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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe the cloning, characterization, and tissue distribution of the two human peroxisome proliferator activated receptor isoforms hPPARgamma2 and hPPARgamma1. In cotransfection assays the two isoforms were activated to approximately the same extent by known PPARgamma activators. Human PPARgamma binds to DNA as a heterodimer with the retinoid X receptor (RXR). This heterodimer was activated by both RXR agonists and antagonists and the addition of PPARgamma ligands with retinoids resulted in greater than additive activation. Such heterodimer-selective modulators may have a role in the treatment of PPARgamma/RXR-modulated diseases like diabetes. Northern blot analysis indicated the presence of PPARgamma in skeletal muscle, and a sensitive RNase protection assay confirmed the presence of only PPARgamma1 in muscle that was not solely due to fat contamination. However, both PPARgamma1 and PPARgamma2 RNA were detected in fat, and the ratio of PPARgamma1 to PPARgamma2 RNA varied in different individuals. The presence of tissue-specific distribution of isoforms and the variable ratio of PPARgamma1 to PPARgamma2 raised the possibility that isoform expression may be modulated in disease states like non-insulin-dependent diabetes mellitus. Interestingly, a third protected band was detected with fat RNA indicating the possible existence of a third human PPARgamma isoform.
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PMID:Identification, characterization, and tissue distribution of human peroxisome proliferator-activated receptor (PPAR) isoforms PPARgamma2 versus PPARgamma1 and activation with retinoid X receptor agonists and antagonists. 906 81

The peroxisome proliferator activated receptor PPAR-gamma has been identified as a nuclear receptor for thiazolidenediones, which are compounds with insulin-sensitizing properties in several tissues, including skeletal muscle. To determine whether this receptor is expressed and possibly involved in insulin action/resistance in skeletal muscle, PPAR-gamma mRNA abundance and its regulation by insulin were quantified in muscle tissue and cultures from lean and obese nondiabetic and type II diabetic subjects using competitive reverse transcription-polymerase chain reaction (RT-PCR). In muscle biopsy specimens, PPAR-gamma mRNA was elevated in obese nondiabetic and type II diabetic subjects (23.4 +/- 4.2 and 28.0 +/- 5.69 x 10(3) copies/microg total RNA, respectively; both P < 0.05) compared with lean nondiabetic control subjects (9.4 +/- 2.3 x 10(3) copies/microg total RNA). Significant positive correlations were present among skeletal muscle PPAR-gamma mRNA levels, BMI (r = 0.67, P < 0.01), and fasting insulin concentration (r = 0.76, P < 0.001). PPAR-gamma mRNA levels were also elevated in muscle cultures from type II diabetic subjects compared with lean nondiabetic control subjects (330.1 +/- 52.9 vs. 192.1 +/- 27.0 x 10(3) copies/microg total RNA, P < 0.05). Insulin stimulation of muscle tissue (by hyperinsulinemic-euglycemic clamp for 3-4 h) or muscle cultures (30 nmol/l for 120 min) stimulated PPAR-gamma mRNA expression up to fourfold (10.0 +/- 2.7 to 41.3 +/- 7.4 x 10(3) copies/microg total RNA, P < 0.05, and 174.9 +/- 56.9 to 268.2 +/- 78.6 x 10(3) copies/microg total RNA, P < 0.05, respectively). In summary, PPAR-gamma mRNA expression in human skeletal muscle is acutely regulated by insulin and is increased in both obese nondiabetic and type II diabetic subjects in direct relation to BMI and fasting insulinemia. We conclude that abnormalities of PPAR-gamma may be involved in skeletal muscle insulin resistance of obesity and type II diabetes.
Diabetes 1997 Jul
PMID:PPAR-gamma gene expression is elevated in skeletal muscle of obese and type II diabetic subjects. 920 Jun 61

Intra-abdominal and subcutaneous adipose tissue display important metabolic differences that underlie the association of visceral, but not subcutaneous, fat with obesity-related cardiovascular and metabolic problems. Because the molecular mechanisms contributing to these differences are not yet defined, we compared by reverse transcription-polymerase chain reaction the expression of 15 mRNAs that encode proteins of known importance in adipocyte function in paired omental and subcutaneous abdominal biopsies. No difference in mRNA expression between omental and subcutaneous adipose tissue was observed for hormone sensitive lipase, lipoprotein lipase, 6-phosphofructo-1-kinase, insulin receptor substrate 1, p85alpha regulatory subunit of phosphatidylinositol-3-kinase, and Rad. Total amount of insulin receptor expression was significantly higher in omental adipose tissue. Most of this increase was accounted for by expression of the differentially spliced insulin receptor lacking exon 11, which is considered to transmit the insulin signal less efficiently than the insulin receptor with exon 11. Perhaps consistent with a less efficient insulin signaling, a twofold reduction in GLUT4, glycogen synthase, and leptin mRNA expression was observed in omental adipose tissue. Finally peroxisome proliferator activated receptor-gamma (PPAR-gamma) mRNA levels were significantly lower in visceral adipose tissue in subjects with a BMI <30 kg/m2, but not in obese subjects, indicating that relative PPAR-gamma expression is increased in omental fat in obesity. This suggests that altered expression of PPAR-gamma might play a role in adipose tissue distribution and expansion.
Diabetes 1998 Jan
PMID:Depot-specific differences in adipose tissue gene expression in lean and obese subjects. 942 81

The aim of this study was to compare the effects of insulin and the insulinomimetic agent, englitazone, on functional end points and putative mediators of insulin action in 3T3-L1 adipocytes. Cells were incubated with englitazone for 48 h or with insulin for 10 or 30 min, or both, and 2-deoxy-D-[3H]glucose (2DG) uptake and lipogenesis (from [14C]glucose) were measured. Tyrosine phosphorylation of the insulin receptor (IR), insulin receptor substrates 1 and 2 (IRS-1 and IRS-2), and pp60, and phosphatidylinositol (PI) 3-kinase activity (using PI as substrate) and mitogen-activated protein kinase (MAPK) activity were assayed in cell lysates. Englitazone increased 2DG uptake in a concentration-dependent (10-100 micromol/l) manner by up to sixfold, and preincubation with englitazone significantly enhanced insulin-stimulated 2DG uptake. However, englitazone had a biphasic effect on lipogenesis (163 +/- 13% basal at 10 micromol/l vs. 96 +/- 14% at 100 micromol/l), but when acetate was used as substrate, only concentration-dependent inhibition of lipogenesis occurred. In addition, englitazone decreased insulin-stimulated lipogenesis in a concentration-dependent manner. Englitazone did not increase IR, IRS-1/IRS-2, pp60, or MAPK phosphorylation, nor did it enhance insulin's stimulation of these parameters. Although englitazone alone did not activate PI 3-kinase, it did enhance the stimulation of the enzyme produced by a submaximally effective insulin concentration. Significant (63%) inhibition of insulin-stimulated lipogenesis occurred at a concentration of englitazone (30 micromol/l) that did not affect MAPK activation, which suggests that the drug's inhibitory effect on lipogenesis is not mediated by this pathway. Englitazone did not affect the expression of the peroxisome proliferator response element-containing fatty acyl CoA synthase gene, although it cannot be ruled out that expression of other lipogenic enzymes are altered by englitazone via peroxisome proliferator activated receptor-gamma activation or by an alternate pathway. Thus englitazone stimulates 2DG uptake without affecting PI 3-kinase, but it can enhance both insulin-stimulated 2DG uptake and PI 3-kinase activity. However, englitazone inhibits insulin-stimulated lipogenesis without inhibiting PI 3-kinase activity. Assuming activation of PI 3-kinase mediates insulin-stimulated 2-DG and lipogenesis, then the signaling pathways for each process diverge beyond PI 3-kinase.
Diabetes 1998 Feb
PMID:Possibility of distinct insulin-signaling pathways beyond phosphatidylinositol 3-kinase-mediating glucose transport and lipogenesis. 951 10

The PPAR (peroxisome proliferator activated receptor) transcription factors are ligand-activated receptors which regulate genes involved in lipid metabolism and homeostasis. PPARalpha is preferentially expressed in the liver and PPARgamma preferentially in adipose tissue. Activation of PPARalpha leads to peroxisome proliferation in rodents and increased beta-oxidation of fatty acids. PPARgamma-activation leads to adipocyte differentiation and improved insulin signaling of mature adipocytes. Both of these PPAR receptors are potential targets for treatment of dyslipidemia in man. Studies by others using a proteomics approach have characterized the effects of PPARalpha agonists in livers from lean healthy mice. However, we wanted to map the effects of a therapeutic dose of a PPARalpha agonist in a disease model of insulin resistance and diabetes, the obese diabetic ob/ob mouse, by proteomics. Therefore, ob/ob mice, which have highly elevated levels of plasma triglycerides, glucose and insulin, were treated for one week with WY14,643 (180 micromol/kg/day), a well-characterized selective PPARalpha agonist. Plasma triglycerides, glucose and insulin levels were determined and we found significant therapeutic effects on triglycerides and glucose levels. The liver protein compositions were investigated by high-resolution two-dimensional gel electrophoresis which showed that WY14,643 produced up-regulation of at least 16 spots. These were identified by mass spectrometry and 14 spots were found to be components of the peroxisomal fatty acid metabolism. Thus, WY14,643 at a therapeutic dose, caused induction of peroxisomal fatty acid beta-oxidation in obese diabetic mice.
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PMID:A proteome analysis of livers from obese (ob/ob) mice treated with the peroxisome proliferator WY14,643. 1034 69

This study examined the effect a polymorphism (L162V) in the gene for peroxisome proliferator activated receptor (PPAR) alpha in the development of non-insulin-dependent diabetes mellitus (type 2 DM), obesity and hyperlipidaemia. The frequency of the L162V polymorphism in the PPARalpha gene was determined in 370 morbidly obese patients who underwent gastric banding surgery, 154 patients attending a type 2 DM clinic, 188 patients attending a lipid clinic and 199 healthy blood donors. The overall frequency of the V allele of the L162V polymorphism was 0.06. There were no significant differences in the allele frequency between patients with morbid obesity, hyperlipidaemia, type 2 DM and healthy controls, suggesting that it does not play a major role in the development of these conditions. The polymorphism was associated with a lower body mass index (BMI) in two independently recruited groups of patients with type 2 DM. There was no effect of the polymorphism on subjects without type 2 DM. Thus a polymorphism in PPARalpha protects type 2 DM patients from the overweight which is frequently associated with their condition.
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PMID:A polymorphism, L162V, in the peroxisome proliferator-activated receptor alpha (PPARalpha) gene is associated with lower body mass index in patients with non-insulin-dependent diabetes mellitus. 1140 11

Orphan nuclear receptors of the peroxisome proliferator activated receptor (PPAR) and liver X receptor (LXR) subfamilies have been shown to play critical roles in both local and systemic lipid metabolism. The PPARs control fatty acid metabolism in various cell types, including adipocytes, liver, and macrophages. The LXRs have been implicated in the regulation of cholesterol metabolism in the liver, intestines, and macrophages. The importance of these receptors in physiologic lipid metabolism suggests that they may influence the development of metabolic disorders such as obesity, diabetes, and atherosclerosis. Furthermore, the ability of these receptors to be modulated pharmacologically makes them attractive therapeutic targets. This review focuses on the role of PPAR and LXR signaling pathways in macrophage lipid metabolism and the potential of these pathways to modulate the development of atherosclerosis.
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PMID:Orphan nuclear receptors find a home in the arterial wall. 1193 19

In subgroups of a New Zealand obese mouse-derived backcross population with defined aberrations of glucose homeostasis, a comprehensive study of the hepatic expression of cytochrome P450 and glutathione S-transferase was performed. Three patterns of alterations in response to insulin resistance (normoglycemia/hyperinsulinemia) or diabetes (hyperglycemia/hypoinsulinemia) were observed: mRNA levels of Cyp2b9, Cyp3a16, Cyp4a14, and Gstt2 as assessed by Northern- and dot-blot analysis were increased markedly in liver from diabetic mice with no or only a slight increase in insulin resistant mice. Western-blot analysis detected the corresponding changes of the CYP2B and CYP4A proteins. In contrast, expression of Cyp2c22, Cyp2c29, and Cyp2c40 was reduced in diabetic, but normal in insulin resistant mice. These alterations were correlated with changes in serum free fatty acid levels and, therefore, seem to be mediated by the peroxisome proliferator activated receptor-alpha. Furthermore, expression of Cyp1a2, Cyp7b1, Gstm3, and Gstm6 was reduced in both diabetic and insulin resistant mice. Because this third pattern was not correlated with the alterations of serum free fatty acid levels, it seems to reflect an early alteration in the course of the disease, and may be related to the progression of the syndrome from insulin resistance to the type 2-like diabetes.
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PMID:Effect of hyperinsulinemia and type 2 diabetes-like hyperglycemia on expression of hepatic cytochrome p450 and glutathione s-transferase isoforms in a New Zealand obese-derived mouse backcross population. 1213 Jul 1

Accumulation of oxidized-matrix between the endothelium and myocytes is associated with endocardial endothelial (EE) dysfunction in diabetes and heart failure. High levels of circulating homocysteine (Hcy) have been demonstrated in diabetes mellitus (DM). These high levels of Hcy (hyperhomocysteinemia, HHcy) have a negative correlation with peroxisome proliferator activated receptor (PPAR) expression. Studies have demonstrated that Hcy decreases bioavailability of endothelial nitric oxide (eNO), generates nitrotyrosine, and activates latent matrix metalloproteinase (MMP), instigating EE dysfunction. PPAR ligands ameliorate endothelial dysfunction and DM. In addition Hcy competes with PPAR ligands. The understanding of molecular, cellular, and extracellular mechanisms by which Hcy amplifies DM will have therapeutic ramifications for diabetic cardiomyopathy.
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PMID:Role of nitric oxide in matrix remodeling in diabetes and heart failure. 1265 56

Peroxisome proliferation is a cellular response to many chemical compounds affects including natural and modified fatty acids, phthalate and adipate ester plasticizers, leukotriene antagonists, acetylsalicylic acid and certain pathophysiological conditions including dramatic change of cellular morphology and enzymatic activity. Peroxisome proliferation phenomenon is seen primarily in liver and kidney. Hormones and nutritional factor can regulate peroxisome proliferation response. Sustained peroxisome proliferation can lead to hepatocarcinogenesis. The three types of peroxisome proliferator activated receptor, termed PPAR alpha, PPAR beta, and PPAR gamma, expressed in specific tissue, are consisted of a specific a nuclear receptor superfamily. After more than 10 years world wide research, the function of PPAR is clarified, as PPAR gamma, the master of thrifty genes, controls the expression of genes relative to adipogenesis, diabetes mellitus and obesity. The receptor is involved in transcriptional control of numerous cellular processes including cell cycle control, inflammation, immunoregulation and carcinogenesis.
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PMID:[PPAR gamma--the master of thrifty genes]. 1290 43


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