Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Elevated glucose level is the main cause of extracellular matrix (ECM) derangement in various tissues in diabetes mellitus. The development of diabetic nephropathy is considered to be dependent on profibrotic cytokine, transforming growth factor-beta1 (TGFbeta1). Its excessive activation due to the up-regulation of thrombospondin-1 (TSP-1) in mesangial cells exposed to high glucose contributes to ECM accumulation. However, the role of TSP-1-TGFbeta1 pathway in the development of glucose-induced imbalance of ECM homeostasis in skin connective tissue is not studied. We investigated the response of human skin fibroblasts to elevated glucose level (11.0 and 30.0 mM) in terms of: (1) the expression and secretion of fibronectin (FN) and plasminogen activator inhibitor-1 (PAI-1); (2) the accumulation of hyaluronic acid (HA) in pericellular matrix and in the conditioned medium; (3) TGFbeta1 expression, secretion and activation; (4) TSP-1 expression and secretion. We demonstrated the up-regulation of FN and PAI-1 by elevated glucose and the stimulation of HA accumulation in both cellular compartments. However, we failed to demonstrate the increase of expression, secretion and activation of TGFbeta1, and the increase of TSP-1 expression and secretion in fibroblasts exposed to high glucose. These results show that ECM derangement in skin fibroblasts due to high glucose is not determined by TGFbeta1 and its activation by TSP-1.
J Diabetes Complications
PMID:High glucose-induced alterations of extracellular matrix of human skin fibroblasts are not dependent on TSP-1-TGFbeta1 pathway. 1458 81

Radiolabeled peptides have been investigated for diagnostic imaging in a variety of non-oncologic diseases. For imaging thromboembolic disease, peptides which bind to various components of thrombi have been tested. For targeting the fibrin component of thrombi, peptide analogues of fibrin or fragments of fibronectin which have a distinct binding domain for fibrin have been studied. For targeting activated platelets within thrombi, linear and cyclic peptide antagonists of the glycoprotein IIb/IIIa receptor on platelets have been studied, as well as naturally occurring antagonists of this receptor which are found in venoms. Analogues of laminin and thrombospondin which bind to other receptors on platelets have also been tested. There is an approach which uses a peptide to target thrombin which is sequestered within a fibrin clot. Another area of investigation has been to develop an improved radiopharmaceutical for imaging sites of infection and/or inflammation. Peptides which would bind to leukocytes in vivo, such as antagonists to the tuftsin receptor, chemotactic peptides, interleukin-8, or a platelet factor 4 analogue, have been radiolabeled for this purpose. These agents would enable imaging of both infection and inflammation. Development of a radiopharmaceutical for specifically imaging infection has focused on antimicrobial peptides such as human neutrophil defensin, ubiquicidin, human lactoferrin and alafosfalin, which are expected to bind selectively to microorganisms and not to leukocytes. Radiolabeled peptides are also being explored as agents for assessing unstable atherosclerotic plaque (endothelin), amyloid deposits (amyloid beta peptides), and the consequences of diabetes mellitus (human C-peptide).
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PMID:Non-oncologic applications of radiolabeled peptides in nuclear medicine. 1497 20

Diabetic cardiomyopathy was the most dangerous diabetic complication facing diabetics, with its exact mechanisms remaining obscure. Our study was conducted to investigate the expression of thrombospondin-1 (TSP-1) and neuropeptide Y (NPY) in myocardium of streptozotocin (STZ)-induced diabetic rats. We employed streptozotocin (STZ)-induced diabetic rats to study the alteration of the TSP-1 and NPY expression in the left ventricle myocardium in diabetic and normal group by immunohistochemistry and immunofluorescence. The data of weight, blood sugar and urine sugar indicated no significant difference between the two groups before the animal model was induced. Four weeks after the induction of diabetes the weight of the diabeteic animals was 189.1+/-18.4 g, plasma glucose was 23.7+/-3.25 mmol/L and urine glucose was (++) to (+++); whereas the weight of the control animals was 260.5+/-32.1 g, plasma glucose was 4.9+/-0.5 mmol/L and urine glucose undetectable (-). The differences between the control and the diabetes group were distinct. A significant increase of the TSP-1 and NPY expression was also observed in the diabetic rat's heart. The number of the NPY positive myocardium and the light density of the positive myocardium in the left ventricle of the diabetic model were 17.3+/-2.1 and 102.5+/-9.3/mm(2), respectively, which were considered as increased when compared with the control that were 10.1+/-2.6 and 61.2+/-6.7, respectively. Our results support the view that high glucose conditions can induce an increased synthesis of TSP-1 through the PKC-TGF-beta-TSP-1 pathway, which in turn facilitate TGF-beta activation. Additionally, the activation of PKC may further lead to the over-expression of NPY. This may be involved in diabetic cardiomyopathy.
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PMID:Expression changes of thrombospondin-1 and neuropeptide Y in myocardium of STZ-induced rats. 1624 12

Renal and cardiac fibrosis leading to organ failure are complications of both diabetes and hypertension. These disease processes, when combined, exacerbate development of fibrotic complications. Control of latent transforming growth factor (TGF)-beta activation is a potential determinant of fibrotic progression. Both glucose and angiotensin II (Ang II) upregulate thrombospondin-1 (TSP1), a major activator of latent TGF-beta, and stimulate increased TGF-beta activity. We previously showed that high glucose stimulated TSP1-dependent TGF-beta activation in rat mesangial cells (RMCs). In this paper, we examined whether Ang II similarly upregulates TSP1 production and TSP1-dependent TGF-beta activation alone or in combination with high glucose concentrations. Ang II and high glucose stimulated increases in TSP1 protein levels in the conditioned media of both rat cardiac fibroblasts (RCFs) and rat mesangial cells (RMCs). Meanwhile, Ang II stimulated increases in both TGF-beta activity and protein by RMCs, whereas, RCFs responded to both Ang II and high glucose with increased TGF-beta activity in the absence of altered TGF-beta protein levels. A combination of Ang II and high glucose induced synergistic TGF-beta activation by RCFs. Moreover, Ang II induction of TSP1 and increased TGF-beta activity were blocked by losartan, an antagonist of the Ang II type 1 (AT1) receptor. The increase in TSP1 expression leads to increased TGF-beta activity upon Ang II and/or glucose treatment, since peptide antagonists of TSP1-mediated TGF-beta activation blocked Ang II and glucose-induced TGF-beta activation. Our data support a role for TSP1 in the development and progression of renal and cardiac fibrosis in hypertension and diabetes.
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PMID:Thrombospondin 1 mediates angiotensin II induction of TGF-beta activation by cardiac and renal cells under both high and low glucose conditions. 1631 Jan 63

Diabetes induces changes in the structure and function of the extracellular matrix (ECM) in many tissues. We investigated the effects of diabetes, physical training, and their combination on the gene expression of ECM proteins in skeletal muscle. Mice were divided to control (C), training (T), streptozotocin-induced diabetic (D), and diabetic training (DT) groups. Training groups (T, DT) performed 1, 3, or 5 wk of endurance training on a treadmill. Gene expression of calf muscles was analyzed using microarray and quantitative PCR. Training group samples were collected 24 h after the last training session. Diabetes affected the gene expression of several collagens (types I, III, IV, V, VI, and XV), some noncollagenous glycoproteins, and proteoglycans (e.g., elastin, thrombospondin-1, laminin-2, decorin). Reduced gene expression of collagens in diabetic skeletal muscle was partially attenuated as a result of physical training. In diabetes, mRNA expression of the basement membrane (BM) collagens decreased and that of noncollagenous glycoproteins increased. This may change the structure of the BM in a less collagenous direction and affect its properties.
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PMID:Effects of streptozotocin-induced diabetes and physical training on gene expression of extracellular matrix proteins in mouse skeletal muscle. 1635 70

Delayed reendothelialization contributes to restenosis after angioplasty and stenting in diabetes. Prior data have shown that bone marrow (BM)-derived endothelial progenitor cells (EPCs) contribute to endothelial recovery after arterial injury. We investigated the hypothesis that the EPC contribution to reendothelialization may be impaired in diabetes, resulting in delayed reendothelialization. Reendothelialization was significantly reduced in diabetic mice compared with nondiabetic mice in a wire-induced carotid denudation model. The EPC contribution to neoendothelium was significantly reduced in Tie2/LacZ BM-transplanted diabetic versus nondiabetic mice. BM from diabetic and nondiabetic mice was transplanted into nondiabetic mice, revealing that reendothelialization was impaired in the recipients of diabetic BM. To examine the relative roles of denuded artery versus EPCs in diabetes, we injected diabetic and nondiabetic EPCs intravenously after arterial injury in diabetic and nondiabetic mice. Diabetic EPCs recruitment to the neoendothelium was significantly reduced, regardless of the diabetic status of the recipient mice. In vitro, diabetic EPCs exhibited decreased migration and adhesion activities. Vascular endothelial growth factor and endothelial NO synthase expressions were also significantly reduced in diabetic EPCs. Notably, thrombospondin-1 mRNA expression was significantly upregulated in diabetic EPCs, associating with the decreased EPC adhesion activity in vitro and in vivo. Reendothelialization is impaired by malfunctioning EPCs in diabetes. Diabetic EPCs have phenotypic differences involving thrombospondin-1 expression compared with nondiabetic EPCs, revealing potential novel mechanistic insights and therapeutic targets to improve reendothelialization and reduce restenosis in diabetes.
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PMID:Endothelial progenitor thrombospondin-1 mediates diabetes-induced delay in reendothelialization following arterial injury. 1648 19

Glucose metabolism disorders are significant risk factors for accelerated atherosclerosis, but the exact pathogenesis of this impact and possible co-factors are not precisely known. On the other hand, only two thirds of all atherosclerosis cases are linked to so-called "classic" risk factors, and numerous studies are conducted to recognize those non-classic risk factors, among which homocysteine and adhesive molecules are the most often mentioned. Recently, the class B scavenger receptor CD36 has become an object of interest. Receptor CD36 is a membrane glycoprotein found on the surface of many cells, such as endothelial cells, cardiomyocytes, dendritic cells, platelets, monocytes, and macrophages. Ligands for receptor CD36 are oxidized LDL particles, long-chain fatty acids, collagens, thrombospondin I, apoptotic cells, and phospholipids. Receptor CD36 plays an important role in various processes, e.g. inner immune system response, apoptotic and necrotic cells removal, transport of fatty acids, and inhibition of neoplastic angiogenesis. Scavenging oxidized LDL particles is one of its most important functions. The most recent studies put forward the participation of receptor CD36 in atherogenesis. Additionally, increased CD36 expression has been described in diabetes mellitus and insulin resistance and in the pathogenesis of diabetic macro- and microangiopathy. Confounding data regarding human hereditary receptor CD36 deficiency as well as still unknown interactions between antidiabetic drugs and CD36 expression suggest the necessity for further studies on the participation of receptor CD36 in the atherogenesis linked with glucometabolic disorders and in the development of diabetes mellitus complications.
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PMID:[The influence of diabetes mellitus and insulin resistance on receptor CD36 expression. Part II. The role of receptor CD36 in the pathomechanism of diabetes complications]. 1655 95

The dysregulation of the metabolism of glycosaminoglycan and protein components of extracellular matrix (ECM) is a typical feature of diabetic complications. High glucose-induced enrichment of ECM with hyaluronan (HA) not only affects tissue structural integrity, but influences cell metabolic response due to the variety of effects depending on the HA polymer molecular weight. TSP-1-dependent activation of TGFbeta1 axis is known to mediate numerous matrix disorders in diabetes, but its role concerning HA has not been studied so far. In this work we demonstrated that 30 mM D-glucose increased the incorporation of [(3)H]glucosamine in high-molecular-weight (> 2000 kDa) HA of medium and matrix compartments of human mesangial cultures. Simultaneously, the synthesis of HA with lower molecular weight and HA degradation were not altered. The cause of the increased high-molecular-weight HA synthesis consisted in the up-regulation of hyaluronan synthase (HAS) 2 mRNA without alterations of the expression of HAS3, which generates HA of lower molecular weight. D-Glucose at 30 mM also stimulated the production of transforming growth factor beta1 (TGFbeta1), the excessive activation of which was determined by the up-regulation of thrombospondin-1 (TSP-1). The blockage of TGFbeta1 action either by neutralizing anti-TGFbeta1 antibodies or by quenching the TGFbeta1 activation (with TSP-1-derived synthetic GGWSHW peptide) abolished the effect of high glucose on HAS2 mRNA expression and normalized the synthesis of HA. Exogenous human TGFbeta1 had the same effect on HAS2 expression and HA synthesis as high glucose treatment. Therefore, we supposed that TSP-1-dependent TGFbeta1 activation is involved in the observed high glucose effect on HA metabolism. Since high-molecular-weight HA polymers, unlike middle- and low-molecular weight HA oligosaccharides, are known to possess anti-inflammatory and anti-fibrotic functions, we suppose that the enrichment of mesangial matrix with high-molecular-weight HA may represent an endogenous mechanism to limit renal injury in diabetes.
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PMID:Elevated level of ambient glucose stimulates the synthesis of high-molecular-weight hyaluronic acid by human mesangial cells. The involvement of transforming growth factor beta1 and its activation by thrombospondin-1. 1673 56

Platelet activation and hyperreactivity are known to be associated with a rapid development and progression of diabetic angiopathy. The present study attempts to clarify whether IDDM patients without diabetic complications have an increased platelet activation and whether in vivo platelet activation is altered in the presence of diabetic microangiopathy. Platelet activation was assessed by flow cytometry analysis in 50 healthy controls (c) and in 41 patients with insulin-dependent diabetes mellitus (IDDM type 1) who were screened for diabetic complications. Sixteen of these patients (0) showed no evidence of microangiopathic organ lesions as assessed by an established standard battery of clinical tests, whereas the other 25 patients had diabetes derived microvascular complications (dmc). Patients with macroangiopathy were ruled out. Platelet activation was evaluated by flow cytometric detection of four activation-dependent platelet surface markers (lysosomal GP53, thrombospondin, P-selectin and ligand-induced binding site-1 of GPIIb-IIIa). A higher percentage of thrombospondin-positive platelets was detected in the IDDM patients without complications: 8.6 +/- 0.9% (0) vs 6.1 +/- 0.4% (c) vs 5.4 +/- 0.4% (dmc), P < 0.05, respectively. A decrease in GP53-, P-selectin-, and LIBS-1-positive platelets was observed in the IDDM group with dmc: for GP53 17.4 +/- 1.0% (dmc) vs 23.4 +/- 1.0% (c), P < 0.05; for P-selectin 5.5 +/- 0.6% (dmc) vs 8.0+/-0.7% (c), P < 0.01 and for LIBS-1 8.3 +/- 0.9% (dmc) vs 15.8 +/- 1.3% (c), P < 0.01. No differences in these markers were found in controls and IDDM patients without complications. In addition, no correlations were found between the glucose metabolism and platelet activation. These findings indicate (i) that the platelet system is pre-activated in IDDM , and (ii) that an increased consumption of activated platelet may occur in the vessels of IDDM patients with diabetic microangiopathy.
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PMID:Platelet activation in diabetic microangiopathy. 1679 9

High oxygen tension is a major factor in the genesis of retinopathy of prematurity (ROP). However, clinical and experimental evidence suggests a significant role for high carbon dioxide (CO(2)) tension as well. Along these lines, although ischemia is often considered to be synonymous with an oxygen deficit, it is also associated with a concomitant local elevation of CO(2) that can lead to impaired developmental and ischemic neovascularization. The mechanisms by which hypercapnia induces retinal microvascular degeneration, a critical step which precedes the subsequent proliferative preretinal neovascularization, are not known. Nitrative stress has an important role in microvascular degeneration leading to ischemia in conditions such as ROP. Hypercapnia is a facilitator of nitration in vitro. We hereby present evidence that prolonged exposure to CO(2) impairs developmental retinal neovascularization through a mechanism involving increased endothelial nitric oxide synthase and induction of a nitrative stress; effects of hypercapnia are independent of its hyperaemic effects. Moreover, we demonstrate that an in vivo nitrative stress associated with retinal vasoobliteration results in nitration of arachidonic acids into trans-arachidonic acids (TAAs), which can act as mediators of nitrative stress by causing microvascular degeneration by inducing expression of the antiangiogenic factor thrombospondin-1. These recent findings establish a previously unexplored means by which hypercapnia hinders efficient neovascularization and provide new insight into the molecular mechanisms of nitrative stress on microvascular injury involving TAA, and suggest new therapeutic avenues in the management of nitrative stress disorders such as in ischemic retinopathies (of prematurity and of diabetes) and encephalopathies.
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PMID:Hypercapnia- and trans-arachidonic acid-induced retinal microvascular degeneration: implications in the genesis of retinopathy of prematurity. 1681 71


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