Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Patients with diabetes have an increased prevalence of premature atherosclerotic vascular disease, and alterations in plasma coagulation proteins have been incriminated as a possible cause. The roles of hyperglycemia and hyperinsulinemia in the pathogenesis of these changes are unknown. To examine the effects of prolonged hyperglycemia and of selective hyperinsulinemia on the tissue factor pathway of blood coagulation, nine healthy young men were infused with glucose to maintain levels at 11.1 mmol/l (approximately 200 mg/dl) for 18-72 h (hyperglycemia-hyperinsulinemia group). Five normal men were infused with regular insulin to maintain levels comparable to that in the previous group (900 pmol/l, approximately 150 microU/ml) and with glucose to maintain levels at 5.6 mmol/l (approximately 100 mg/dl) (euglycemia-hyperinsulinemia group). Measured were plasma activated factor VII activity (FVIIa), FVII coagulant (FVIIC) activity, FVIII coagulant (FVIIIC) activity, tissue factor pathway inhibitor (TFPI) antigen, and thrombin markers; and serum glucose, insulin, and electrolytes. Plasma FVIIa, FVIIC, FVIIIC, and TFPI rose during hyperglycemic-hyperinsulinemia but not during euglycemic-hyperinsulinemia. Markers of thrombin generation rose transiently and inconsistently during hyperglycemia-hyperinsulinemia. We concluded that in normal subjects, hyperglycemia-hyperinsulinemia induced activation of the tissue factor pathway, reflected by increases in plasma FVIIa, FVIIC, and TFPI. This activation was independent of hyperinsulinemia, hypertriglyceridemia, and hyperosmolality. The elevations in plasma coagulation factors during hyperglycemia-hyperinsulinemia, characteristic of type 2 diabetes, may constitute a potential for enhanced thrombin generation and thrombosis when triggered by exposure of tissue factor, such as during arterial plaque rupture.
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PMID:Activation of the tissue factor pathway of blood coagulation during prolonged hyperglycemia in young healthy men. 1033 23

In this chapter, we summarize our studies on plasminogen activator inhibitor 1 (PAI-1), tissue factor, and transforming growth factor beta (TGF-beta) expression in obesity, using genetically obese mice as a model. These studies emphasize the key role played by the adipocyte, a cell whose numbers, size, and metabolic activity are grossly altered in obesity/NIDDM. They also implicate multiple cytokines, hormones, and growth factors in the abnormal expression of these and perhaps other hemostatic genes by adipocytes in obesity/NIDDM. These studies demonstrate that tumor necrosis factor alpha (TNF-alpha) plays a central role in the expression of hemostatic genes in this disorder.
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PMID:The fat mouse. A powerful genetic model to study hemostatic gene expression in obesity/NIDDM. 1086 47

Peroxisome Proliferator-Activated Receptors (PPARs) have been discovered 10 years ago as being orphan nuclear receptors. Three subtypes of PPAR(s) have been identified (alpha, gamma, delta). Activated PPARs bind to Peroxisome Proliferator Response Element which are localized in numerous gene promoters. PPAR(s) are activated by fatty acids and eicosanoids. PPAR-alpha activators (fibrates) improve plasma lipid levels and decrease CHD risk in patients with low HDL-cholesterol (gemfibrozil). They also decrease atherogenesis (fenofibrate) in patients with type 2 diabetes. These drugs decrease atherogenic lipoprotein plasma levels such as VLDL and small dense LDL and they increase anti-atherogenic HDL, through increases in apo A-I and apo A-II synthesis. Furthermore, they induce overexpression in HDL receptors, such as SR-BI/CLA-1 and ABCA1 which are capable to increase cellular cholesterol efflux. Therefore, fibrates would reduce atherogenesis through their capacity to increase the "reverse cholesterol transport". Moreover, they would reduce vascular inflammation by repressing NF-kappa B and AP-I transcriptional activity and they would reduce thrombosis risk by inhibiting tissue factor and fibrinogen synthesis.
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PMID:[New concepts on the mechanism of action of fibrates and therapeutic prospectives in atherosclerosis]. 1147 70

Monoclonal antibody therapies have conducted to not only hematologic malignancies but also disorders of hemostasis and coagulation. This article describes the recent advances of monoclonal antibody therapy for bleeding disorders such as idiopathic thrombocytopenic purpura(ITP), hemophilia A, disseminated intravascular coagulation(DIC), and thrombosis. Rituximab, chimeric anti-CD20 monoclonal antibody treatment has a valuable effect in the patients with ITP, and clinical trials using anti-CD40 ligand monoclonal antibody for ITP are underway. Anti-CD40 ligand monoclonal antibody can be an alternative therapy for hemophilia A patients with inhibitors to factor VIII. In thrombosis, anti-tissue factor monoclonal antibody and anti-factor IX(a) monoclonal antibody were established as novel anticoagulant regents. Plasminogen activator inhibitor-1(PAI-1) increases in endotoxin-induced DIC and many thrombotic diseases such as myocardial infarction, type 2 diabetes mellitus, and hyperlipidemia. Anti-PAI-1 monoclonal antibody reduced fibrin deposition in DIC mouse model. Treatment of these monoclonal antibodies for the molecules regulating coagulation-fibrinolysis system may be utilized for acute coronary syndrome and venous thrombosis.
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PMID:[Monoclonal antibody therapy for disorders of hemostasis and coagulation]. 1190 68

The aim of the study was to determine the correlation between the expression of tissue factor (TF) and the receptor for advanced glycation end products (RAGEs) and vascular complications in patients with longstanding uncontrolled type 2 diabetes (T2D). TF and RAGE mRNAs as well as TF antigen and activity were investigated in 21 T2D patients with and without vascular complications. mRNA expression was assessed by reverse transcriptase-polymerase chain reaction (RT-PCR) in nonstimulated and advanced glycation end product (AGE) albumin-stimulated peripheral blood mononuclear cells (PBMCs). TF antigen expression was determined by enzyme-linked immunosorbent assay (ELISA) and TF activity by a modified prothrombin time assay. Basal RAGE mRNA expression was 0.2 +/- 0.06 in patients with complications and 0.05 +/- 0.06 patients without complications (P =.004). Stimulation did not cause any further increase in either group. TF mRNA was 0.58 +/- 0.29 in patients with complications and 0.21 +/- 0.18 in patients without complications (P =.003). Stimulation resulted in a nonsignificant increase in both groups. Basal TF activity (U/10(6) PBMCs) was 18.4 +/- 13.2 in patients with complications and 6.96 +/- 5.2 in patients without complications (P =.003). It increased 3-fold in both groups after stimulation (P =.001). TF antigen (pg/10(6) PBMCs) was 33.7 +/- 28.6 in patients with complications, 10.4 +/- 7.8 in patients without complications (P =.02). Stimulation tripled TF antigen in both groups of patients (P =.001). The RAGE/TF axis is up-regulated in T2D patients with vascular complications as compared to patients without complications. This suggests a role for this axis in the pathogenesis of vascular complications in T2D.
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PMID:Increased expression of tissue factor and receptor for advanced glycation end products in peripheral blood mononuclear cells of patients with type 2 diabetes mellitus with vascular complications. 1520 87

Previous studies demonstrated that induction of diabetes with streptozotocin (stz) accelerated atherosclerosis in hyperlipidemic apo E null (-/-) mice. Blockade of the Receptor for Advanced Glycation Endproducts (RAGE) in those animals suppressed acceleration of atherosclerotic lesion area, in a manner independent of changes in levels of glucose, insulin or lipids. In the present studies, we extended these concepts to a murine model of type 2 diabetes, and bred apo E -/- mice into the db/db background. Db/db mice are a model of obesity and insulin resistance-mediated hyperglycemia. Compared to apo E -/- m/db (non-diabetic) mice, apo E -/- db/db (diabetic) mice displayed accelerated atherosclerosis at the aortic sinus. Consistent with an important role for RAGE in this process, administration of soluble (s) RAGE, the extracellular ligand-binding domain of RAGE, resulted in significantly reduced atherosclerotic lesion area in a glycemia- and lipid-independent manner. In parallel, apo E -/- db/db mice displayed RAGE-dependent enhanced expression of Vascular Cell Adhesion Molecule-1, tissue factor and matrix metalloproteinase (MMP)-9 antigen/activity in aortae compared to non-diabetic animals. In addition, consistent with the premise that upregulation of RAGE ligands and RAGE occurs even in the non-diabetic, hyperlipidemic state, albeit to lesser degrees than in diabetes, administration of sRAGE to apo E -/- m/db mice resulted in decreased atherosclerotic lesion area at the aortic sinus. Taken together, these findings establish a new murine model for the study of atherosclerosis in type 2 diabetes and highlight important roles for RAGE in proatherogenic mechanisms in hyperglycemia triggered by insulin resistance.
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PMID:RAGE modulates vascular inflammation and atherosclerosis in a murine model of type 2 diabetes. 1607 70

Approximately 70% of the patients admitted to the hospital with an acute myocardial infarction have type 2 diabetes mellitus or impaired glucose tolerance (IGT). Insulin resistance with compensatory hyperinsulinemia is a feature that is common to both type 2 diabetes and IGT. Increased risk of coronary heart disease (CHD) in conditions characterized by insulin resistance has been associated with hyperinsulinemia and hyperproinsulinemia. As indicated in several studies, there exists a connection between postprandial hyperinsulinemia/hyperglycemia and activation of the coagulation cascade. The recent finding that tissue factor (TF) is produced and secreted by the alpha and beta cells of the islets of Langerhans maybe the link between these 2 conditions. The local production of TF in human islets and excretion of microparticle-bound or alternatively spliced soluble TF in response to prolonged periods of hyperglycemia provide a tentative explanation for the activation of the TF pathway during hyperinsulinemia. Here we review the field and set forth a hypothesis that links TF expression in the islets of Langerhans to the increased risk of CHD.
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PMID:The recent finding that tissue factor is produced by the pancreatic islets constitutes a possible link between insulin resistance and cardiovascular disease. 1628 Jun 48

Tissue factor, the main initiator of blood coagulation, is shed into plasma by blood cells and endothelium. While studying such circulating plasma tissue factor with a commercially available immunoassay, we found unsatisfactory results and therefore developed a new and highly sensitive enzyme-linked immunosorbent assay (ELISA). High-affinity monoclonal antibodies raised against recombinant soluble tissue factor were used and the new assay had a detection limit of 40 fmol/L, approximately six-fold lower than existing assays. Normal ranges in 20 healthy donors were established in serum and in citrated EDTA and heparinized plasma. Tissue factor was also measured in three successive plasma samples from 43 patients with type 2 diabetes mellitus. In citrated plasma from healthy donors, tissue factor concentrations were 2.5 (1.0-9.3) pmol/L (median with range) and were not significantly different in diabetics. With a commercially available immunoassay, seven plasma samples were below the detection limit. Use of the new assay reduced intra-individual variation in diabetics from 49% to 14% and we conclude that high-affinity antibodies may markedly improve immunoassay performance.
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PMID:High-affinity antibodies in a new immunoassay for plasma tissue factor: reduction in apparent intra-individual variation. 1630 78

Individuals with chronically elevated glucose and/or insulin levels, i.e., most patients with type 2 diabetes, have accelerated atherosclerosis and are prone to acute vascular events. We have tested the hypothesis that hyperglycemia and/or hyperinsulinemia singly or combined may increase tissue factor, the primary initiator of blood coagulation. We have determined changes in circulating tissue factor procoagulant activity (PCA) and other procoagulation proteins in healthy volunteers exposed to 24 h of selective hyperinsulinemia, selective hyperglycemia, or combined hyperinsulinemia and hyperglycemia. Combined elevations of plasma insulin and glucose levels for 24 h produced a ninefold increase in tissue factor PCA, which was associated with an increase in monocyte tissue factor protein (flow cytometry) and mRNA (RT-PCR), increases in plasma thrombin-antithrombin complexes, prothrombin fragment 1.2, factor VIII coagulant activity, and platelet CD40 ligand as well as decreases in factor VIIa, factor VII coagulant activities, and factor VII antigen. Effects of selective hyperinsulinemia and selective hyperglycemia were less striking but appeared to be additive. We conclude that hyperinsulinemia and hyperglycemia but particularly the combination of both create a prothrombotic state and in addition may be proinflammatory and proatherogenic because of the proinflammatory actions of CD40 ligand and tissue factor.
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PMID:Effects of hyperglycemia and hyperinsulinemia on circulating tissue factor procoagulant activity and platelet CD40 ligand. 1638 Apr 94

Tissue factor (TF) plays a pivotal role in thrombus formation. Statins and angiotensin converting enzyme inhibitors attenuate expression of TF by distinct mechanism. Therefore, we hypothesized that combined therapy with simvastatin and ramipril may have additive beneficial anti-atherogenic effects to lower TF activity when compared with either drug alone. This was a randomized, double-blind, placebo-controlled cross-over trial with three treatment arms (each 2 months) and two washout periods (each 2 months). Fifty patients with type 2 diabetes were given simvastatin 20 mg and placebo, simvastatin 20 mg and ramipril 10 mg, or ramipril 10 mg and placebo daily during each treatment period. Simvastatin and ramipril monotherapy tended to reduce TF activity (0.53 to 0.46 nM, P=0.056; 0.54 to 0.50 nM, P=0.167, respectively) while combined therapy had a significant effect (0.64 to 0.43 nM, P<0.001). All three therapies significantly reduced prothrombin fragment 1+2 (F1+2) levels from their respective baselines (P=0.037, P<0.001, and P=0.057, respectively). Combined therapy significantly reduced TF activity and F1+2 levels to a greater extent than either simvastatin or ramipril alone (P=0.029 and P=0.040 by ANOVA, respectively). Percent changes in TF activity and percent changes in F1+2 levels were significantly correlated. All three therapies reduced CD40 ligand levels from their respective baselines (P=0.098, P<0.001, and P=0.002, respectively) with no significant differences among these three therapies (P=0.204 by ANOVA). Ramipril combined with simvastatin significantly reduces plasma TF activity and F1+2 levels to a greater extent than monotherapy with either drug in patients with type 2 diabetes.
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PMID:Combined therapy with ramipril and simvastatin has beneficial additive effects on tissue factor activity and prothrombin fragment 1+2 in patients with type 2 diabetes. 1696 76


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