UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peroxisome proliferator-activated receptors (PPARs) are members of the nuclear receptor subfamily of transcription factors with pleiotropic effects on intra- and extracellular lipid metabolism, glucose homeostasis, cell proliferation, control of inflammation, and atherosclerosis. Three PPARs, namely alpha, delta, and gamma have been identified with distinct tissue distribution patterns and metabolic functions. PPAR-alpha is predominantly expressed in brown adipose tissue, liver, kidney, duodenum, heart, skeletal muscle, and vascular endothelial cells and is involved in the control of lipoprotein metabolism, fatty acid oxidation, and the cellular uptake of fatty acids. PPAR-gamma is highly expressed in brown and white adipose tissues and, to lesser extent, in large intestine, retina, and some parts of the immune system, and plays a critical role in adipocyte differentiation and fat deposition. PPAR-delta shows a widespread tissue distribution but its regulation and functions are not yet known. Considerable evidence indicates that PPARs (PPAR-alpha and PPAR-gamma) have beneficial effects in inflammatory diseases, including atherosclerosis, through regulation of cytokine production, adhesion molecule expression on the endothelial cells, fibrinolysis, and modulation of monocyte-derived macrophages. In this review, the general and specific roles of the PPAR isotypes and their implications in the control of vascular inflammation and atherosclerosis are discussed.
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PMID:Peroxisome proliferator-activated receptors in atherosclerosis and inflammation--an update. 1142 89

Peroxisome proliferator activated receptors (PPARs) are members of the nuclear receptor super family that modulate gene expression upon ligand activation. They are 3 major subtypes of PPARs: alpha, delta (also called beta), and gamma. PPAR-gamma is widely expressed in the cardiovascular system and is involved in the regulation of tissue inflammation and smooth muscle cell growth pathways as well as in lipoprotein metabolism and coagulation cascades. PPAR-gamma ligands of (e.g., rosigitazone and pioglitazone) have been shown to exert antiatherogenic effects both in vitro and in vivo. PPAR-alpha ligands (e.g., clofibrate and benzofibrate) modulate lipoprotein metabolism, and affect inflammation and coagulation cascade. These effects may be helpful in resolving the dilemma arising from studies that showed significant mortality and morbidity benefits of fibrates in the face of minimal changes in HDL-cholesterol levels. The role of PPAR-delta in atherogenesis remains largely unknown, although it appears that PPAR-delta activation affects lipoprotein metabolism. PPAR ligands appear to be promising agents in limiting atherosclerosis; however, large-scale clinical trials are required to assess their safety and efficacy before they can be added to the clinicians' arsenal of antiatherosclerotic agents.
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PMID:Peroxisome proliferator-activated receptor ligands as antiatherogenic agents: panacea or another Pandora's box? 1200 Sep 72

Formation of the atherosclerotic lesions that lead to myocardial infarction is determined in part by inflammatory responses such as the production of lipid-laden macrophages. In his Perspective, Plutzky highlights the parts played by PPAR nuclear receptors, especially PPAR-delta (Lee et al.), in the modulation of inflammatory responses and hence atherosclerosis.
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PMID:Medicine. PPARs as therapeutic targets: reverse cardiology? 1297 May 71

Peroxisome proliferator-activated receptors (PPARs) alpha, delta and gamma are nuclear transcription factors that regulate fatty acid biosynthesis. Our objectives were to determine the effects of PPAR haplotypes on biochemical, angiographic, clinical phenotypes and their responses to treatment with fluvastatin. We genotyped 372 Lipoprotein and Coronary Atherosclerosis Study subjects for seven single nucleotide polymorphisms (SNPs) in PPARalpha (-35 089A>C, 484C>G), delta (-4401C>T, 294T>C) and gamma (34C>G, 25 506C>T, 161C>T) by restriction mapping or 5' exonuclease assay. We reconstructed and estimated haplotypes frequencies using four algorithms. Linkage disequilibrium (LD) was calculated by D' and haplotype effects by permutation and regression analyses. The PPARD and PPARG SNPs were in LD. The baseline plasma triglyceride levels and their responses to treatment with fluvastatin were associated with PPARD haplotypes (P = 0.01). Triglyceride levels were lowest and highest in homozygotes with diplotypes 3 and 4 (130.1 +/- 40.8 and 194.2 +/- 44.6 mg/dl, P < 0.001), respectively. PPARD haplotype 3 was also an independent determinant of plasma apolipoprotein (apo)B (P = 0.021) and apoC-III (P = 0.001) levels, mean number of coronary lesions (P = 0.046) and changes in triglyceride (P = 0.01) and apoC-III (P = 0.047) levels in response to fluvastatin. Plasma triglyceride levels (P = 0.044), the mean number of coronary lesions (P = 0.026) and changes in minimum lumen diameter in response to fluvastatin (P = 0.022) were also associated with PPARG haplotypes. No significant associations between PPARA haplotypes and the phenotypes or significant interactions between PPAR haplotypes and the occurrence of new clinical events were detected. PPARD and PPARG haplotypes are independent determinants of plasma levels of lipids, severity of coronary atherosclerosis and its response to therapy.
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PMID:Effects of PPARalpha, gamma and delta haplotypes on plasma levels of lipids, severity and progression of coronary atherosclerosis and response to statin therapy in the lipoprotein coronary atherosclerosis study. 1512 52

In this review, the effect of peroxisome proliferator-activated receptor (PPAR) ligands on atherosclerosis is examined. The PPAR-gamma agonist thiazolidinediones are currently indicated for the management of Type 2 diabetes mellitus, and the PPAR-alpha agonist fibrates are used in dyslipidaemia. Here their mechanism of action and the pre-clinical and clinical evidence for the use of these medications for the prevention and treatment of atherosclerotic disease is explored. In addition, the role of PPAR-delta and the possibilities for the role of dual-binding agonists are examined.
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PMID:Peroxisome proliferator-activated receptor ligands in atherosclerosis. 1550 Mar 88

The three peroxisome-proliferator-activated receptor (PPAR) subtypes, PPAR-gamma, PPAR-alpha and PPAR-delta, are nuclear receptors that have been the focus of extensive research during the past decade. These receptors function as lipid sensors that coordinately regulate the expression of large gene arrays and, thereby, modulate important metabolic events. They are also the targets of drugs that are effective in the treatment of metabolic disorders (type 2 diabetes mellitus and atherosclerosis) that afflict industrialized societies at epidemic levels. Ongoing research indicates that modulation of PPAR activity might be an effective therapy for additional maladies associated with the metabolic syndrome, including obesity. Novel PPAR ligands are now being developed that possess broader efficacies and improved tolerability compared with currently available therapeutic agents.
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PMID:PPARs: therapeutic targets for metabolic disease. 1586 Mar 71

Peroxisome proliferator-activated receptors (PPARs) are ligand-activated transcription factors belonging to the nuclear hormone receptor superfamily. The 3 PPAR isotypes, PPAR-alpha, PPAR-gamma, and PPAR-delta, play a key role in the regulation of lipid and glucose metabolism. Obesity and the interrelated disorders of the metabolic syndrome have become a major worldwide health problem. In this review, we summarize the critical role of PPARs in regulating inflammation, lipoprotein metabolism, and glucose homeostasis and their potential implications for the treatment of obesity, diabetes, and atherosclerosis.
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PMID:Obesity, peroxisome proliferator-activated receptor, and atherosclerosis in type 2 diabetes. 1655 57

Peroxisome proliferator-activated receptor delta (PPARdelta) agonists are promising new agents for treatment of the metabolic syndrome. Although they possess antiatherosclerotic properties in vivo and promote endothelial cell survival, their mechanism of action is incompletely understood. 14-3-3epsilon is a critical component of the endothelial cell antiapoptotic machinery, which is essential to maintain homeostasis of the vascular wall. To test the hypothesis that PPARdelta targets 14-3-3epsilon in endothelial cells, we studied the response of the gene that encodes 14-3-3epsilon in humans, YWHAE, to PPARdelta ligands (L-165,041 and GW501516). We found that PPARdelta activates YWHAE promoter in a concentration and time-dependent manner. Consistent with these findings, L-165,041 increased 14-3-3epsilon mRNA and protein level, whereas PPARdelta small interfering RNA suppressed both basal and L-165,041-dependent YWHAE transcription and 14-3-3epsilon protein expression. Surprisingly, PPAR response elements in YWHAE promoter were not required for upregulation by PPARdelta, whereas a CCAAT/enhancer binding protein (C/EBP) site located at -160/-151 bp regulated both basal and PPARdelta-dependent promoter activity. Intriguingly, activation or knock down of endogenous PPARdelta regulated C/EBPbeta protein expression. Chromatin immunoprecipitation assays demonstrated that L-165,041 determines the localization of C/EBPbeta to the region spanning this C/EBP response element, whereas sequential chromatin immunoprecipitation analysis revealed that C/EBPbeta and PPARdelta form a transcriptional activating complex on this C/EBP site. Our work uncovers a novel role for C/EBPbeta as a mediator of PPARdelta-dependent 14-3-3epsilon gene regulation in human endothelial cells and provides insight into the mechanism by which PPARdelta agonists may be beneficial in atherosclerosis.
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PMID:Peroxisome proliferator-activated receptor-delta upregulates 14-3-3 epsilon in human endothelial cells via CCAAT/enhancer binding protein-beta. 1730 61

Cardiovascular disease (CVD) is the most critical global health threat, which contributes more than one third of global morbidity. CVD includes heart disease, vascular disease, atherosclerosis, stroke and hypertension. The most important independent risk factors for CVD include dyslipidemia along with hypertension, obesity, sedentary lifestyle, diabetes and chronic inflammation. These factors are directly regulated by diet, metabolism and physical activity. Diets rich in fat and carbohydrate coupled to sedentary lifestyles have contributed to the increase in dyslipidemia, type 2 diabetes, obesity and CVD in the world. Discovery of Peroxisome Proliferator Activated Receptors (PPARs) as a key regulator of metabolic pathways has led to significant insight into the mechanisms regulating these processes. Three PPAR subtypes, encoded by distinct genes, are designated as PPAR-alpha, PPAR-delta (also know as beta) and PPAR-gamma. PPARs act as nutritional sensors that regulate a variety of homeostatic functions including metabolism, inflammation and development. PPAR-alpha is the main metabolic regulator for catabolism whereas PPAR-gamma regulates anabolism or storage. PPARs are expressed in the cardiovascular system such as endothelial cells, vascular smooth muscle cells and monocytes/macrophages. It has been shown that they play an important role in the modulation of inflammatory, fibrotic and hypertrophic responses. In 1997, a Glaxo patent described that Troglitazone (first PPAR-gamma ligand to reach market) reduced TNF-induced VCAM1 expression in HUVECs indicating the potential benefit in atherosclerosis. A series of patents from Eli Lilly and Dr. Reddy's Laboratories Ltd. between 1999 and 2005 described a variety of PPAR-alpha and -alpha,gamma dual ligands in a number of patents having glucose, triglyceride, cholesterol lowering, HDL elevating and body weight reducing activity. Patents from Metabolex and Tularik in 2001 and 2002 described the beneficial effects of SPPARM molecules for insulin resistance and diabetes, without showing concern on PPAR-gamma related side effects such as edema and body weight. GSK and Takeda described the potential effects of PPAR-delta modulators during 2001 to 2004 in few patents. Several clinical and preclinical studies have demonstrated the beneficial effects of PPAR ligands on various cardiovascular risk factors. This review intends to capture some of the key studies in this area as is described in some recent patents and literature.
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PMID:Role of PPAR in cardiovascular diseases. 1822 Oct 86

Activation of the nuclear hormone receptor peroxisome proliferator-activated receptor delta (PPARdelta) has been shown to improve insulin resistance, adiposity, and plasma HDL levels. However, its antiatherogenic role remains controversial. Here we report atheroprotective effects of PPARdelta activation in a model of angiotensin II (AngII)-accelerated atherosclerosis, characterized by increased vascular inflammation related to repression of an antiinflammatory corepressor, B cell lymphoma-6 (Bcl-6), and the regulators of G protein-coupled signaling (RGS) proteins RGS4 and RGS5. In this model, administration of the PPARdelta agonist GW0742 (1 or 10 mg/kg) substantially attenuated AngII-accelerated atherosclerosis without altering blood pressure and increased vascular expression of Bcl-6, RGS4, and RGS5, which was associated with suppression of inflammatory and atherogenic gene expression in the artery. In vitro studies demonstrated similar changes in AngII-treated macrophages: PPARdelta activation increased both total and free Bcl-6 levels and inhibited AngII activation of MAP kinases, p38, and ERK1/2. These studies uncover crucial proinflammatory mechanisms of AngII and highlight actions of PPARdelta activation to inhibit AngII signaling, which is atheroprotective.
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PMID:PPARdelta-mediated antiinflammatory mechanisms inhibit angiotensin II-accelerated atherosclerosis. 1833 95

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