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)

Leptin, the product of the ob gene, is a hormone secreted by adipocytes. Animals with mutations in the ob gene are obese and lose weight when given leptin, but little is known about the physiological role of leptin in humans. Obese subjects have higher concentrations of leptin than lean subjects, the strongest correlation being with percentage body fat. Thus, it appears that obese subjects are resistant to the effects of endogenously secreted leptin. We have also shown that insulin stimulates leptin production, chronically but not acutely, presumably through its trophic effect on adipocytes. Troglitazone is an insulin-sensitizing thiazolidinedione, which improves hepatic and skeletal muscle insulin resistance in NIDDM and obesity. This study was undertaken to investigate the effects of troglitazone on leptin production in vitro and in vivo. In the presence and absence of 100 nmol/l insulin and 10 umol/l troglitazone, 72-h primary cultures of isolated abdominal adipocytes were studied. Insulin led to an almost twofold increase in leptin in vitro, and this increase was completely abolished by coincubation with troglitazone. Incubation with troglitazone alone led to a 40% decrease in leptin production. In obese patients administered troglitazone 200 mg twice daily for 12 weeks, there was no significant change in fasting plasma leptin concentrations, despite a 40-50% reduction in fasting and postmeal plasma insulin concentrations. Troglitazone treatment led to a significant increase in insulin sensitivity, and there was a positive correlation between the change in insulin sensitivity and the change in plasma leptin concentration in these subjects. In conclusion, troglitazone treatment had no net effect on plasma leptin concentrations, possibly because of improvement in insulin sensitivity and reduction in plasma insulin concentrations.
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PMID:Effect of troglitazone on leptin production. Studies in vitro and in human subjects. 877 34

The effects of troglitazone, a novel thiazolidinedione, in non-insulin-dependent diabetic (NIDDM) patients were studied in a double-blind, parallel-group, placebo-controlled, dose-ranging trial. A total of 330 patients (63% male), mean age 57 years (range 39-72), with two fasting capillary blood glucose values > or = 7 and < or = 15 mmol/l (within 2.5 mmol/l of each other) were randomised to treatment with placebo or troglitazone at doses of 200, 400, 600 or 800 mg once daily, or 200 or 400 mg twice daily, for 12 weeks. Prior to the study, treatment had been with diet alone (38% patients) or with oral hypoglycaemic agents which were stopped 3-4 weeks before study treatment started. During treatment, HbA1c tended to rise in patients taking placebo (7.2-8.0%), but remained unchanged with all doses of troglitazone. After 12 weeks of treatment, HbA1c was significantly lower in the troglitazone-treated (mean 7.0-7.4%) compared to the placebo-treated (8.0%) patients (p = 0.055 to < 0.001), as was fasting serum glucose concentration (troglitazone, 9.3-11.0 mmol/l vs placebo, 12.9 mmol/l, p < 0.001). All doses of troglitazone were equally effective. Troglitazone also lowered fasting plasma insulin concentration, by 12-26% compared to placebo (p = 0.074 to < 0.001). Insulin sensitivity assessed by homeostasis model assessment (HOMA) was greater after 12 weeks of treatment in troglitazone-treated patients (troglitazone, 34.3-42.8% vs placebo, 29.9%, p < 0.05). In addition, serum triglyceride and non-esterified fatty acid concentrations were significantly lower and HDL cholesterol higher at troglitazone doses of 600 and 800 mg/day. LDL cholesterol increased at 400 and 600 mg doses only (from 4.3 and 3.9 mmol/l at baseline to 4.8 and 4.5 mmol/l, respectively at 12 weeks, p < 0.05), but not at doses of 800 mg once daily or 400 mg twice daily. LDL/HDL ratio did not change during treatment. All doses were well tolerated; incidence of adverse events in troglitazone-treated patients was no higher than in those treated with placebo. However, a tendency to reduced neutrophil counts was observed in patients taking the highest doses of troglitazone. We conclude that troglitazone is effective and well-tolerated and shows potential as a new therapeutic agent for the treatment of NIDDM.
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PMID:Troglitazone, an insulin action enhancer, improves metabolic control in NIDDM patients. Troglitazone Study Group. 878 66

We conducted a randomized placebo-controlled study to determine the effects of the thiazolidinedione compound troglitazone on whole-body insulin sensitivity (SI), pancreatic beta-cell function, and glucose tolerance in 42 Latino women with impaired glucose tolerance (IGT) and a history of gestational diabetes mellitus (GDM), characteristics that carry an 80% risk of developing NIDDM within 5 years. After baseline oral (OGTT) and intravenous (IVGTT) glucose tolerance testing, subjects were assigned to take placebo or 200 or 400 mg troglitazone daily for 12 weeks (14 subjects per treatment group). An OGTT and IVGTT were repeated during the 12th week of treatment. Five subjects failed to complete the trial for personal reasons, and medication compliance averaged 90% in the remaining subjects, none of whom experienced a serious adverse event. SI, calculated by minimal model analysis of IVGTT results, changed by only 4 +/- 14% during 12 weeks of placebo administration, but increased 40 +/- 22 and 88 +/- 22% above basal during treatment with 200 and 400 mg troglitazone, respectively (P = 0.01 among groups). Troglitazone administration was also associated with a dose-dependent reduction in the total insulin area during IVGTTs, which was highly significant (P < 0.001), and with a reduction during OGTTs, which approached statistical significance (P = 0.09). Glucose tolerance improved slightly in all groups, but the magnitude of change did not differ significantly among groups, whether it was assessed as the number of subjects who continued to manifest IGT at 12 weeks (P = 0.64 among groups), the change in total glucose area during OGTTs (P = 0.58), or the change in fractional glucose disappearance rates during IVGTTs (P = 0.28). Among the women who received troglitazone, the greatest improvement in SI occurred in the women who had the highest diastolic blood pressures and the best IVGTT insulin responses during baseline testing. Our findings indicate that troglitazone improved whole-body insulin sensitivity and lowered circulating insulin concentrations in women with prior GDM who are at very high risk for NIDDM. The lack of improvement in glucose tolerance despite improved insulin sensitivity may be a manifestation of the beta-cell defect that predisposes the women to NIDDM. The overall pattern of response to troglitazone in our high-risk patients indicates that the drug is an ideal agent with which to test whether the amelioration of insulin resistance can delay or prevent diabetes in women with limited beta-cell reserve.
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PMID:Effect of troglitazone on insulin sensitivity and pancreatic beta-cell function in women at high risk for NIDDM. 886 63

Troglitazone is a thiazolidinedione under development for the treatment of NIDDM and potentially other insulin-resistant disease states. Treatment with troglitazone is associated with an improvement in hyperglycemia, hyperinsulinemia, and insulin-mediated glucose disposal. No significant side effects have been observed in humans. Because of reported cardiac changes in animals treated with drugs of this class, this multicenter 48-week study was conducted to evaluate whether NIDDM patients treated with troglitazone develop any cardiac mass increase or functional impairment. A total of 154 NIDDM patients were randomized to receive troglitazone 800 mg q.d. or glyburide titrated to achieve glycemic control (< or =20 mg b.i.d. or q.d.). Two-dimensional echocardiography and pulsed Doppler were used to measure left ventricular mass index (LVMI), cardiac index (CI), and stroke volume index (SVI). All echocardiograms were performed at each center (baseline, 12, 24, 36, and 48 weeks), recorded on videotape, and forwarded to a blinded central echocardiographic interpreter for analysis. The results showed that LVMI of patients treated with troglitazone was not statistically or clinically different from baseline after 24 or 48 weeks. Statistically significant increases in SVI and CI and a statistically significant decrease in diastolic pressure and estimated peripheral resistance were observed in troglitazone-treated patients. These results were not sex-specific. Glycemic benefits of troglitazone treatment were observed as evidenced by long-term improvement of HbA1c and C-peptide levels. Furthermore, triglycerides were significantly lower, and HDL was significantly higher at weeks 24 and 48. In conclusion, NIDDM patients treated with troglitazone do not show any cardiac mass increase or cardiac function impairment. Conversely, patients on troglitazone benefited from enhanced cardiac output and stroke volume, possibly as a result of decreased peripheral resistance. Treatment with troglitazone appears to have a favorable impact on known cardiovascular risk factors and could potentially lower cardiovascular morbidity in NIDDM patients.
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PMID:Cardiac and glycemic benefits of troglitazone treatment in NIDDM. The Troglitazone Study Group. 903 99

Tumor necrosis factor (TNF)-alpha may play a role in the insulin resistance of obesity and NIDDM. Troglitazone is a new orally active hypoglycemic agent that has been shown to ameliorate insulin resistance and hyperinsulinemia in both diabetic animal models and NIDDM subjects. To determine whether this drug could prevent the development of TNF-alpha-induced insulin resistance, glucose turnover was assessed in rats infused with cytokine and pretreated with troglitazone. Normal male Sprague-Dawley rats were fed normal powdered food with or without troglitazone as a food admixture (0.2%). After approximately 10 days, rats were infused with TNF-alpha for 4-5 days, producing a plasma concentration of 632 +/- 30 pg/ml. In vivo insulin action was measured by the euglycemic-hyperinsulinemic clamp technique at a submaximal (24 micromol x kg[-1] x min[-1]) and maximal insulin infusion rate (240 micromol x kg[-1] x min[-1]). TNF-alpha infusion resulted in a pronounced reduction in submaximal insulin-stimulated glucose disposal rate (GDR) (97 +/- 10 vs. 141 +/- 4 micromol x kg[-1] x min[-1], P < 0.05), maximal GDR (175 +/- 8 vs. 267 +/- 6 micromol x kg[-1] x min[-1], P < 0.01), and in insulin receptor-tyrosine kinase activity (IR-TKA) (248 +/- 39 vs. 406 +/- 32 fmol ATP/fmol IR, P < 0.05). It also led to a marked increase in basal insulin (90 +/- 24 vs. 48 +/- 6 micromol/l, P < 0.05) and free fatty acid (FFA) concentration (2.56 +/- 0.76 vs. 0.87 +/- 0.13 mmol/l, P < 0.01). Troglitazone treatment completely prevented the TNF-alpha-induced decline in submaximal GDR (133 +/- 16 vs. 141 +/- 4 micromol x kg[-1] x min[-1], NS) and maximal GDR (271 +/- 19 vs. 267 +/- 6 micromol x kg[-1] x min[-1], NS). The hyperlipidemia was partially corrected by troglitazone (1.53 +/- 0.28 vs. 0.87 +/- 0.13 mmol/l, P < 0.05), while IR-TKA and insulin concentration remained unaffected by the drug. Troglitazone restores insulin action possibly by lowering the FFA concentration of the blood and/or by stimulating glucose uptake at an intracellular point distal to insulin receptor autophosphorylation in muscle. If TNF-alpha plays a role in the development of the obesity/NIDDM syndrome, troglitazone may prove useful in its treatment.
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PMID:TNF-alpha-induced insulin resistance in vivo and its prevention by troglitazone. 935 12

Troglitazone, an oral antidiabetic agent with antioxidant properties, has previously been shown to increase the resistance of LDL to oxidation in vitro and in vivo in healthy volunteers. In a randomized, placebo-controlled, parallel-group study in 29 patients with NIDDM, we tested the effect of troglitazone (200 mg once daily) on the resistance of LDL to oxidation and on circulating levels of preformed lipid hydroperoxides and the adhesion molecule E-selectin. Resistance of LDL to oxidation was assessed by measuring 1) fluorescence development induced by copper treatment (lag phase), and 2) amount of thiobarbituric acid-reactive substances (TBARS) generated by incubation with umbilical vein endothelial cells. At 8 weeks, the lag phase was increased by 23% (P < 0.01 by analysis of covariance [ANCOVA]) in the patients receiving troglitazone (n = 18) compared with the group receiving placebo (n = 11). At the same time, TBARS were 3.63 +/- 0.10 nmol/l (vs. 5.32 +/- 0.10 nmol/l in the placebo group, P = 0.009), LDL hydroperoxide concentration was reduced from 1.48 +/- 0.03 to 1.19 +/- 0.03 ng/mg (no change in the placebo group, P < 0.01), and plasma E-selectin levels decreased from 56.5 +/- 2.33 to 43.7 +/- 1.77 microg/l (no change in the placebo group, P < 0.01). In NIDDM, troglitazone may slow down the development of atherosclerosis by modifying LDL-related atherogenic events.
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PMID:Troglitazone reduces LDL oxidation and lowers plasma E-selectin concentration in NIDDM patients. 942 87

We studied the effects of troglitazone (200-800 mg daily) or placebo on carbohydrate metabolism in 18 subjects with type 2 diabetes (mean age, 66 yr; body mass index, 27.7 kg/m2) at baseline and after taking medication for 12 weeks. We measured fasting proinsulin (PI) and immunoreactive insulin (IRI) levels in all subjects. Thirteen subjects underwent additional metabolic studies, including injection of arginine to determine the acute insulin response, and an i.v. glucose tolerance test to measure the insulin sensitivity index (SI) and glucose effectiveness at zero insulin using the minimal model, i.v. glucose tolerance, and acute insulin response to glucose. Troglitazone treatment resulted in a decrease in fasting plasma glucose from 11.2 +/- 0.7 to 9.6 +/- 0.9 mmol/L (P = 0.02). This was associated with a decrease in the fasting IRI concentration (111 +/- 20 to 82 +/- 13 pmol/L; P = 0.02) and a trend toward a decrease in the fasting PI concentration (43 +/- 11 to 25 +/- 4 pmol/L; P = 0.06). A significant decrease in PI/IRI was observed (38.3 +/- 3.6% to 32.6 +/- 3.2%; P = 0.04). Troglitazone therapy was also associated with a decrease in the acute insulin response to arginine (226 +/- 34 to 167 +/- 25 pmol/L; P = .01) and a near-significant percent increase in S(I) (75 +/- 35%; P = 0.06). Glucose effectiveness at zero insulin, i.v. glucose tolerance, and acute insulin response to glucose did not change. Thus, we found that the decrease in plasma glucose during troglitazone therapy is associated with a dose-related decrease in PI/IRI and an increase in S(I), suggesting that changes in both B cell function and insulin sensitivity contribute to the improvement in metabolic status.
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PMID:Effect of troglitazone on B cell function, insulin sensitivity, and glycemic control in subjects with type 2 diabetes mellitus. 950 34

Hyperglycemia can lead directly to a secondary state of insulin resistance or can worsen a preexisting insulin-resistant state. Troglitazone is an orally active hypoglycemic agent that has been shown to ameliorate insulin resistance and hyperinsulinemia in both diabetic animal models and NIDDM subjects. To determine whether this drug could prevent the development of hyperglycemia-induced insulin resistance and to investigate the mechanism by which this might occur, we studied troglitazone's effect on insulin action in rats made hyperglycemic or infused with glucosamine. Normal male SD rats were fed regular powdered diet with or without troglitazone as a food admixture (0.2%). After 2 weeks, rats were made hyperglycemic with glucose (52 mg x kg(-1) x min[-1]) and somatostatin (0.8 microg x kg(-1) x min[-1]) infusion or were infused with glucosamine (6.5 mg x kg(-1) x min[-1]) for 6.5 h. In vivo insulin action was measured by the hyperinsulinemic-euglycemic clamp technique at a submaximal (24 pmol x kg(-1) x min[-1]) or maximal (240 pmol x kg(-1) x min[-1]) insulin infusion rate. The infusion of glucose and somatostatin caused a pronounced rise in the plasma glucose concentration (19.8 +/- 0.6 mmol/l) compared with saline-infused animals (8.0 +/- 0.2 mmol/l; P < 0.001). Hyperglycemia resulted in insulin resistance, as evidenced by a marked reduction in the submaximal glucose disposal rate (GDR) (78 +/- 7 vs. 135 +/- 6 micromol x kg(-1) x min(-1); P < 0.01) and maximal GDR (141 +/- 9 vs. 237 +/- 6 micromol x kg(-1) x min(-1); P < 0.01) compared with the control group. Troglitazone treatment largely prevented the hyperglycemia-induced decline in submaximal (116 +/- 7 micromol x kg(-1) x min[-1]) and maximal GDR (209 +/- 9 micromol x kg(-1) x min(-1); P < 0.05). Glucosamine infusion also resulted in a marked reduction in the submaximal GDR (85 +/- 3 vs. 135 +/- 6 micromol x kg(-1) x min(-1); P < 0.01) and maximal GDR (137 +/- 14 vs. 237 +/- 6 micromol x kg(-1) x min(-1); P < 0.01) compared with the control group. In contrast to the results in the hyperglycemic animals, troglitazone treatment had no effect on glucosamine-induced insulin resistance. In summary, 1) in normal rats, experimental hyperglycemia, as well as glucosamine infusion, led to a marked state of peripheral and hepatic insulin resistance; 2) troglitazone treatment prevented the hyperglycemia-induced, but not the glucosamine-induced, insulin resistance; and 3) either troglitazone acts at one or more sites proximal to the entry of glucosamine into the hexosamine pathway, or the increased flux of glucose-derived products through the hexosamine pathway is not a major mechanism for the hyperglycemia-induced defect in insulin action in these animals.
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PMID:Troglitazone prevents hyperglycemia-induced but not glucosamine-induced insulin resistance. 951 45

Both, impaired beta-cell function and insulin resistance, predominantly of the skeletal muscle, are considered to be the key factors in the pathogenesis of type-2 diabetes (non-insulin-dependent diabetes; NIDDM). In the early stage of the disease, impaired insulin-mediated glucose disposal is accompanied by increased insulin secretion and hyperinsulinaemia. The thiazolidinediones (e.g. troglitazone), by improving insulin sensitivity of target tissues, appear to be a novel pathophysiologically interesting approach for the treatment of patients with NIDDM or impaired glucose tolerance. Troglitazone mainly elicits the following actions: Enhancement of insulin-mediated glucose disposal in patients with insulin resistance, impaired glucose tolerance and NIDDM, reduction of hyperglycaemia (blood glucose; HbA1c) and concomitant hyperinsulinaemia, improvement of dyslipidaemia in NIDDM. These actions are attained with monotherapy (200-600 mg once daily; plasma concentrations 0.3-3.0 micrograms/ml) or, with increased effects, when troglitazone is added to previously insufficient treatment with sulfonylureas or insulin. Potentially therapeutic actions with clinical relevance include (a) improvement of insulin resistance-associated hyperglycaemia-independent states of dyslipidaemia, (b) inhibition of LDL-oxidation and (c) amelioration of function and/or protection of beta-cells, an effect indicating to a beneficial modulation of the second pathogenetic relevant factor of NIDDM. Troglitazone appears to be well tolerated by the majority of patients. Post-marketing reports of partly severe liver injury including deaths from liver failure among Japanese and U.S. patients taking troglitazone require a critical evaluation of the benefit to risk ratio of the drug and a careful monitoring of the patients.
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PMID:[The thiazolidinones--a new therapeutic agent for type 2 diabetes]. 954 19

There is increasing evidence that insulin resistance may be causally related to atherosclerosis. The measurement of common carotid arterial intimal and medial complex thickness (IMT) by B-mode ultrasound technique has been recognized as a powerful and non-invasive method to evaluate early atherosclerotic lesions. We investigated the effect of treatment with troglitazone, an insulin sensitizer, on IMT in a total of 135 Japanese subjects with type 2 diabetes. Troglitazone (400 mg daily) was administered for 6 months in 57 patients. Compared to control group (n = 78), the group given troglitazone showed a significant decrease in IMT as early as 3 months after the administration (IMT change: -0.080[SE 0.016] mm vs. control 0.027[SE 0.007] mm, P < 0.001). The decrease in IMT was also found after 6 months, although further decrease was not observed. Both HbA1c and postprandial serum triglycerides were decreased after troglitazone, but there was no statistically significant relation between a decrease in IMT and those in HbA1c or postprandial triglycerides. These findings indicate that troglitazone has a potent inhibitory effect on progression of early atherosclerotic lesions probably through the decreased insulin resistance in type 2 diabetes.
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PMID:Potent inhibitory effect of troglitazone on carotid arterial wall thickness in type 2 diabetes. 958


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