabetic patients the incidence of cardiovascular diseases (CVD) is higher compared with those without diabetes. This elevated incidence may be due to an increased prevalence of established risk factors, such as obesity, dyslipidemia and hypertension. However, several other determinants must be considered. Attention must be paid to the role that specific factors strictly related to diabetes, insulin-resistance and post-prandial hyperglycemia, play in the etiopathogenesis of CVD, as for example atherosclerosis. This review acknowledges the incidence of diabetes on cardiovascular diseases and atherosclerosis from endothelial dysfunction to plaque destabilization, suggesting that insulin resistance and postprandial hyperglycemia should be considered keys in the generation of these worst diabetic cardiovascular outcomes. It finds in hyperglycemia the primum movens that mediates the cascade of vascular damaging events from the beginning of ROS formation to plaque rupture, through increased inflammation. It also adds insights of why diverse therapeutic interventions, which have in common the ability to reduce oxidative stress and inflammation, can impede or delay the onset of complication of atherosclerosis in diabetic patients.
Curr Diabetes Rev 2007 Nov
PMID:Insulin resistance and postprandial hyperglycemia the bad companions in natural history of diabetes: effects on health of vascular tree. 1822 Jun 86

The objective in much of the proteomics literature today is to establish the difference between healthy and disease states at the protein level using blood plasma. A critical component in this endeavor is to establish what is normal. The focus of the work reported here was to do this with oxidized proteins that might relate to oxidative stress and oxidative stress-related diseases. Oxidative stress is known to increase markedly in cancer, diabetes, heart disease, and neurodegenerative diseases. Since proteins are one of the targets of ROS, generated by oxidative stress, oxidized proteins are excellent biomarker candidates for these diseases. But first it is necessary to identify oxidized proteins that occur in the healthy state. Healthy rat plasma was used in this study as a source for the identification of naturally oxidized proteins. Freshly drawn blood was treated with biotin hydrazide to selectively derivatize carbonyl groups in oxidized proteins. Oxidized proteins thus biotinylated were separated from the other plasma proteins using avidin affinity chromatography. Affinity selected proteins were further fractionated on a C(8) RP column and fractions collected. The collected fractions were then tryptic digested and the peptides identified using a combination of LC/MS/MS and database searches. One hundred forty-six proteins were identified using 700 signature peptides from the tryptic digested chromatographic fractions. The most frequently encountered proteins in the samples were keratins. Brain and liver were among the organs contributing the most oxidized proteins to plasma followed by heart and kidney.
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PMID:Identification of oxidized proteins in rat plasma using avidin chromatography and tandem mass spectrometry. 1838 5

In an attempt to search for novel biomarkers for monitoring diabetes prognosis, we examined the influence of the hypoglycemic fungal extracellular polysaccharides (EPS) on the differential change in pancreatic proteome and transcriptome in streptozotocin (STZ)-induced diabetic rats using 2-DE-based protein mapping and oligonucleotide microarray analysis. The 2-DE system separated more than 2000 individual spots, demonstrating that 34 proteins out of about 500 matched spots were differentially expressed. A total of 22 overexpressed and 12 underexpressed proteins in 2-DE map were observed (p<0.05) between the healthy and diabetic rats, of which 26 spots were identified by PMF analysis. Of these, significant down regulation of carbonyl reductase (Cbr), hydroxymethylglutaryl-CoA synthase (HMGCS), and putative human mitogen-activated protein kinase activator with WD repeats-binding protein (MAWDBP) in diabetic pancreas were reported for the first time in this study. When treated with EPS, all these four proteins were reverted to normal levels. The microarray analysis revealed that 96 out of 1272 genes were down- or up-regulated in the diabetic rats and the altered transcript levels of many of these genes were reversed after EPS treatment. In particular, ROS generation in rat islets was significantly increased after STZ treatment, thereafter EPS treatment was likely to play a preventive role in beta-cell destruction mediated by STZ. Taken together, EPS may act as a potent regulator of gene expression for a wide variety of genes in diabetic rats, particularly in antioxidative stress, insulin biosynthesis, and cell proliferation.
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PMID:Proteomic and transcriptomic analysis for streptozotocin-induced diabetic rat pancreas in response to fungal polysaccharide treatments. 1845 27

Diabetic nephropathy is the most common cause of end-stage renal disease in the world, and accounts for a significant increase in morbidity and mortality in patients with diabetes. Therapeutic options such as strict blood pressure and/or glycemic control are effective for preventing the development and progression of diabetic nephropathy, but the number of diabetic patients on hemodialysis is still increasing. Therefore, a novel therapeutic strategy that could halt the progression of diabetic nephropathy should be developed. Advanced glycation end products (AGEs) are heterogeneous cross-linked sugar-derived proteins which could accumulate in glomerular basement membrane, mesangial cells, endothelial cells, and podocytes in patients with diabetes and/or end-stage renal failure. AGEs are thought to be involved in the pathogenesis of diabetic nephropathy via multifactorial mechanisms such as oxidative stress generation and overproduction of various growth factors and cytokines. Further, recently, the cross-talk between AGEs and the renin-angiotensin system (RAS) has been proposed to participate in diabetic nephropathy. In addition, activation of the RAS elicits ROS generation and subsequently stimulates growth factor and cytokine production by kidney cells as well. These observations suggest that combination therapy with inhibitors of the RAS and blockers of the AGEs formation and/or their downstream pathway may be a novel therapeutic option for preventing diabetic nephropathy. In this paper, we review the role of AGEs and their receptor system in the pathogenesis of diabetic nephropathy. We further discuss here the cross-talk between AGEs and the RAS in the development and progression of diabetic nephropathy.
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PMID:Role of AGEs in diabetic nephropathy. 1847 44

Depressed sarcoplasmic reticulum (SR) Ca(2+)-ATPase (SERCA2a) and Ca(2+)-release channels (ryanodine receptor RyR2) are involved in diabetic cardiomyopathy, however, the implication of intracellular calcium handling proteins in SR is undefined. It was hypothesized that the down-regulation of the intracellular calcium handling proteins of SR is closely related to an up-regulated endothelin (ET) system. Hydroxysafflor yellow A (HSYA) is expected to ameliorate cardiac insufficiency which is mediated by the depressed intracellular calcium handling system in diabetic rat heart. Diabetes was produced in male rats 8 weeks after an injection of streptozotocin (60 mg/kg i.p.) and HSYA was administered (100 mg/kg) by gavage in the last 4 weeks. Hemodynamic and echocardiographic changes, cardiac calcium handling proteins, serum biochemistry, ET system and redox were measured. The compromised cardiac function in diabetic rats was accompanied by a significant down-regulation of the expression of RyR2, FKBP12.6 as well as SERCA2a and PLB. These were closely linked with oxidative stress, an increased ET-1 and up-regulation of ECE, PropreET-1 and iNOS mRNA in diabetic cardiomyopathy. After a 4 week treatment with HSYA, all abnormalities were reversed significantly. In conclusion, diabetic cardiomyopathy was correlated with an abnormal expression of calcium handing proteins in SR and an activated ET-ROS (reactive oxygen species) system in the diabetic affected myocardium. HSYA significantly improved the cardiac function and down-regulated the ET system and ROS pathway, resulting in a reversal of the abnormalities of expression of calcium handing proteins and the cardiac performance in diabetic cardiomyopathy.
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PMID:Cardioprotective effects of hydroxysafflor yellow A on diabetic cardiac insufficiency attributed to up-regulation of the expression of intracellular calcium handling proteins of sarcoplasmic reticulum in rats. 1939 Nov 1

Type 2 diabetes mellitus, the most prevalent and serious metabolic disease worldwide, is believed to result from the interaction between genetical and lifestyle factors. In genetically predisposed people, the combination of a hypercaloric ingestion and reduced physical activity is responsible for the appearance of insulin resistance. This state can be overcomed, until a certain point, with increments of insulin secretion (hyperinsulinemia). However, an insufficient compensation leads to a state of glucose intolerance, which can evolve to diabetes, according to actual knowledge. The noxious effects of the hyperglycemia, allied with the possible increase of free fatty acids, are mediated by highly reactive molecules, oxygen and nitrogen free radicals species (ROS and RNS). Recent data suggests that these reactive species are signalling molecules and are involved in the regulation of the cellular function, being its increased production or reduced elimination a cause of oxidative stress. Indeed, those free radicals act directly through oxidative damage on macromolecules (proteins, lipids, DNA) or indirectly, activating single transduction pathways sensible to stress mechanisms. In this review, we will consider the pathways recognized as the more significant in stress mechanisms, namely: NF-kB, JNK/SAPK, p38 MAPK, PKC, AGE/RAGE, hexosamines and poliol. These signalling cascades are believed to be responsible for the insulin resistance and reduced insulin secretion, therefore the use of innocuous antioxidant substances such as vitamin C, E and the a-lipoic acid, is seen as a possible step for type 2 diabetic complications management. We will also discuss acetylsalicylic acid potentialities in the above-mentioned pathologies.
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PMID:[Oxidative stress and its effects on insulin resistance and pancreatic beta-cells dysfunction: relationship with type 2 diabetes mellitus complications]. 1867 21

ALR/Lt, a NOD-related mouse strain, was selected for resistance to alloxan free radical-mediated diabetes (ALD). Despite extensive genomic identity with NOD (>70%), ALR mice display strong resistance to autoimmune type 1 diabetes (T1D) due to both an unusual elevation in systemic antioxidant defenses and a reduction in cellular ROS production that extends to the beta cell level. Reciprocal backcross to NOD previously linked the ALR-derived T1D resistance to Chr. 3, 8, and 17 as well as to the ALR mt-Nd2(a) allele encoded by the mitochondrial genome (mtDNA). To determine whether any of the ALR-derived loci protecting against T1D also protected against ALD, 296 six-week-old F2 mice from reciprocal outcrosses were alloxan-treated and assessed for diabetes onset, and a genome-wide scan (GWS) was conducted. GWS linked mt-Nd2 as well as three nuclear loci with alloxan-induced diabetes. A dominant ALR-derived ALD resistance locus on Chr. 8 colocalized with the ALR-derived T1D resistance locus identified in the previous backcross analysis. In contrast, whereas ALR contributed a novel T1D resistance locus on Chr. 3 marked by Susp, a more proximal ALR-derived region marked by Il-2 contributed ALD susceptibility, not resistance. In addition, a locus was mapped on Chr. 2, where heterozygosity provided heightened susceptibility. Tests for alloxan sensitivity in ALR conplastic mice encoding the NOD mt-Nd2(c) allele and NOD mice congenic for the protective Chr. 8 locus supported our mapping results. Alloxan sensitivity was increased in ALR.mt(NOD) mice, whereas it was decreased by congenic introduction of ALR genome on Chr. 8 into NOD. These data demonstrate both similarities and differences in the genetic control of T1D versus ROS-induced diabetes.
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PMID:Commonalities of genetic resistance to spontaneous autoimmune and free radical--mediated diabetes. 1871 26

The incidence of obesity and non-esterified ('free') fatty acid-associated metabolic disorders such as the metabolic syndrome and diabetes is increasing dramatically in most countries. Although the pathogenesis of these metabolic disorders is complex, there is emerging evidence that ROS (reactive oxygen species) are critically involved in the aberrant signalling and tissue damage observed in this context. Indeed, it is now widely accepted that ROS not only play an important role in physiology, but also contribute to cell and tissue dysfunction. Inappropriate ROS generation may contribute to tissue dysfunction in two ways: (i) dysregulation of redox-sensitive signalling pathways, and (ii) oxidative damage to biological structures (DNA, proteins, lipids, etc.). An important source of ROS is the NOX family of NADPH oxidases. Several NOX isoforms are expressed in the liver and pancreatic beta-cells. There is now evidence that inappropriate activation of NOX enzymes may damage the liver and pancreatic beta-cells. In the context of the metabolic syndrome, the emerging epidemic of non-alcoholic steatohepatitis is thought to be NOX/ROS-dependent and of particular medical relevance. NOX/ROS-dependent beta-cell damage is thought to be involved in glucolipotoxicity and thereby leads to progression from the metabolic syndrome to Type 2 diabetes. Thus understanding the role of NOX enzymes in liver and beta-cell damage should lead to an increased understanding of pathomechanisms in the metabolic syndrome and diabetes and may identify useful targets for novel therapeutic strategies.
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PMID:NOX family NADPH oxidases in liver and in pancreatic islets: a role in the metabolic syndrome and diabetes? 1879 62

Pancreatic beta-cells are essential for the maintenance of glucose homoeostasis, and dysfunction of these insulin-secreting cells results in the development of diabetes. In the course of events leading from obesity to Type 2 diabetes, several mechanisms are currently envisaged. Among them, lipids and oxidative stress are considered as toxic candidates for the beta-cell. The cellular link between fatty acids and ROS (reactive oxygen species) is essentially the mitochondrion, a key organelle for the control of insulin secretion. Mitochondria are the main source of ROS and are also the primary target of oxidative attacks. The present review presents the current knowledge of lipotoxicity related to oxidative stress in the context of mitochondrial function in the beta-cell.
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PMID:The sensitivity of pancreatic beta-cells to mitochondrial injuries triggered by lipotoxicity and oxidative stress. 1879 63

Oxidative stress is a "privilege" of aerobic organisms. It can be induced by endogenous and exogenous factors. Most often, it is characterized by the production of free radicals and nonradical oxygen and nitrogen products, referred to under a single term "reactive species" (RS). Oxidative stress is a deleterious process that can be an important mediator of damage to cell structures, including lipids and membranes, proteins and DNA. However, reactive oxygen (ROS) and nitrogen species (RNS) are "two-faced" products. Produced in low/moderate concentrations as molecular signals that regulate a series of physiological processes, such as a defence against infectious agents, the maintenance of vascular tone, the control of ventilation and erythropoietin production, and signal transduction from membrane receptors in various physiological processes. Many of ROS-mediated responses protect cells against oxidative stress and maintain "redox homeostasis". Then, both reactive species are produced by strictly regulated enzymes, such as nitric oxide synthase (NOS), and isoforms of NADPH oxidase, or as by-products from not so well regulated sources, such as the mitochondrial electron-transport chain. An excessive increase in ROS production has been implicated in the pathogenesis of atherosclerosis, cardiovascular diseases, hypertension, ischemia/reperfusion injury, diabetes mellitus, neurodegenerative and immuno-inflammatory diseases. Within the cells, ROS can act as secondary messengers in intracellular signalling cascades, which can induce the oncogenic phenotype of cancer cells, cellular senescence and apoptosis.
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PMID:[Oxidative stress in human diseases]. 1892 87

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