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)

Members of the peroxisome proliferator-activated receptor (PPAR) family might be involved in pathologies with altered lipid metabolism. They participate in the control of the expression of genes involved in lipid metabolism and adipocyte differentiation. In addition, thiazolidinediones improve insulin resistance in vivo by activating PPAR gamma. However, little is known regarding their tissue distribution and relative expression in humans. Using a quantitative and sensitive reverse transcription (RT)-competitive polymerase chain reaction (PCR) assay, we determined the distribution and relative mRNA expression of the four PPARs (alpha,beta, gamma1, and gamma2) and liver X receptor-alpha (LXR alpha) in the main tissues implicated in lipid metabolism. PPAR alpha and LXR alpha were mainly expressed in liver, while PPAR gamma1 predominated in adipose tissue and large intestine. We found that PPAR gamma2 mRNA was a minor isoform, even in adipose tissue, thus causing question of its role in humans. PPAR beta mRNA was present in all the tissues tested at low levels. In addition, PPAR gamma mRNA was barely detectable in skeletal muscle, suggesting that improvement of insulin resistance with thiazolidinediones may not result from a direct effect of these agents on PPAR gamma in muscle. Obesity and NIDDM were not associated with change in PPARs and LXR alpha expression in adipose tissue. The mRNA levels of PPAR gamma1, the predominant form in adipocytes, did not correlate with BMI, leptin mRNA levels, or fasting insulinemia in 29 subjects with various degrees of obesity. These results indicated that obesity is not associated with alteration in PPAR gene expression in abdominal subcutaneous adipose tissue in humans.
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PMID:Tissue distribution and quantification of the expression of mRNAs of peroxisome proliferator-activated receptors and liver X receptor-alpha in humans: no alteration in adipose tissue of obese and NIDDM patients. 923 57

Peroxisome proliferator activated receptor-gamma (PPAR gamma) is a nuclear receptor that regulates adipocyte differentiation, and possibly lipid metabolism and insulin sensitivity. As such, PPAR gamma is a promising candidate gene for several human disorders including obesity and type 2 diabetes mellitus. Screening for mutations in the entire coding region of the PPAR gamma gene (both gamma 1 and gamma 2 isoforms) was performed with DNA of 26 diabetic Caucasians with or without obesity. Two base substitutions were identified: a silent mutation at nucleotide 1431 (CACHis-->CATHis) and a missense mutation (CCGPro-->GCGAla) at codon 12 of PPAR gamma 2. The allele frequency of the Pro12Ala PPAR gamma 2 variant was 0.12 in Caucasian Americans, 0.10 in Mexican Americans, 0.08 in Samoans, 0.03 in African Americans, 0.02 in Nauruans, and 0.01 in Chinese. We conclude that the Pro12Ala PPAR gamma 2 gene variant is present in diverse populations. Further studies of the Pro12Ala variant will determine its relevance to obesity, insulin resistance, and type 2 diabetes.
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PMID:Molecular scanning of the human peroxisome proliferator activated receptor gamma (hPPAR gamma) gene in diabetic Caucasians: identification of a Pro12Ala PPAR gamma 2 missense mutation. 942 61

Conjugated linoleic acid (CLA) is a naturally occurring fatty acid which has anti-carcinogenic and anti-atherogenic properties. CLA activates PPAR alpha in liver, and shares functional similarities to ligands of PPAR gamma, the thiazolidinediones, which are potent insulin sensitizers. We provide the first evidence that CLA is able to normalize impaired glucose tolerance and improve hyperinsulinemia in the pre-diabetic ZDF rat. Additionally, dietary CLA increased steady state levels of aP2 mRNA in adipose tissue of fatty ZDF rats compared to controls, consistent with activation of PPAR gamma. The insulin sensitizing effects of CLA are due, at least in part, to activation of PPAR gamma since increasing levels of CLA induced a dose-dependent transactivation of PPAR gamma in CV-1 cells cotransfected with PPAR gamma and PPRE X 3-luciferase reporter construct. CLA effects on glucose tolerance and glucose homeostasis indicate that dietary CLA may prove to be an important therapy for the prevention and treatment of NIDDM.
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PMID:Dietary conjugated linoleic acid normalizes impaired glucose tolerance in the Zucker diabetic fatty fa/fa rat. 953 24

The resistance to insulin (insulin resistance, IR) is a common feature and a possible link between such frequent disorders as non-insulin dependent diabetes mellitus (NIDDM), hypertension and obesity. Pharmacological amelioration of IR and understanding its pathophysiology are therefore essential for successful management of these disorders. In this review, we will discuss the mechanisms of action of thiazolidinediones (TDs), a new family of insulin-sensitizing agents. Experimental studies of various models of IR and an increasing number of clinical studies have shown that TDs normalize a wide range of metabolic abnormalities associated with IR. By improving insulin sensitivity in skeletal muscles, the adipose tissue and hepatocytes, TDs reduce fasting hyperglycaemia and insulinaemia. Furthermore, TDs markedly influence lipid metabolism--they decrease plasma triglyceride, free fatty acid and LDL-cholesterol levels, and increase plasma HDL-cholesterol concentrations. Although TDs do not stimulate insulin secretion, they improve the secretory response of beta cells to insulin secretagogues. TDs act at various levels of glucose and lipid metabolism--ameliorate some defects in the signalling cascade distal to the insulin receptor and improve glucose uptake in insulin-resistant tissues via increased expression of glucose transporters GLUT1 and GLUT4. TDs also activate glycolysis in hepatocytes, oppose intracellular actions of cyclic AMP, and increase intracellular magnesium levels. TDs bind to peroxisome proliferator activating receptors gamma (PPAR gamma), members of the steroid/thyroid hormone nuclear receptor superfamily of transcription factors involved in adipocyte differentiation and glucose and lipid homeostasis. Activation of PPAR gamma results in the expression of adipocyte-specific genes and differentiation of various cell types in mature adipocytes capable of active glucose uptake and energy storage in the form of lipids. Furthermore, TDs inhibit the pathophysiological effects exerted by tumour-necrosis factor (TNF alpha), a cytokine involved in the pathogenesis of IR. These effects are most likely also mediated by stimulation of PPAR gamma. In mature adipocytes, PPAR gamma stimulation inhibits stearoyl-CoA desaturase 1 (SCD1) enzyme activity resulting in a change of cell membrane fatty acid composition. Apart from their metabolic actions, TDs modulate cardiovascular function and morphology independently of the insulin-sensitizing effects. TDs decrease blood pressure in various models of hypertension as well as in hypertensive insulin-resistant patients, and inhibit proliferation, hypertrophy and migration of vascular smooth muscle cells (VSMC) induced by growth factors. These processes are considered to be crucial in the development of vascular remodelling, atherosclerosis and diabetic organ complications. TDs induce vasodilation by blockade of Ca2+ mobilisation from intracellular stores and by inhibition of extracellular calcium uptake via L-channels. Furthermore, TDs interfere with pressor systems (catecholamines, renin-angiotensin system) and enhance endothelium-dependent vasodilation. A key role of TDs effects in vascular remodelling is played by inhibition of the mitogen-activated protein (MAP) kinase pathway. This signalling pathway is important for VSMC growth and migration in response to stimulation with tyrosine-kinase dependent growth factors. In addition to the vasoprotective mechanisms mentioned above, troglitazone, the latest representative of this pharmacological group, possesses antioxidant actions comparable to vitamin E. In summary, TDs have the unique ability to attack mechanisms responsible for metabolic alterations as well as for vascular abnormalities characteristic for IR. Therefore, TDs represent a powerful research tool in attempts to find a common denominator underlying the pathophysiology of the metabolic syndrome X. A recently reported link between MAP kinase signalling pathway and PPAR gamma
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PMID:Thiazolidinediones--tools for the research of metabolic syndrome X. 980 67

NIDDM is characterized by a decrease in insulin sensitivity of the liver, the muscles and adipocytes. Diet, exercise and control of excess body weight are the first step of the treatment; they are even able to prevent NIDDM. In this paper the drugs that may improve insulin sensitivity are described with their different specific action on liver, muscles, or adipocytes. Drugs from the thiazolidinedione class act by enhancing the sensitivity to insulin of adipose tissue; they are high-affinity ligands for peroxisome proliferator-activated receptor gamma 2 (PPAR gamma 2 being the predominant form expressed in adipocytes) Hepatotoxicity and weight gain are sides effects of thiazolidinedione. Acipimox (a nicotinic acid analogue) is a NEFA lowering drug that suppress lipolysis, but after a few days of utilisation there is a compensatory free fatty acid rise. Recent data on Metformin action on hepatic insulin sensitivity are discussed and combination with Troglitazone is presented. Vanadyl sulfate may also improve insulin sensitivity but there is no long term human studies.
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PMID:[Insulin resistance: therapeutic approaches]. 1052 Apr 9

Troglitazone, a PPAR-gamma agonist, is a new drug for type 2 diabetes. The drug decreases blood glucose via enhancing insulin action. Recently Sankyo pharmaceutical company is warning severe hepatotoxicity by troglitazone. It recommends to examine liver function every month in diabetic patients treated with the drug in order early to find drug-induced hepatitis. In Japan 153 diabetic patients treated with the drug developed severe hepatitis and 8 of them died of drug-side effects. Quinone metabolite of troglitazone predominantly in the liver to a sulfate conjugate and activation of PPAR gamma and PXR(pregnane X receptor) by troglitazone are supposed to be factors of hepatotoxic mechanism.
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PMID:[Clinical effect and side effect of troglitazone]. 1070 61

Tumor necrosis factor alpha (TNF-alpha) has well-described effects on lipid metabolism in the context of acute inflammation, as in sepsis. Recently, increased TNF-alpha production has been observed in adipose tissue derived from obese rodents or human subjects and TNF-alpha has been implicated as a causative factor in obesity-associated insulin resistance and the pathogenesis of type 2 diabetes. Thus, current evidence suggests that administration of exogenous TNF-alpha to animals can induce insulin resistance, whereas neutralization of TNF-alpha can improve insulin sensitivity. Importantly, results from knockout mice deficient in TNF-alpha or its receptors have suggested that TNF-alpha has a role in regulating in vivo insulin sensitivity. However, the absence of TNF-alpha action might only partially protect against obesity-induced insulin resistance in mice. Multiple mechanisms have been suggested to account for these metabolic effects of TNF-alpha. These include the downregulation of genes that are required for normal insulin action, direct effects on insulin signaling, induction of elevated free fatty acids via stimulation of lipolysis, and negative regulation of PPAR gamma, an important insulin-sensitizing nuclear receptor. Although current evidence suggests that neutralizing TNF-alpha in type 2 diabetic subjects is not sufficient to cause metabolic improvement, it is still probable that TNF-alpha is a contributing factor in common metabolic disturbances such as insulin resistance and dyslipidemia.
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PMID:Potential role of TNF-alpha in the pathogenesis of insulin resistance and type 2 diabetes. 1087 50

Rosiglitazone, a potent thiazolidinedione oral antidiabetic agent recently approved in the US, differs structurally from pioglitazone and troglitazone (other approved thiazolidinediones), with greater PPAR gamma binding affinity and antihyperglycaemic potency in preclinical models. Clinical data on more than 4500 patients with type 2 diabetes show that rosiglitazone is a safe, effective monotherapy or combination therapy, producing significant reductions in haemoglobin A1c and fasting plasma glucose under different dosing regimens. Unlike troglitazone, which has been associated with idiosyncratic hepatotoxicity and rare cases of liver failure and death, rosiglitazone has shown a low incidence of liver abnormalities in more than 3500 patient-years of exposure. No significant food or drug interactions have been reported. Particularly effective as first-line therapy, rosiglitazone is a useful addition to the roster of oral antidiabetic agents.
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PMID:Rosiglitazone. 1095 62

Numerous studies across several population groups have indicated that insulin resistance plays a central role in the development of type 2 diabetes mellitus (T2DM). Moreover, this disorder is also strongly associated with other metabolic syndromes, including hypertension, dyslipidemias and polycystic ovarian syndrome (PCOS). Recent advances have demonstrated that pharmacological agents of the thiazolidinedione class can reverse insulin resistance and profoundly improve many of these associated symptoms. These effects have been documented in a variety of genetic and acquired animal models of insulin resistance, as well as in numerous clinical trials in patients with insulin resistance. These compounds appear to enhance insulin action by modulating the activity of the nuclear receptor peroxisome proliferator-activated receptor (PPAR) gamma. This activation results in changes in the expression of a number of genes that are critically involved in glucose and lipid metabolism, as well as in insulin signal transduction. While precise events that occur downstream from PPAR gamma modulation remain uncertain, new insights are emerging from knockout studies in mice and the identification of genetic variants in humans. These findings indicate that there is still much to learn about the molecular biology and physiology of these interesting receptors, and that research in this area can lead to more effective and safer drugs to treat insulin resistance and associated syndromes.
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PMID:PPAR gamma and the treatment of insulin resistance. 1104 66

Insulin resistance is the major defect in type 2 diabetes. Troglitazone is the first of a new class of drugs, the thiazolidinediones (TZD) with insulin sensitising actions. The TZD activate PPAR gamma (Peroxisome Proliferator Activated Receptor gamma). In clinical trials, the TZD decrease plasma glucose, plasma insulin and Hb A1C. Moreover they are synergistic with the glucose lowering drugs (biguanides and sulfonylureas) and with insulin therapy. The TZD also decrease triglycerides and increase HDL cholesterol, while reducing LDL oxidation. Few side effects have been reported but concerns persist about their safety. Hepatic dysfunction is seen in about 2% of the patients receiving troglitazone, leading sometimes to liver failure. This potentially lethal side effect appears to be less frequent with the second generation TZD, rosiglitazone and pioglitazone. Drug interactions, fluid retention, induction of colon polyps are other potential unwanted effects. This new class of drugs could play an important role in diabetes therapy, if clinical trials prove their long term efficacy and safety.
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PMID:[Glitazones (thiazolidinedione)]. 1110 96


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