Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Thiazolidinediones, represented by troglitazone, are insulin-sensitizing agents with proven efficacy for the treatment of type 2 diabetes. Exercise is also recommended for patients with type 2 diabetes because it both stimulates glucose uptake directly and it increases insulin sensitivity following exercise. The purpose of this study was to investigate the effects of troglitazone combined with exercise on 2-deoxyglucose (2DG) uptake in both the epitrochlearis and soleus muscle of Balb-c mice. Acute, 1-h treatment with troglitazone (10 or 20 microM), in the presence or absence of insulin, had no effect on 2DG uptake in either muscle. Chronic treatment with troglitazone by feeding enhanced the insulin sensitivity and responsiveness of 2DG uptake primarily in the epitrochlearis. Direct electrical stimulation of in situ muscle was used to model exercise while the contralateral muscle was used as the unexercised control. This model mimicked exercise in that glycogen was depleted, immediate 2DG uptake was enhanced, and there was a post-exercise increase in insulin sensitivity. Troglitazone feeding had no effect on 2DG uptake in the soleus when measured immediately after electrical stimultion. However, 2DG uptake in the unstimulated epitrochlearis from troglitazone-fed mice was elevated when measured immediately after removal such that no additional effects of the electrical stimulation were measured. We found that the insulin-sensitizing effect of troglitazone was not additive to the insulin-sensitizing effect of exercise, which suggests that troglitazone and exercise share similar pathways. A unique finding in this study was the differential response to troglitazone between the epitrochlearis (fast twitch) and the soleus (slow twitch) muscle types. Possible mechanisms are discussed.
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PMID:Combined effects of troglitazone and muscle contraction on insulin sensitization in Balb-c mouse muscle. 1136 54

Troglitazone is a thiazolidinedione with insulin-sensitizing activities when administered to humans or animals with type 2 diabetes mellitus. It has been shown to have numerous desirable metabolic effects on glucose and lipid metabolism. A major adverse effect of troglitazone is the development of hepatotoxicity. In early clinical trials, elevations of serum aminotransferases (> 3 times upper normal limit) occurred in 48 of 2510 (1.9%) subjects receiving troglitazone. In December 1997 and again in August 1998, the United States Food and Drug Administration issued stronger warnings after getting reports of more than a hundred cases of liver damage, including liver failure requiring transplantation in three patients and death in another patient. Warner-Lambert Company announced on March 21, 2000 that it is voluntarily discontinuing the sale of Rezulin (troglitazone) tablets for the treatment of type 2 diabetes. Media reports sensationalizing the risks, associated with Rezulin therapy had created an environment in which patients and physicians were simply unable to make well-informed decisions regarding the safety and efficacy of Rezulin. Under these circumstances, and after discussions with the FDA, the company decided it was in the best interests of patients to discontinue marketing Rezulin. Concerns about the hepatotoxicity of troglitazone led the Medicine Control Agency of the United Kingdom to request voluntary withdrawal of the drug from the UK in December 1997.
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PMID:Case of the month. Hepatic and renal failure in a patient taking troglitazone and metformin. 1145 55

Thiazolidinediones are a powerful and clinically important new class of oral antidiabetic agents that act by improving insulin sensitivity. Troglitazone is the prototype drug in this class but was withdrawn from the market in March 2000 due to its association with idiosyncratic hepatotoxicity. Currently two thiazolidinediones, rosiglitazone and pioglitazone, are U.S. Food and Drug Administration (FDA) approved for treatment of type 2 diabetes. These agents bind to and activate peroxisome proliferator-activator receptor gamma (PPAR-gamma) and work by altering the expression of genes involved in glucose uptake, glucose disposal, and lipid metabolism. The drugs differ in receptor binding and potency due to differences in their side chain moieties. These agents are rapidly absorbed from the gastrointestinal tract and are metabolized mainly in the liver. Rosiglitazone is FDA approved for monotherapy and for use in combination therapy with metformin or sulfonylureas. Pioglitazone is FDA approved for monotherapy as well as for use in combination therapy with metformin, insulin, or sulfonylureas. These drugs may also cause significant changes in plasma lipid concentrations, and improved insulin sensitivity may improve ovulatory function and fertility in women with polycystic ovary syndrome. The most serious side effect of the thiazolidinediones is hepatotoxicity. Although rosiglitazone and pioglitazone were not associated with hepatotoxicity in premarketing clinical trials, there were two recent case reports of idiosyncratic hepatotoxicity in patients treated with rosiglitazone. In addition, these agents may be associated with edema and some hematological changes. The purpose of this review is to provide an overview of the two currently approved thiazolidinediones and to suggest an approach for their safe and rational use.
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PMID:Thiazolidinediones: a comparative review of approved uses. 1146 45

Troglitazone is effective in approximately 50% in patients with type 2 diabetes (NIDDM). In this study, we investigated the relations between serum leptin levels and clinical efficacy of troglitazone. Forty-five type 2 diabetic patients (23 men and 22 women) from our outpatient clinic were treated with troglitazone 400 mg daily for 12 weeks. Fasting plasma glucose (FPG), HbA1c, body weight, serum insulin and leptin concentrations were measured before and after troglitazone treatment. After 12 weeks of troglitazone treatment, FPG (before versus after, 179+/-33 vs. 138+/-26 mg/dl, mean+/-SD), HbA1c (7.8+/-1.3 vs. 6.9+/-1.0%), IRI (8.3+/-4.3 vs. 6.3+/-3.4 microU/ml) and HOMA-R index (homeostasis model assessment of insulin resistance) (3.8+/-2.4 vs. 2.2+/-1.3) decreased significantly, while body mass index (BMI) slightly increased (26.3+/-3.5 vs. 26.6+/- 3.6 kg/m(2)), and serum leptin remained unchanged (8.5+/-7.2 vs. 9.1+/-8.7 ng/ml). Reduction in FPG (DeltaFPG) after troglitazone treatment were correlated with reduction in HOMA-R (DeltaHOMA-R) (r=0.721, P<0.0001). DeltaFPG was correlated with serum leptin (r=0.441, P<0.01), HOMA-R (r=0.460, P<0.01) and FPG (r=-0.781, P<0.0001) at baseline, but not with BMI and serum IRI at baseline. Furthermore, serum leptin at baseline was significantly correlated with DeltaHOMA-R (r=0.634, P<0.01). Leptin concentration before treatment therefore, can be used as an predictor for clinical efficacy of troglitazone in patients with type 2 diabetes.
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PMID:Serum leptin level as an indicator to predict the clinical efficacy of troglitazone in patients with type 2 diabetes mellitus. 1148 31

The discovery of a new class of oral antidiabetic drugs was stimulated by difficulties with the treatment currently available for patients with type 2 diabetes mellitus. Thiazolidinediones can lower blood glucose values due to their special insulin-sensitiser effect. In this way, these drugs seem to be very effective in the treatment of type 2 diabetic patients with characteristics of metabolic syndrome. The intracellular action caused by thiazolidinediones differs markedly from that of other oral antidiabetic drugs available. Apart from antihyperglycaemic effect, thiazolidinediones have further beneficial effects in experimental diabetes which require corroboration by clinical studies. Troglitazone was the first drug which reached the market. Unfortunately, this drug was withdrawn soon due to its hepatotoxicity. Rosiglitazone proved to be much safer in clinical studies. Pioglitazone is being tested nowadays in clinical studies. Thiazolidinediones have been already listed among oral antidiabetic drugs in international therapeutical guidelines. Nevertheless, further clinical studies and experiences are needed to determine the final exact indication of thiazolidinediones for the treatment of type 2 diabetic patients.
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PMID:[Thiazolidinediones--a new class of oral antidiabetic drugs]. 1149 46

Thiazolidinediones, insulin-sensitizing agents, have been reported to increase glucose uptake along with the expression of glucose transporters in adipocytes and cardiomyocytes. Recently, we have further suggested that the translocation of GLUT4 is stimulated by thiazolidinediones in L6 myocytes. However, the direct effects of thiazolidinediones on translocation of glucose transporters have not yet been determined. In this study, using hemagglutinin epitope-tagged GLUT4 (GLUT4-HA), we provide direct evidence of the effect of troglitazone on the translocation of GLUT4 in rat epididymal adipocytes. Primary cultures of rat adipocytes were transiently transfected with GLUT4-HA and overexpressed eightfold compared with endogenous GLUT4 in transfected cells. A total of 24 h of treatment with troglitazone (10(-4) mol/l) increased the cell surface level of GLUT4-HA by 1.5 +/- 0.03-fold (P < 0.01) without changing the total amount of GLUT4-HA, whereas it increased the protein level of endogenous GLUT4 (1.4-fold) without changing that of GLUT1. Thus, the direct effect on the translocation can be detected apart from the increase in endogenous GLUT4 content using GLUT4-HA. Troglitazone not only increased the translocation of GLUT4-HA on the cell surface in the basal state but also caused a leftward shift in the dose-response relations between GLUT4-HA translocation and insulin concentration in the medium (ED(50): from approximately 0.1 to 0.03 nmol/l). These effects may partly contribute to the antidiabetic activity of troglitazone in patients with obesity and type 2 diabetes.
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PMID:Troglitazone not only increases GLUT4 but also induces its translocation in rat adipocytes. 1157 11

A thiazolidinedione compound, pioglitazone(Actos) has been used for type 2 diabetes. It ameliorates the insulin resistance of type 2 diabetes and improves hyperglycemia, resulting in the decrease of HbA1c. Pioglitazone activates the nuclear peroxisome proliferator activated receptor-gamma(PPAR gamma) which leads to increased transcription of various proteins. These proteins enhance insulin action. Another thiazolidinedione(troglitazone, Noscal) has been prohibited for description due to its idiosyncratic hepatic toxicity. Actos has never been reported to induce hepatotoxicity but has shown side effects of edema, dysfunction of the liver, and anemia, etc. Nevertheless we would like to recommend the use of Actos for type 2 diabetes mellitus in monotherapy or combination therapy with other antidiabetic drugs because of its benefits.
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PMID:[Evaluation of a thiazolidinedione compound as a new antidiabetic drug]. 1171 10

Troglitazone is a peroxisome proliferator-activated receptor-gamma agonist that has been shown to halt mesangium expansion in experimental models of type 2 diabetes mellitus and to act directly on rat mesangial cells. Because glutamine serves as the precursor for cellular biosynthetic processes, we asked whether troglitazone would inhibit mesangial cell glutamine metabolism under these conditions. Confluent monolayers of rat mesangial cells were incubated in RPMI medium in the presence of troglitazone or vehicle (DMSO). Troglitazone effected a dose-dependent reduction in glutamine utilization and in alanine formation, associated with a decrease in monolayer collagen-glycosaminoglycan content. Despite the reduced glutamine uptake, ammonium formation did not decrease, consistent with increased glutamate flux through the deamination pathway. Assayable activity of the alanine aminotransferase decreased by 63%, whereas assayable glutamate dehydrogenase remained unchanged. In control monolayers, the sum of ammonium plus alanine plus glutamate nitrogen released accounted for <75% of the glutamine nitrogen uptake. In troglitazone-treated monolayers, all of the glutamine nitrogen taken up could be accounted for as ammonium nitrogen released into the medium. These results are consonant with troglitazone reducing glutamine metabolism and specifically the transamination pathway in rat mesangial cells associated with a reduction in collagen-glycosaminoglycan content.
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PMID:Troglitazone inhibits glutamine metabolism in rat mesangial cells. 1173 5

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

Type 2 diabetes mellitus is characterized by insulin-resistant glucose and lipid metabolism. Thiazolidinediones (TZDs) enhance insulin-mediated glucose disposal, but their effects on lipid kinetics are unknown. We evaluated the effect of the TZD troglitazone on insulin-mediated suppression of fatty acid and glycerol kinetics. Eight obese men and women (body mass index [BMI], 34.1 +/- 2.3 kg/m(2)) with insulin-requiring type 2 diabetes were studied before and after 12 weeks of troglitazone therapy (400 mg/d). Whole-body and abdominal fat masses were determined by dual-energy x-ray absorptiometry and magnetic resonance imaging, respectively. Palmitate and glycerol rates of appearance (R(a)) into plasma were evaluated during a 3-stage hyperinsulinemic euglycemic clamp, which spanned the physiologic range of plasma insulin concentrations that regulate lipolysis. Troglitazone therapy did not alter body composition. Palmitate and glycerol R(a) decreased progressively during each stage of hyperinsulinemia (P <.001). Suppression of palmitate R(a) by insulin was greater after than before troglitazone therapy (P <.001), whereas glycerol R(a) was unchanged. These results demonstrate that TZDs increase insulin-mediated suppression of fatty acid release into plasma in obese subjects with type 2 diabetes mellitus, which may contribute to their metabolic benefits. However, TZD therapy did not affect whole-body glycerol R(a), possibly because of upregulation of lipoprotein lipase action on plasma triglycerides.
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PMID:Thiazolidinediones enhance insulin-mediated suppression of fatty acid flux in type 2 diabetes mellitus. 1183 43


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