Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242339 (dyslipidemia)
 13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peroxisome proliferator-activated receptor (PPAR)-alpha is a member of a large nuclear receptor superfamily whose main role is to activate genes involved in fatty acid oxidation in the liver, heart, kidney, and skeletal muscle. While currently used mainly as hypolipidemic agents, the cardiac effects and anti-inflammatory actions of PPAR-alpha agonists in arterial wall cells suggest other potential cardioprotective and antiatherosclerotic effects of these agents. This review summarizes current knowledge regarding the effects of PPAR-alpha agonists on lipid and lipoprotein metabolism, the heart, and the vessel wall and introduces some of the insights gained in these areas from studying PPAR-alpha-deficient mice. The introduction of new and more potent PPAR-alpha agonists will provide important insights into the overall benefits of activating PPAR-alpha clinically for the treatment of dyslipidemia and prevention of vascular disease.
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PMID:PPAR-alpha effects on the heart and other vascular tissues. 1262 80

By the end of this decade, it has been estimated that between 200 million and 300 million people worldwide will meet World Health Organization diagnostic criteria for diabetes mellitus. This epidemic of predominantly type 2 diabetes has largely been mediated by our shift toward a more sedentary lifestyle predisposing to obesity and insulin resistance. Affected individuals can also exhibit an array of associated undesirable traits such as hypertension, dyslipidemia, and hypercoagulability, leading to morbidity and mortality from atherosclerotic vascular disease. The coexistence of several of these traits with insulin resistance constitutes the metabolic syndrome. Accordingly, improving insulin sensitivity in this group, and thereby potentially ameliorating the excess vascular risk, is a primary goal of treatment. Recent interest has focused on the thiazolidinediones, a novel class of antidiabetic agents, which act as insulin sensitizers and, therefore, potentially target the underlying metabolic disturbance. These agents are high-affinity ligands for the nuclear receptor peroxisome proliferator-activated receptor gamma, and a large body of in vitro and in vivo data has evolved to support their increasing clinical use. Importantly, clinical and laboratory findings in human subjects harboring natural mutations and polymorphisms within the receptor have provided additional insights. Here, we focus on the consequences of inherited variation in the human peroxisome proliferator-activated receptor gamma gene, linking this receptor to disordered glucose homeostasis, adipogenesis, lipid metabolism, and blood pressure regulation. These studies provide further support for the future development of more selective receptor modulators, targeting specific pathways to ameliorate facets of the metabolic syndrome.
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PMID:The metabolic syndrome: peroxisome proliferator-activated receptor gamma and its therapeutic modulation. 1278 36

Dyslipidemia, inflammation and gender are major risk factors in cardiovascular disease. Here we show that hepatic expression of Peroxisome proliferator-activated receptor alpha (PPARalpha), a nuclear receptor that regulates lipid metabolism and inflammation, is regulated in a gender-specific manner during lipopolysaccharide (LPS)-induced systemic inflammation. Immediately following LPS-induced systemic inflammation, hepatic PPARalpha mRNA level decreased dramatically in mice. It was restored to baseline within 24 h in females but remained below baseline for >72 h in male mice. In gonadectomized mice of both sexes, PPARalpha mRNA level was restored to baseline within 48 h after the initial decrease.
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PMID:Hepatic expression of PPARalpha, a molecular target of fibrates, is regulated during inflammation in a gender-specific manner. 1283 47

Peroxisome proliferator-activated receptors (PPARs) participate in the molecular mechanism of pathologies with altered lipid homeostasis such as type 2 diabetes or obesity. The insulin sensitizer drug, rosiglitazone, has been shown to bind and activate PPAR-gamma1 in adipocytes and PPAR-gamma2 in hepatocytes. The identification of new molecular targets associated with fatty acid oxidation and PPAR-gamma nuclear receptor regulation in insulin resistance tissues is a key research goal. In the present study, we have used a proteomic approach to identify such targets. Lean and obese C57 Bl/6J lep/lep mice were given BRL49653, rosiglitazone, 10 mg/kg diet, by dietary admixture for 7 days. Rosiglitazone normalized the impaired glucose tolerance and dyslipidemia in lep/lep mice but had no significant effect in the lean mice. Samples of liver, white and brown adipose tissue, and muscle proteins were obtained and 100 microg of proteins was arrayed by two-dimensional gel electrophoresis. Thirty-four polypeptides were differentially expressed (p < 0.05) between lep/lep and lean mice and eleven were significantly (p < 0.05) modulated by rosiglitazone treatment of the obese mice. None of the proteins was modulated by rosiglitazone treatment of the lean mice. The identity of these differentially expressed proteins was made using tandem mass spectrometric analysis and revealed components of fatty acid and carbohydrate metabolism as well as proteins with unknown function.
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PMID:Effect of rosiglitazone on the differential expression of obesity and insulin resistance associated proteins in lep/lep mice. 1292 76

Peroxisome proliferator-activated receptors (PPARs) are a group of three nuclear receptor isoforms, identified and encoded by different genes: PPARalpha, PPARdelta and PPARgamma. Each subtype of PPAR appears to be differently expressed in a tissue-specific manner due to its binding to a specific consensus DNA sequence of peroxisome proliferator response elements (PPREs). PPARalpha plays a significant role in the regulation of nutrient metabolism, including fatty acid oxidation, gluconeogenesis and amino acid metabolism. PPARdelta is expressed ubiquitously and has been found to be effective in controlling dyslipidemia and cardiovascular diseases, while PPARgamma isotype is mainly expressed in adipose tissue where it stimulates adipogenesis and lipogenesis. Thus PPARs have emerged as potential molecular targets for the design and synthesis of a different class of compounds, considering the conformation of receptors for the treatment of human metabolic disorders. This review concerns the therapeutic importance of PPARs in diabetes drug development.
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PMID:Therapeutic significance of peroxisome proliferator-activated receptor modulators in diabetes. 1456 84

The observed reduction in macrovascular outcomes in the United Kingdom Progressive Diabetes Study (UKPDS) trial in patients with type 2 diabetes mellitus (DM), treated intensively with insulin or sulfonylureas, was of borderline significance (p = 0.052). This may be because of the role of factors other than glycemic control in the etiology of macrovascular disease. The UKPDS and other studies have suggested that lipid parameters are potent predictors of adverse outcomes in patients with type 2 DM. In patients with DM, dyslipidemia is characterized by elevated serum triglycerides and low high density lipoprotein-cholesterol (HDL-C) with normal total serum cholesterol levels and usually accompanied by an elevation of atherogenic, small, dense low density lipoprotein-cholesterol (LDL-C) particles. Dyslipidemia is only partly corrected by dietary and lifestyle modifications and pharmacological glycemic control in patients with DM. Several guidelines, including those published by the New Zealand Heart Foundation, suggest that lipid-modifying therapies are appropriate in patients considered to be at high or very high risk of a cardiac event. This includes patients with established vascular disease. Some recent studies suggest that patients with type 2 DM have risk comparable to patients without DM, but have experienced previous myocardial infarction (MI). Subgroup analysis of trials including the Scandinavian Simvastatin Survival Study (4S) and Cholesterol and Recurrent Events (CARE), which included patients with DM, have shown a significant reduction in adverse outcomes, although many patients with DM and dyslipidemia were excluded. Of lipid-lowering drugs, fibric acid derivatives are probably the most appropriate for patients with DM and dyslipidemia and their role is being evaluated in large, long-term outcome studies such as Fenofibrate Intervention and Event Lowering in Diabetes (FIELD). Thiazolidinediones, a new class of compound for treating patients with type 2 DM, primarily exert their glucose-lowering effect by increasing insulin sensitivity at the level of skeletal muscle, and to a lesser extent, at the liver by decreasing hepatic glucose output. Some of their actions are mediated through binding and activation of the peroxisome proliferator-activated receptor-gamma, a nuclear receptor that has a regulatory role in differentiation of cells, especially adipocytes. The nonhypoglycemic effects of thiazolidinediones, therefore, offer additional potential mechanisms for benefit in patients with type 2 DM and insulin resistance. Thiazolidinediones increase serum HDL-C levels. Troglitazone and pioglitazone have been shown to decrease serum triglyceride levels. Rosiglitazone, conversely has no significant effect on serum triglyceride levels. All of the thiazolidinediones increase serum LDL-C levels (pioglitazone to a lesser extent), although changes in the size of the LDL fraction may render it less susceptible to oxidation and, therefore, less atherogenic. A randomized comparative trial needs to be undertaken to determine whether true differences exist between the thiazolidinediones. Longer studies need to be undertaken to assess their effect on cardiovascular outcomes.
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PMID:Management of co-existing diabetes mellitus and dyslipidemia: defining the role of thiazolidinediones. 1472 95

Polyunsaturated fatty acids (PUFAs) have been previously reported as agonists of peroxisome proliferatoractivated receptor and antagonists of the liver X receptor. The activities on these two nuclear receptors have been attributed to their beneficial effects such as improvement of dyslipidemia and insulin sensitivity and decrease of hepatic lipogenesis. Here we report that PUFAs are ligands of farnesoid X receptor (FXR), a nuclear receptor for bile acids. In a conventional FXR binding assay, arachidonic acid (AA, 20:4), docosahexaenoic acid (DA, 22:6), and linolenic acid (LA, 18:3) had an affinity of 2.6, 1.5, and 3.5 microM, respectively. In a cell-free coactivator association assay, AA, DA, and LA decreased FXR agonist-induced FXR activation with IC(50)s ranging from 0.9 to 4.7 microM. In HepG2 cells, PUFAs regulated the expression of two FXR targets, BSEP and kininogen, in an opposite fashion, although both genes were transactivated by FXR. All three PUFAs dose-dependently enhanced FXR agonist-induced BSEP expression but decreased FXR agonist-induced human kininogen mRNA. Saturated fatty acids such as stearic acid (SA, 18:0) and palmitic acid (PA, 16:0) did not bind to FXR and did not change BSEP or kininogen expression. The pattern of BSEP and kininogen regulation by PUFAs is closely similar to that of the guggulsterone, previously reported as a selective bile acid receptor modulator. Our results suggest that PUFAs may belong to the same class of FXR ligands as guggulsterone, and that the selective regulation of FXR targets may contribute to the beneficial effects of PUFAs in lipid metabolism.
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PMID:Polyunsaturated fatty acids are FXR ligands and differentially regulate expression of FXR targets. 1530 55

Impairment of peroxisome proliferator-activated receptor-gamma (PPAR-gamma), a nuclear receptor that regulates genes involved in lipid and glucose metabolism, may contribute to the onset of metabolic disorders such as diabetes and the accompanying dyslipidemia. Fat-derived tumor necrosis factor alpha (TNF-alpha) and the acute-phase response protein, C-reactive protein (CRP), may also have a role in the development of obesity-related insulin resistance and type 2 diabetes mellitus. In this study, a group of 14 naturally occurring, insulin-requiring, type 2 diabetic cynomolgus monkeys were used to evaluate the effects of the PPAR-gamma agonist, rosiglitazone, on glycemic and lipid parameters and serum levels of TNF-alpha and CRP. The animals were randomized into 2 groups of 7. One group was treated with 0.5 mg/kg rosiglitazone orally once a day for 7 weeks. Blood was collected for evaluation at baseline, at 2 and 7 weeks during the treatment period, and at 7 and 13 weeks after treatment. Daily insulin requirements were recorded during the entire study. Results showed daily exogenous insulin requirements were significantly reduced (P <.01) in those treated with rosiglitazone, while glycemic control was maintained. Plasma triglyceride concentrations were significantly lower (P <.01) whereas plasma cholesterol levels tended to be lower and high-density lipoprotein (HDL) concentrations tended to be higher after treatment. No significant differences were noted in TNF-alpha and CRP serum levels during the treatment period. Body weights remained steady in both groups during the study. These results suggest overall improvement in insulin regulation and lipid profiles during treatment with rosiglitazone.
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PMID:Rosiglitazone treatment improves insulin regulation and dyslipidemia in type 2 diabetic cynomolgus monkeys. 1533 71

Atherosclerosis is an inflammatory process triggered by the presence of lipids in the vascular wall and encompasses a complex interaction between inflammatory cells, vascular elements and lipoproteins through the expression of several adhesion molecules and cytokines. Activation of the nuclear receptor peroxisome proliferator-activated receptor-alpha (PPAR-alpha) has been demonstrated to modulate many aspects of lipoprotein metabolism and inflammation in vitro as well as in animal and human studies. The tissue distribution of PPAR-alpha is extensive and it is abundantly present in the vascular wall where it may mediate many of anti-inflammatory and antiatherogenic effects. Major clinical trials, such as the Veterans Affairs High-Density Lipoprotein Intervention Trial, the Helsinki Heart Study and the Diabetes Atherosclerosis Intervention Study, have demonstrated the beneficial effects of synthetic agonists of PPAR-alpha, specifically fibric acid derivatives, on cardiovascular disease outcome. Although fibric acid trials have reported cardiovascular risk reduction in patients with dyslipidemia, the favorable alterations in plasma lipids can only partially explain the reduction in cardiovascular events in these studies. One common link among these trials was a cohort with a high prevalence of insulin resistance or diabetes, conditions associated with heightened systemic inflammation and increased risk for development and progression of atherosclerosis. In this paper, we will review the many antiatherogenic effects of PPAR-alpha ligands and evidence from fibric acid trials that individuals with insulin resistance or diabetes benefit the most from these drugs, consistent with their anti-inflammatory and antithrombotic properties.
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PMID:Peroxisome proliferator-activated receptor-alpha and atherosclerosis: from basic mechanisms to clinical implications. 1552 94

Members of the nuclear receptor gene family act as biological rheostats to maintain metabolic homeostasis in response to endocrine and nutritional changes. The liver X (LXR) and thyroid hormone (TR) receptors have been shown to regulate overlapping but distinct metabolic pathways important for overall lipid homeostasis. Dyslipidemia is one out of four key determinants for cardiovascular risk and both LXRs and TRs may provide attractive targets for intervention of cardiovascular disease. In this review we will compare the two receptor systems to highlight similarities and differences in structure and function with implications for development of novel treatments for dyslipidemia and atherosclerosis.
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PMID:Convergence of lipid homeostasis through liver X and thyroid hormone receptors. 1554 66


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