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)

Atherosclerotic complications are related to the unstable character of the plaque rather than its volume. Vulnerable plaques often contain a large lipid core, a reduced content of smooth muscle cells (SMCs), and an accumulation of inflammatory cells. Regulation of this inflammatory response is an essential element in chronic inflammatory diseases such as atherosclerosis. Nuclear receptors and particularly peroxisome proliferator-activated receptors (PPARs) have emerged as therapeutic targets with a widespread impact on the treatment of metabolic disorders because they can modulate gene expression involved in lipid and glucose homeostasis and can exert anti-inflammatory properties. However, little is known about nuclear receptor effects on SMC inflammation, which produces large amounts of IL-6 and prostanoids. The aim of this study was to evaluate anti-inflammatory properties of nuclear receptor activators in a human physiological SMC model. We show that PPAR activators, as well as liver X receptor alpha, farnesoid X receptor and retinoid X receptor alpha activators, inhibit IL-1beta-induced SMC 6-keto PGF1alpha synthesis, an index of cyclooxygenase (COX)-2 activity, with IC(50) between 1 and 69 microM. In contrast, PPARgamma activators, as exemplified by rosiglitazone and pioglitazone, were unable to inhibit cytokine-induced 6-keto PGF1alpha synthesis. We also demonstrate for the first time that the COX-2 inhibitor rofecoxib can reduce 6-keto PGF1alpha production by both enzymatic inhibition and transcriptional repression. These results show that some nuclear receptor activators have SMC anti-inflammatory properties due to COX-2 inhibition which could participate in their anti-atherosclerotic properties beyond lipid impacts.
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PMID:PPAR activators and COX inhibitors selectively block cytokine-induced COX-2 expression and activity in human aortic smooth muscle cells. 1937 65

Eicosanoids and other bioactive lipid mediators are indispensable regulators of biological processes, as demonstrated by the numerous inflammatory diseases resulting from their dysregulation, including cancer, hyperalgesia, atherosclerosis, and arthritis. Despite their importance, a robust strategy comparable with gene or protein array technology for comprehensively analyzing the eicosanoid metabolome has not been forthcoming. We have developed liquid chromatography-tandem mass spectrometry methodology that quantitatively and comprehensively analyzes the eicosanoid metabolome and utilized this approach to characterize eicosanoid production during experimental Lyme arthritis in mice infected with the bacterium Borrelia burgdorferi. Eicosanoids were extracted throughout infection from the joints of Lyme arthritis-resistant and -susceptible mice and subjected to lipidomic profiling. We identified temporal and quantitative differences between these mouse strains in the production of eicosanoids, which correlated with differences in arthritis development. The eicosanoid biosynthetic enzyme cyclooxygenase (COX)-2 has been implicated in the regulation of Lyme arthritis pathology, and subsequent lipidomic profiling of B. burgdorferi-infected COX-2(-/-) mice identified reductions not only in COX-2 products but, surprisingly, also significant off-target reductions in 5-lipoxygenase metabolites. Our results demonstrate the utility of a comprehensive lipidomic approach for identifying potential contributors to disease pathology and may facilitate the development of more precisely targeted treatment strategies.
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PMID:Lipidomic analysis of dynamic eicosanoid responses during the induction and resolution of Lyme arthritis. 1948 88

Oxidized cholesterols belong to a subgroup of oxLDLs which play major roles in atherosclerosis. In order to investigate the contribution of oxysterols from oxLDLs in atherosclerosis, cholesterol-3-beta, 5-alpha, 6-beta-triol (alpha-Triol) was studied in human umbilical vein endothelial cells. We found that alpha-Triol concentration- and time-dependently enhanced COX-2 protein expression and mRNA production followed by PGE(2) generation in human umbilical vein endothelial cells. In addition, alpha-Triol upregulated peNOS(1177) protein phosphorylation and concentration-dependently increased nitric oxide production. eNOS(1177) phosphorylation was abrogated by the PI3K inhibitor, LY294002. In studying the mechanisms involved in alpha-Triol-induced COX-2/PGE(2) production, inhibitors of NOS, PI3K, p38, and NF-kappaB, effectively attenuated COX-2 protein induction and mRNA expression, suggesting that the PI(3)K-Akt-eNOS pathway, p38MAPK, and NF-kappaB are involved in alpha-Triol-induced COX-2 expression, and following increases in p38 and Akt phosphorylation, the concentration-dependent inhibition of COX-2 protein expression by L-NAME further suggested their involvement at the translation level. We concluded that alpha-Triol increases COX-2 mRNA and protein expression via coordination with the PI(3)K-Akt-eNOS pathway and NF-kappaB. Moreover, COX-2 gene expression might be regulated by activated p38 MAPK in another unknown regulation pathway. Our findings also suggested that alpha-Triol might contribute to the effect of induced atherosclerosis in humans through COX-2 production in endothelial cells.
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PMID:Cholesterol-3-beta, 5-alpha, 6-beta-triol induced PI(3)K-Akt-eNOS-dependent cyclooxygenase-2 expression in endothelial cells. 1961 84

Significant reduction of renal mass initiates a series of hemodynamic and nonhemodynamic events which lead to proteinuria, glomerulosclerosis, tubulointerstitial injury, and end-stage renal failure. Lipid mediators derived from fatty acids participate in regulation of renal hemodynamic and nonhemodynamic processes that influence progression of renal disease. Composition of cellular fatty acids and hence related signaling responses are influenced by their dietary contents. Consumption of omega-3 fatty acids (O-3FA) has proven effective in mitigating atherosclerosis. We tested the hypothesis that O-3FA supplementation may retard progression and attenuate upregulation of pathways involved in oxidative stress, inflammation, and fibrosis in rats with renal mass reduction. Sprague-Dawley rats were subjected to 5/6 nephrectomy [chronic renal failure (CRF)] and randomly assigned to the untreated and O-3FA-treated (0.3 g.kg(-1).day(-1) by gastric gavage for 12 wk) groups. Sham-operated rats served as controls. The untreated CRF rats exhibited proteinuria, hypertension, azotemia, upregulations of renal tissue NAD(P)H oxidase, MCP-1, COX-2, PAI-1, TGF-beta, Smad2, alpha-smooth muscle actin, fibronectin, and hepatocyte growth factor, activation of ERK1/2 and NF-kappaB, downregulation of Smad7, intense mononuclear leukocyte infiltration, tubulointerstitial fibrosis, and glomerulosclerosis. O-3FA supplementation significantly lowered COX-2, NAD(P)H oxidase (NOX-4, gp91(phox), p47(phox), p22(phox)), PAI-1, TGF-beta, connective tissue growth factor, alpha-smooth muscle actin, fibronectin, Smad2, and MCP-1, raised Smad7, and attenuated ERK1/2 and NF-kappaB activation, tubulointerstitial fibrosis, and inflammation. Thus, long-term O-3FA supplementation can reduce or reverse upregulation of prooxidant, proinflammatory, and profibrotic pathways and attenuate tubulointerstitial fibrosis in the remnant kidney.
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PMID:Omega-3 fatty acid supplementation attenuates oxidative stress, inflammation, and tubulointerstitial fibrosis in the remnant kidney. 1965 15

Pharmacological suppression of cyclooxygenase (COX)-1 and -2-mediated prostanoid biosynthesis by non steroidal anti-inflammatory drugs (NSAIDs) is used in the therapy of inflammation, fever, and pain. However, long-term application of these drugs is associated with severe side effects, mainly gastrointestinal injury and renal irritations, apparently due to impaired biosynthesis of physiologically relevant prostanoids. Although COX-2 selective drugs (coxibs) show reduced gastrointestinal complications, recent clinical trials indicated a significantly increased cardiovascular risk. In order to minimize these side-effects, selective suppression of microsomal prostaglandin E(2) synthase (mPGES)-1 derived prostaglandin (PG)E(2) formation has been considered as alternative to general inhibition of prostanoid biosynthesis. mPGES-1 is functionally coupled to COX-2 being responsible for excessive PGE(2) generation connected to pathologies and current knowledge suggests key roles of mPGES-1 in inflammation, pain, fever, atherosclerosis, and tumorigenesis. However, mPGES-1 as promising therapeutic target was questioned because blockade of mPGES-1 allows redirection of the substrate PGH(2) to other PG synthases, and the consequences are still elusive. This review summarizes current knowledge about synthetic and natural mPGES-1 inhibitors focusing on structural and mechanistic investigations. Further, the therapeutic efficiency and safety is critically discussed on the basis of cellular and animal studies in which mPGES-1 activity was pharmacologically or genetically (knockout, knockdown) modulated.
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PMID:Inhibitors of the microsomal prostaglandin E(2) synthase-1 as alternative to non steroidal anti-inflammatory drugs (NSAIDs)--a critical review. 1975 18

Cyclooxygenase (COX) inhibitors remain a major class of drugs in rheumatology and their widespread use is expected to continue. The view that a prothrombotic effect explains the increase in myocardial infarction (MI) associated with both COX-2 selective and traditional NSAIDs (tNSAIDs) has been increasingly questioned. We review the evidence that prostanoids direct the immune response away from a Th1 response and that consequently inhibition of prostaglandin synthesis results in augmentation of the Th1 response by limiting prostanoid synthesis. Although the role of prostanoids as mediators of inflammation in the periphery is well understood, the systemic immunomodulatory role of prostanoids shifting the immune response away from a Th1 type is less appreciated. Atherosclerosis is an inflammatory arterial disease driven by a Th1 type immune response. Moreover, the vulnerable phenotype of atheroma is associated with the cellular Th1 immune response in contrast to the stable plaque phenotype associated with a Th2 type response. We propose a class effect of COX-2 selective and tNSAIDs, which results in augmentation of Th1-mediated atherogenesis/ production of pro-atherogenic cytokines associated with detrimental plaque remodeling, instability, rupture and embolization resulting in MI. Understanding of the Th1 mediated immunity, which underlies the cardiovascular, and the non-Th1, which underlies gastrointestinal adverse effects associated with the use of COX inhibitors, should lead to better risk assessment and the development of anti-inflammatory treatments with improved safety. Our explanation also emphasizes the pharmacological effects and consequences of immunomodulation in the inflammation associated with atherosclerosis and other Th1- as well as non-Th1-driven diseases.
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PMID:Association of myocardial infarctions with COX-2 inhibition may be related to immunomodulation towards a Th1 response resulting in atheromatous plaque instability: an evidence-based interpretation. 2009 7

Although long-term use of cyclooxygenase (COX)-2 inhibitors may be associated with increased cardiovascular risk, their effects on vascular reactivity in atherosclerosis has remained largely unexplored. The aim of the present study was to evaluate the role of COX-2 induced by an atherosclerotic process, in the local control of vascular tone. New Zealand White rabbits were fed 0.3% cholesterol and subjected to balloon injury of the abdominal aorta. After 2 wk, the aorta was removed and used for organ bath experiments and immunohistochemistry, and the prostaglandins released were measured using enzyme immunoassays. Hypercholesterolemia and vascular injury significantly increased the thickness of the intimal layer, which was associated with an induction of COX-2 immunoreactivity throughout the aortic wall. In these preparations, a significant decrease of the maximal contractions induced by norepinephrine was observed. The norepinephrine-induced contractions of atherosclerotic preparations were restored by the COX inhibitors DuP-697 (0.5 micromol/l) and indomethacin (1.7 micromol/l), to similar contractions as was observed in aortic preparations derived from healthy rabbits. Norepinephrine stimulation of the abdominal aorta was accompanied by increased levels of prostaglandin I(2) but not of prostaglandin E(2), prostaglandin D(2), or thromboxane A(2) in atherosclerotic compared with normal aorta. Selective COX-2 inhibition significantly decreased the prostaglandin I(2) release from atherosclerotic aorta but had no effect on the prostaglandin release from aortic preparations derived from normal rabbits. These observations suggest that the local induction of COX-2 during atherosclerosis decreased the sensitivity to norepinephrine and that COX-2 inhibitors may increase vascular reactivity at sites of atherosclerotic lesions.
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PMID:Altered reactivity to norepinephrine through COX-2 induction by vascular injury in hypercholesterolemic rabbits. 1978 81

COX (cyclo-oxygenase)-2 and members of the PAR (protease-activated receptor) family (PARs 1-4) are highly overexpressed in a number of angiogenesis-dependent pathologies, including advanced atherosclerosis and cancer. An appreciation of the potential role(s) of PARs and COX enzymes in physiological angiogenesis is, however, currently lacking. Exposure of human endothelial cells to serine proteases (e.g. thrombin) or to PAR-selective agonist peptides leads to a wide range of cellular responses, including enhanced expression of COX-2, and we have shown that this induction depends on activation of classic pro-inflammatory signalling elements [e.g. MAPKs (mitogen-activated protein kinases) and NF-kappaB (nuclear factor kappaB)]. Our current studies suggest that COX-2-derived mediators are important autocrine regulators of PAR-stimulated angiogenesis. This mechanism could help us to explain how this novel family of receptors couple vascular inflammation with repair and angiogenesis in health and disease.
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PMID:Protease-activated receptors, cyclo-oxygenases and pro-angiogenic signalling in endothelial cells. 1990 42

Oxidized low-density lipoprotein (oxLDL) cross-talks with macrophages, and both play a crucial role in the initiation and progression of atherosclerosis. Orphan nuclear receptor Nur77 is potently induced in macrophages by diverse stimuli, suggesting that it may be a key regulator of inflammation in vascular cells. The detailed mechanism of Nur77 activation and subsequent function in macrophages induced by oxLDL remains unclearly. In this study, we demonstrated that Nur77 is upregulated in a dose and time-dependent fashion by oxLDL stimulation in murine macrophages, as detected by real-time PCR and Western blotting. OxLDL activated the phosphorylation ERK1/2 and p38 MAPK, inhibition of p38 MAPK but not ERK1/2 attenuated Nur77 expression. Importantly, overexpression of Nur77 suppressed oxLDL-induced proinflammatory cytokines and chemokines secretion including tumor necrosis factor (TNF)alpha and monocyte chemoattractant protein-1(MCP-1). While knockdown Nur77 expression by specific small interfering RNA (siRNA) resulted in the enhancement of the secretion. Furthermore, exposure of macrophages to oxLDL significantly upregulated cyclooxygenase-2(COX-2) expression. However, this could be markedly inhibited by Nur77 overexpression. Also, Nur77 siRNA increased oxLDL-induced COX-2 expression and 6-mercaptopurine (6-MP) attenuated the increase. The results indicated that Nur77 is induced by oxLDL via p38 MAPK signal pathway and subsequently protects against inflammation by the inhibition of proinflammatory COX-2 pathway in activated macrophages. Specifically modifying transcription activity of Nur77 may represent a potential molecular target for the prevention and treatment of atherosclerosis.
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PMID:Nuclear receptor Nur77 suppresses inflammatory response dependent on COX-2 in macrophages induced by oxLDL. 2038 97

The 12/15-lipoxygenase (LO) cascade governs the generation of 12-hydroperoxy-eicosatetraenoic acid (HPETE) and 15-HPETE from arachidonic acid. The 5-LO pathway plays a fundamental role in the biosynthesis of leukotrienes, essential inflammatory lipid mediators. Cyclooxygenase (COX)-1 and -2 biosynthetic pathways are responsible for prostaglandin and thromboxane formation. Experimental investigations in animal models using 12/15-LO deficient mice, 12/15-LO or 15-LO transgenic mice, or pharmacological 15-LO inhibition have all demonstrated the essential role of 12/15-LO in atherogenesis. The underlying mechanisms are linked to low-density lipoprotein oxidation, pro-inflammatory Th1 cytokine production and enhanced monocyte-endothelial cell interaction. Human genetic studies as well as disruption of the 5-LO gene in mouse models of hyperlipidemia revealed that 5-LO and 5-LO-activating protein are associated with risks of human cardiovascular disease, and that this cascade plays an important role in aortic aneurysm pathogenesis through leukotriene-mediated inflammatory chemokine production. COX-1 plays an active role in atherogenesis via thromboxane A(2), while COX-2-derived prostaglandin (PGI(2)) protects against atherosclerosis in murine models. Recent data demonstrated that selective inhibition of COX-2 augments the risk of cardiovascular events in patients. Selective inhibition or blockade of selective components in these two enzymatic pathways through systemic drug delivery or medical device approaches (e.g., drug-eluting stents) may have therapeutic benefit against certain cardiovascular diseases.
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PMID:Lipoxygenase and prostaglandin G/H synthase cascades in cardiovascular disease. 2047 20


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