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)

The Authors studied the behaviour of some prothrombotic (fibrinogen, factor VII, antithrombin III and tissue plasminogen activator) and prethrombotic (beta thromboglobulin, D-dimer) markers in a group of obese subjects in relation to various physiopathological parameters. The series consist of 93 obese subjects (29 m, 64 f, mean age 55 +/- 6 yrs, BMI 33 +/- 1), of whom 62 suffering from type 2 diabetes in good metabolic control obtained by oral hypoglycemic (42 cases) or insulin (20 cases) treatment. For each subject the Authors determined the plasmatic levels of glucose, total cholesterol, triglycerides (enzymatic method, Boehringer kits), fibrinogen (coagulometric method, Organon kit), factor VII (chromogenic method, IL kit), antithrombin III (chromogenic method, IL kit), tissue plasminogen, beta thromboglobulin and D-dimer (ELISA method, Boehringer kits). The results were examined in relation to sex, age, overweight degree, waist/thigh ratio, total cholesterol, triglycerides and, for diabetics, to the therapeutical treatment. The fibrinogen plasma levels proved statistically (0.05) increased proportionally to the overweight degree (BMI over 35), cholesterol levels (over 250 mg%) and age (51-65 yrs); factor VII showed a significant increase (0.05) related to the cholesterol levels, the overweight degree and, surprisingly, to female sex; as regards antithrombin III, its sharp reduction was related with ageing and with the "gynoid type" waist/thigh ratio; tissue plasminogen activator showed a statistically significant reduction (0.05) in the group with older age (over 65 yrs); the beta thromboglobulin levels were obviously increased (0.05) in the hypercholesterolemic and hypertriglyceridemic subjects (over 250 mg%), the D-dimer values increased proportionally with age (0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Prothrombotic and prethrombotic markers in obese diabetic and non-diabetic subjects]. 183 Mar 76

The fibrinolytic resistance of platelet-rich arterial thrombi received much attention. Clot lysis method was used to assess the in vitro fibrinolytic properties in diabetes mellitus. Platelet rich (PRP) clots were formed by addition of thrombin, and lysis was induced by tissue-plasminogen-activator. The coagulation and lysis was followed by the light scattering properties. A special pattern of good initial lysis followed by a second clotting phase was observed in more than half of insulin dependent diabetic patients, while a similar pattern of clot-lysis was only occasionally found in non-insulin dependent diabetes mellitus or in the healthy control group. Following the thrombin activation of washed, gel-filtered platelets, the supernatants possessed an inhibitory action on in vitro lysis of PPP-clots. This suppression was remarkably stronger in IDDM, along with the highest PAI-1 activity concentration ratio of the platelet lysates, compared to plasmatic levels. The relation of this special type of PRP clot-lysis resistance to diabetic vascular complications needs further clarifying and investigations.
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PMID:Altered lysis resistance of platelet-rich clots in patients with insulin-dependent diabetes mellitus. 749 4

Four group of age- and sex-matched patients were studied: 1. nondiabetic subjects (n = 20) with a body mass index (BMI) < 25 Kg/m2 (lean control subjects); 2. obese non diabetic subjects (n = 22) with a BMI > 30 Kg/m2 (obese control subjects); 3. lean NIDDM subjects (n = 22); and 4. obese NIDDM subjects (n = 24). We determined: total cholesterol, triglycerides, HDL-cholesterol, blood glucose, Apolipoproteins A1 and B, insulin, Lp(a), Factor VII, fibrinogen, plasminogen, t-PA(Ag) pre and post venous occlusion (VO) and PAI activity pre and post VO. In addition to metabolic abnormalities obese non diabetic subjects and lean and obese NIDDM patients displayed significantly higher levels of fibrinogen, Factor VII, plasminogen, PAI pre and post VO and tPA(Ag) pre VO and significantly lower levels of t-PA(Ag) post VO. Our findings demonstrate an impairment of the haemostatic and fibrinolytic mechanisms which may be a key role in the pathogenesis of atherosclerotic vascular complications in obesity and in NIDDM.
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PMID:Blood coagulation and fibrinolysis in obese NIDDM patients. 764 83

Non-insulin-dependent diabetes mellitus (NIDDM) is associated with an increased risk of macro- and microvascular degenerative complications. Gliclazide is a second generation sulfonylurea that is widely used in the treatment of type II diabetes mellitus. Its hypoglycemic activity is well documented. In addition to its metabolic effects, gliclazide has beneficial effects on the hemobiological abnormalities of NIDDM. These effects are mediated by the azabicyclo-octyl ring grafted on to its aulfonylurea core. Numerous studies have demonstrated that gliclazide reduces platelet hyperadhesion and platelet hyperaggregability. These actions have been extensively confirmed in diabetic patients over periods of up to 3 years. With regard to platelet functions, several groups have demonstrated a significant reduction in serum and intraplatelet beta thromboglobulin and thromboxane B2. In animal models, in-vitro and in-vivo gliclazide stimulates endothelial prostacyclin synthesis. The beneficial effects of the compound on thromboxane/prostacyclin balance have been recently confirmed in type II diabetic patients after a 3-month treatment period. Concerning fibrinolysis, gliclazide restores low plasminogen activity to normal in NIDDM patients previously treated with first-generation sulfonyl-ureas. Gliclazide increases fibrinolytic potential by increasing endothelial cell tissue plasminogen activator and pre-kallikrein activity. More recent studies suggest that gliclazide may have effects on fibrin network structure, rendering the fibrin more amenable to fibrinolysis. Finally, it has been shown that gliclazide has a potent free-radical-scavenging activity in vitro. This property has been recently confirmed in vivo in type II diabetic patients and may suggest that platelet reactivity and oxidative stress are related in these patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hemobiological properties of gliclazide. 783

Lipoprotein(a) (Lp(a)) consists of a unique apolipoprotein, apolipoprotein(a), (apo(a)) linked by a disulphide bridge to apolipoprotein B of low density lipoprotein (LDL). Apo(a) is homologous with plasminogen and exhibits genetic polymorphism with the commoner phenotypes due to larger forms being associated with lower plasma levels and the less common phenotypes associated with smaller forms and higher plasma levels. The later are more common in patients with macrovascular disease. In a study of 6448 patients with established coronary heart disease we found that 43% had apo(a) levels above 300 units/litre and 10% had levels above 1000 units/litre and a geometric mean of 201 units/litre in contrast to 140 normal controls in whom 25% exceeded 300 units/litre, 1% exceeded 1000 units/litre and the geometric mean was 107 units/litre. Amongst patients with cholesterol levels < 5.5 mmol/L undergoing coronary artery surgery were patients with low HDL levels and raised apo(a) levels who would not be identified in screening focusing primarily on total cholesterol. In patients with both insulin dependent and non insulin dependent diabetes mellitus those with microalbuminuria or albuminuria (known to be at high risk for macrovascular disease) had apo(a) levels comparable to non diabetic patients with coronary artery disease while diabetic patients without microalbuminuria had normal levels of apo(a). It is likely that apo(a) has a role in the accelerated macrovascular disease in diabetic patients with renal disease.
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PMID:Apolipoprotein(a) and atherogenesis. 826 49

The plasma levels of blood coagulation and fibrinolytic factors and the serum levels of lipids were measured in 62 subjects (22 normolipidemia and 40 hyperlipidemia) to investigate whether hyperlipidemia may affect the hemostatic system. Prothrombin, factors VII, IX and X were elevated in hyperlipidemic patients. The positive correlations were found between factors VII, IX and X, and triglyceride. The significant correlations were also found between VII and IX, and total cholesterol. Plasma levels of thrombin-antithrombin III complex (TAT), which reflects activation of coagulation system, were slightly but significantly higher in type IIb hyperlipidemia, although they were within normal range. Plasma levels of active plasminogen activator inhibitor (PAI) in type IIb and IV were significantly higher than in normals. A significant correlation was found between active PAI and triglyceride (r = 0.76, p < 0.0001). After the administration of fat emulsion to 18 patients with various diseases, which induced artificial hypertriglyceridemia, PAI levels as well as triglyceride levels significantly increased. These results suggest that hypertriglyceridemia may increase the synthesis and/or release of PAI, inducing a hypofibrinolytic condition, which could lead to thrombosis. It has been established that lipoprotein (a) [Lp(a)], which has a molecular structure homology to plasminogen, impairs fibrinolysis by its competitive inhibition of adsorption of plasminogen to vascular endothelial surface and/or fibrin. We assayed plasma levels of Lp(a) and parameters of blood coagulation and fibrinolysis in 168 patients with type II diabetes mellitus and 48 normal controls. In the diabetics, the levels of Lp(a) as well as levels of tissue-type plasminogen activator (t-PA) antigen and PAI activity were significantly higher than normal controls. Furthermore, it was shown that Lp(a) had a weakly negative correlation with t-PA antigen in the diabetics. These results suggest that an elevated level of Lp(a) may decrease release of t-PA, although the underlying mechanism remains unsolved.
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PMID:Hyperlipidemia and hemostatic system. 922 30

Reduced activity of the endogenous fibrinolytic system contributes to intramural deposition of microthrombi in atherogenesis and to intraluminal deposition of thrombi leading to acute complications of atherosclerosis such as acute coronary syndromes. Endogenous fibrinolytic activity is predominantly regulated by the plasminogen activator inhibitor type 1 (PAI-1). Increased activity of PAI-1 leading to reduced endogenous fibrinolytic activity has been identified as an important independent risk factor for cardiovascular disease. Vascular endothelial cells form a barrier between the circulating blood with its dynamic balance between ongoing thrombosis and fibrinolysis and the subendothelial layers of the vascular wall with their prothrombotic activity. In addition, endothelial cells synthesize and secrete substantial amounts of plasminogen activators and their inhibitor PAI-1. Thus, endothelium plays an important role in the regulation of endogenous fibrinolysis. After describing the components of the endogenous fibrinolytic system and its interactions, this review focuses on the impact on endogenous fibrinolysis by the renin angiotensin system, the kallikrein kinin system, and type 2 diabetes mellitus. Investigations using transgenic and knock-out animal models--the results of which are also summarized--have improved our understanding of the interaction between endogenous fibrinolysis and endothelium. In each section of the review therapeutic implications and potentials are discussed.
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PMID:[Endothelium and endogenous fibrinolysis]. 1079 78

The effects of troglitazone 400 or 600 mg/d on the glycemic control, very-low-density lipoprotein (VLDL), and high-density lipoprotein (HDL) subclass concentrations and plasminogen-activator inhibitor 1 (PAI-1) levels were assessed in patients with type 2 diabetes that had not been controlled with dietary treatment. This was a multicenter, open-label, parallel-groups study. It included a run-in 4-week diet period and a 24-week randomized treatment. Fifty one patients received 400 mg/d and 55 patients 600 mg. The mean HbA(1c) concentration at the end of the study was similar for both doses. Troglitazone, regardless of dose, significantly improved insulin sensitivity assessed by the homeostasis model (HOMA). PAI-1 levels were significantly decreased in both groups by 13%. Higher HDL cholesterol concentrations and lower triglycerides levels were observed at the end of treatment. Triglyceride contents were reduced only in the lighter VLDL1. The change in HDL cholesterol concentration resulted from a combination of increased HDL3 cholesterol and lower HDL2 cholesterol levels. No differences were found in the effects of both treatment groups on the evaluated parameters. Our data provide new information about the actions of the drug on the lipid profile. Troglitazone reduces triglyceride levels by lowering the triglycerides content of the VLDL1 particles and increases HDL cholesterol concentrations by increasing HDL3 cholesterol levels.
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PMID:Further insight on the hypoglycemic and nonhypoglycemic effects of troglitazone 400 or 600 mg/d: effects on the very-low-density and high-density lipoprotein particle distribution. 1178 71

Abdominal obesity has been linked to the development of insulin resistance and Type 2 diabetes mellitus (DM2). By surgical removal of visceral fat (VF) in a variety of rodent models, we prevented insulin resistance and glucose intolerance, establishing a cause-effect relationship between VF and the metabolic syndrome. To characterize the biological differences between visceral and peripheral fat depots, we obtained perirenal visceral (VF) and subcutaneous (SC) fat from 5 young rats. We extracted mRNA from the fat tissue and performed gene array hybridization using Affymetrix technology with a platform containing 9 000 genes. Out of the 1 660 genes that were expressed in fat tissue, 297 (17.9 %) genes show a two-fold or higher difference in their expression between the two tissues. We present the 20 genes whose expression is higher in VF fat (by 3 - 7 fold) and the 20 genes whose expression is higher in SC fat (by 3 - 150 fold), many of which are predominantly involved in glucose homeostasis, insulin action, and lipid metabolism. We confirmed the findings of gene array expression and quantified the changes in expression in VF of genes involved in insulin resistance (PPARgamma leptin) and its syndrome (angiotensinogen and plasminogen activating inhibitor-1, PAI-1) by real-time PCR (qRT-PCR) technology. Finally, we demonstrated increased expression of resistin in VF by around 12-fold and adiponectin by around 4-fold, peptides that were not part of the gene expression platform. These results indicate that visceral fat and subcutaneous fat are biologically distinct.
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PMID:Differential gene expression between visceral and subcutaneous fat depots. 1266 Aug 71

Plasminogen activator inhibitor-1 (PAI-1) is the major physiological inhibitor of urokinase-type and tissue-type plasminogen activators. It has gained special interest among clinicians because a number of pathological conditions, such as myocardial infarction, atherosclerosis, thrombosis, several types of cancer, and the metabolic syndrome, as well as type 2 diabetes mellitus, are associated with increased PAI-1 levels. Interestingly, a number of these diseases are also accompanied by oxidative stress and the enhanced production of reactive oxygen species or tissue hypoxia. This article tries to summarize some aspects leading to enhanced PAI-1 production under oxidative stress or hypoxia.
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PMID:Oxidative stress and hypoxia: implications for plasminogen activator inhibitor-1 expression. 1524 48


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