Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelin is a potent vasoconstrictor peptide isolated from endothelial cells and it induces smooth muscle cell proliferation. Endothelin-1 secretion is increased in atheroma and induces deleterious effects such as vasospasm and atherosclerosis. Oxidized low-density lipoproteins (LDLs) induce atherosclerosis in the vascular wall, as well as endothelin-1 secretion in endothelial cells and are activators of both peroxisome proliferator-activated receptor-alpha (PPAR-alpha) and PPAR-gamma. PPAR-alpha (fibric acids) and PPAR-gamma (glitazones) activators are used to treat dyslipoproteinemias and type 2 diabetes, respectively. Furthermore, these drugs induce numerous pleiotropic effects, such as inhibiting thrombin-induced endothelin-1 secretion in endothelial cells. This study shows that both PPAR-alpha (Wy 14643) and PPAR-gamma activation (rosiglitazone) partially inhibit oxidized LDL-induced protein kinase C activity and endothelin-1 secretion in endothelial cells at the transcriptional levels and suggests that synthetic PPAR activators are stronger PPAR activators than oxidized LDL. This study also suggests that fibrate and glitazone treatments should have beneficial effects on the vascular wall by reducing endothelin-1 secretion and the resulting vasospasm and atherosclerosis.
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PMID:Peroxisome proliferator-activated receptor activators inhibit oxidized low-density lipoprotein-induced endothelin-1 secretion in endothelial cells. 1245 15

Conjugated linoleic acid (CLA) is a mixture of positional (e.g. 7,9; 9,11; 10,12; 11,13) and geometric (cis or trans) isomers of octadecadienoic acid. This compound was first shown to prevent mammary carcinogenesis in murine models. Later investigations uncovered a number of additional health benefits, including decreasing atherosclerosis and inflammation while enhancing immune function. The mechanisms of action underlying these biological properties are not clearly understood. The aim of this review is to highlight recent advances in CLA research related to experimental inflammatory bowel disease. In addition, two possible mechanisms of action (i.e. endoplasmic and nuclear) were discussed in detail in the context of enteric inflammatory disorders. Conjugated linoleic acid was first implicated in down-regulating the generation of inducible eicosanoids (i.e. PGE(2) and LTB(4)) involved in early micro-inflammatory events (endoplasmic). More recently, CLA has been shown to modulate the expression of genes regulated by peroxisome proliferator-activated receptors (PPARs; nuclear). In pigs, prolonged dietary CLA treatment stimulated the expression of PPAR-gamma in the muscle. Thus, evidence supporting both mechanistic theories of CLA acting through eicosanoid synthesis and PPAR activity is available. The further understanding of the anti-inflammatory mechanisms of action of CLA may yield novel nutritional therapies for enteric inflammation.
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PMID:Colonic anti-inflammatory mechanisms of conjugated linoleic acid. 1246 64

Many studies have shown that fat distribution influences metabolism independently of the effects of total body fat stores. The accumulation of fat in the abdominal area, particularly in the visceral fat compartment, seems to be associated with an increased risk to display complications such as insulin resistance, diabetes, dyslipidemias and atherosclerosis. As reviewed in this paper, the mechanisms explaining this impact of fat distribution is not clearly established, although evidence suggests that free-fatty acids, leptin, TNF-alpha, PPAR-gamma, and F are directly or indirectly involved in this process. Despite a lot of research has yet to be performed to mechanistically characterize the impact of visceral fat on the metabolic profile, there is enough consensus in the literature about its effect to justify its consideration in a clinical setting. In this regard, the use of waist circumference as a clinical marker of variations in visceral fat is highly relevant and should be encouraged. This review also presents an evolutionary perspective according to which body fat gain would have been and may still remain an adaptation that helps to deal with stress and inflammation.
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PMID:Metabolic impact of body fat distribution. 1250 50

The metabolic nuclear receptors act as metabolic and toxicological sensors, enabling the organism to quickly adapt to environmental changes by inducing the appropriate metabolic genes and pathways. Ligands for these metabolic receptors are compounds from dietary origin, intermediates in metabolic pathways, drugs, or other environmental factors that, unlike classical nuclear receptor ligands, are present in high concentrations. Metabolic receptors are master regulators integrating the homeostatic control of (a) energy and glucose metabolism through peroxisome proliferator-activated receptor gamma (PPARgamma); (b) fatty acid, triglyceride, and lipoprotein metabolism via PPARalpha, beta/delta, and gamma; (c) reverse cholesterol transport and cholesterol absorption through the liver X receptors (LXRs) and liver receptor homolog-1 (LRH-1); (d) bile acid metabolism through the farnesol X receptor (FXR), LXRs, LRH-1; and (e) the defense against xeno- and endobiotics by the pregnane X receptor/steroid and xenobiotic receptor (PXR/SXR). The transcriptional control of these metabolic circuits requires coordination between these metabolic receptors and other transcription factors and coregulators. Altered signaling by this subset of receptors, either through chronic ligand excess or genetic factors, may cause an imbalance in these homeostatic circuits and contribute to the pathogenesis of common metabolic diseases such as obesity, insulin resistance and type 2 diabetes, hyperlipidemia and atherosclerosis, and gallbladder disease. Further studies should exploit the fact that many of these nuclear receptors are designed to respond to small molecules and turn them into therapeutic targets for the treatment of these disorders.
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PMID:Nuclear receptors and the control of metabolism. 1251 1

Protease inhibitors decrease the viral load in HIV patients, however the patients develop hypertriglyceridemia, hypercholesterolemia, and atherosclerosis. It has been assumed that protease inhibitor-dependent increases in atherosclerosis are secondary to the dyslipidemia. Incubation of THP-1 cells or human PBMCs with protease inhibitors caused upregulation of CD36 and the accumulation of cholesteryl esters. The use of CD36-blocking antibodies, a CD36 morpholino, and monocytes isolated from CD36 null mice demonstrated that protease inhibitor-induced increases in cholesteryl esters were dependent on CD36 upregulation. These data led to the hypothesis that protease inhibitors induce foam cell formation and consequently atherosclerosis by upregulating CD36 and cholesteryl ester accumulation independent of dyslipidemia. Studies with LDL receptor null mice demonstrated that low doses of protease inhibitors induce an increase in the level of CD36 and cholesteryl ester in peritoneal macrophages and the development of atherosclerosis without altering plasma lipids. Furthermore, the lack of CD36 protected the animals from protease inhibitor-induced atherosclerosis. Finally, ritonavir increased PPAR-gamma and CD36 mRNA levels in a PKC- and PPAR-gamma-dependent manner. We conclude that protease inhibitors contribute to the formation of atherosclerosis by promoting the upregulation of CD36 and the subsequent accumulation of sterol in macrophages.
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PMID:HIV protease inhibitors promote atherosclerotic lesion formation independent of dyslipidemia by increasing CD36-dependent cholesteryl ester accumulation in macrophages. 1256 55

A major challenge in medical research is to break the traditional compartmentalization that frequently separates different fields. Unexpected linkages between different areas of medicine are often of particular interest. An unsuspected "bridge" across clinical cardiology and basic immunology, as presented in this review, is a good example of such a linkage. Peroxisome proliferator-activated receptor gamma (PPARgamma) plays a role in glucose homeostasis and adipocyte differentiation and has been implicated in diabetes mellitus, a metabolic disorder predisposing to atherosclerosis. In addition, PPARgamma ligands of the antidiabetic thiazolidinediones group exert beneficial effects on atherosclerosis. Expression of major histocompatibility complex class II (MHC class II), a key molecule in the immune response, has recently been observed in atherosclerotic plaques. In recent years, important effects of PPARgamma ligands on MHC class II expression, activated T lymphocytes and macrophage activation have been described. Using atherosclerosis as a model of an immune-mediated disease, we summarize in this review the recent exciting observations that link PPARgamma to the immune response. (c) 2002 Prous Science. All rights reserved.
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PMID:The Role of PPARgamma Ligands as Regulators of the Immune Response. 1267 28

Low density lipoprotein has been shown to induce vascular smooth muscle cell proliferation and, therefore, to directly contribute to the development of atherosclerosis. Peroxisome proliferator-activated receptors (PPARs) are nuclear hormone receptors involved in various cellular processes, such as cell cycle regulation and carcinogenesis. PPARgamma, the best characterized of the PPARs, plays a crucial role in the regulation of cell proliferation, adipocyte differentiation, insulin sensitivity, energy expenditure, development of atherosclerosis and carcinogenesis. In the present review we discuss recent findings showing that a new class of antidiabetic drugs, the PPARgamma ligands thiazolidinediones, might have potential antiatherosclerotic effects. (c) 2002 Prous Science. All rights reserved.
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PMID:Inhibition of the Low Density Lipoprotein-Induced Vascular Smooth Muscle Cell Growth by PPARgamma Ligands. 1267 38

Current treatment for atherosclerotic heart disease consists mainly of the administration of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors or 'statin' class of drugs. Statins, which lower low-density lipoprotein cholesterol levels and have numerous other effects in the arterial wall, have shown remarkable efficacy and an exemplary safety profile in preventing both primary and secondary atherosclerotic events. These agents, however, are less effective at raising high-density lipoprotein, lowering triglycerides and decreasing insulin resistance--all of which are important targets for the prevention of ischemic vascular disease. Agonists of the peroxisome proliferator-activated receptors (PPARs) are among the most promising drug candidates to target these treatment gaps. Only PPARalpha agonists have been shown clinically to improve the outcome of atherosclerotic heart disease; however, it will only be a matter of time before we know whether compounds that modulate the function of PPARgamma and beta/delta are also efficacious at combating atherosclerosis.
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PMID:PPAR agonists in the treatment of atherosclerosis. 1268 Dec 42

The anti-diabetic thiazolidinediones (TZDs) are a class of compounds with insulin-sensitizing activity that were originally discovered using in vivo pharmacological screens. In subsequent binding studies, TZDs were demonstrated to enhance insulin action by activating peroxisome proliferator-activated receptor gamma (PPARgamma). PPARgamma is a member of the ligand-activated nuclear receptor superfamily that promotes adipogenesis and enhances insulin sensitivity by controlling the expression of genes in glucose and lipid metabolism. Given the large size of the ligand binding pocket in PPARgamma, novel classes of both full and partial agonists that are structurally distinct from TZDs have been discovered. These compounds have been effective tools in differentiating adipogenic and insulin-sensitizing activities as well as tissue selectivity of PPARgamma activation. This information has led to the hypothesis that one ligand can activate or inactivate PPARs depending upon the tissue in which the PPAR resides. Thus particular compounds can be designated selective PPAR modulators or SPPARMs, a concept similar to that observed with the activation of estrogen receptor (ER) by SERMS. Additionally, both preclinical and clinical data suggest that PPARgamma activation is useful for the prevention of atherosclerosis. However, the effects of TZDs on plasma lipid profiles do not solely account for their anti-atherogenic effects. Recent studies with macrophage cells and animal models for atherosclerosis indicate that TZDs reduce the size and number of lesions formed in the vessel wall by modulating foam cell formation and inflammatory responses by macrophages. Thus in addition to the treatment of type II diabetes, PPARgamma agonists can be potentially employed for the treatment of atherosclerosis in general population.
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PMID:Modulation of PPARgamma activity with pharmaceutical agents: treatment of insulin resistance and atherosclerosis. 1268 6

Peroxisome proliferator-activated receptor gamma (PPARgamma) colocalizes with oxidized low-density lipoprotein (LDL) in foam cells in atherosclerotic lesions. We have explored a potential role of oxidized fatty acids in LDL as PPARgamma activators. LDL from patients suffering from intermittent claudication due to atherosclerosis was analyzed using HPLC and gas chromatography/mass spectrophotometry and found to contain 9-hydroxy and 13-hydroxyoctadecadienoic acid (9- and 13-HODE), as well as 5-hydroxy-, 12-hydroxy- and 15-hydroxyeicosatetraenoic acid (5-, 12- and 15-HETE respectively). PPARgamma was potently activated by 13(S)-HODE and 15(S)-HETE, as judged by transient transfection assays in macrophages or CV-1 cells. 5(S)- and 12(S)-HETE as well as 15-deoxy-Delta(12,14)-prostaglandin J(2) also activated PPARgamma but were less potent. Interestingly, the effect of the lipoxygenase products 13(S)-HODE and 15(S)-HETE as well as of the drug rosiglitazone were preferentially enhanced by the coactivator CREB-binding protein, whereas the effect of the cyclooxygenase product 15-deoxy-Delta(12,14)-prostaglandin J(2) was preferentially enhanced by steroid receptor coactivator-1. We interpret these results, which may have relevance to the pathogenesis of atherosclerosis, to indicate that the lipoxygenase products on the one hand and the cyclooxygenase product on the other exert specific effects on the transcription of target genes through differential coactivator recruitment by PPARgamma/9-cis retinoic acid receptor heterodimer complexes.
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PMID:Differential recruitment of the coactivator proteins CREB-binding protein and steroid receptor coactivator-1 to peroxisome proliferator-activated receptor gamma/9-cis-retinoic acid receptor heterodimers by ligands present in oxidized low-density lipoprotein. 1274 8


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