UMLS:C0004153 - FACTA Search

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)

Minor components of virgin olive oil (VOO) may play a key role in the beneficial effects of VOO on atherosclerosis. In the present study we evaluated the influence of the unsaponifiable fraction of VOO on the production of eicosanoids and nitric oxide (NO) by endothelial cells (HUVECs). Triglyceride-rich lipoprotein (TRLs) were isolated from human serum after the intake of meals enriched in 3 high-oleic acid oils, i.e., high-oleic sunflower (HOSO), VOO, or enriched-virgin olive (EVO) oils, the last-mentioned containing 2.4% of unsaponifiable matter. HOSO induced a greater accumulation of triglycerides (TGs) in the postprandial serum than VOO or EVO, as measured by calculating the area under the curve. The incubation with TRLs increased NO release by endothelial cells compared with untreated control cells, but the effects of the various TRLs did not differ. EVO-derived TRLs reduced the production of prostaglandin E(2) (PGE(2)) and thromboxane B(2) (TxB(2)) (the stable metabolite of TxA(2)) compared with VOO- or HOSO-derived TRLs. The release of PGI(2) (as 6-keto PGF(1alpha)) was similarly diminished by all TRLs compared with the control. In conclusion, the unsaponifiable fraction of VOO does not affect postprandial triglyceridemia, but it has favorable effects on endothelial function, mainly by reducing proinflammatory and vasoconstrictor eicosanoid synthesis (PGE(2) and TxB(2)).
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PMID:The unsaponifiable fraction of virgin olive oil in chylomicrons from men improves the balance between vasoprotective and prothrombotic factors released by endothelial cells. 1557 26

Impairment of endothelium-dependent vasodilation is associated with the initiation and development of atherosclerosis. Vasodilator prostanoids constitute a protective mechanism in maintaining normal vasomotor function. In the current study, we determined the effect of in vitro vitamin E supplementation at physiologically relevant concentrations (10-60 micromol/L) on the production of the vasodilator prostanoids prostaglandin I(2) (PGI(2); prostacyclin) and prostaglandin E(2)(PGE(2)) by human aortic endothelial cells (HAECs) as well as its underlying mechanism. Results showed that vitamin E dose dependently (10-40 micromol/L) increased the production of both prostanoids by HAECs. This was associated with a dose-dependent (10-40 micromol/L) upregulation of cytosolic phospholipase A(2) (cPLA(2)) expression and arachidonic acid release. In contrast, vitamin E dose dependently (10-60 micromol/L) inhibited cyclooxygenase (COX) activity but did not affect the expression of either COX-1 or COX-2, indicating that the effect of vitamin E on COX activity was post-translational. Thus, vitamin E had opposing effects on the 2 key enzymes in prostanoid biosynthesis; at the concentrations used in this study, this resulted in a net increase in the production of vasodilator prostanoids. The vitamin E-induced increase in PGI(2) and PGE(2) production may contribute to its suggested beneficial effect in preserving endothelial function.
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PMID:Vitamin E increases production of vasodilator prostanoids in human aortic endothelial cells through opposing effects on cyclooxygenase-2 and phospholipase A2. 1604 7

It is now widely accepted that atherosclerosis is a complex chronic inflammatory disorder of the arterial tree associated with several risk factors. From the initial phases of leukocyte recruitment to eventual rupture of vulnerable atherosclerotic plaques, a low-grade inflammation, also termed microinflammation, appears to play a key pathogenetic role. Experimental and clinical evidence suggests that cyclooxygenase-2 (COX-2), an enzyme which catalyzes the generation of prostaglandins from arachidonic acid, also contributes to lesion formation. COX-2 has been detected in macrophages, smooth muscle cells and endothelial cells in human atherosclerotic lesions. Several studies have also reported the presence of COX-2 in the shoulder region of atherosclerotic plaques, mainly colocalizing with macrophages and MMPs, enzymes that are involved in the destabilization of atherosclerotic plaques, leading to rupture and atherothrombotic syndromes (i.e. acute myocardial infarction). We have recently assessed monocyte COX-2 activity and the production of PGE(2) in a population of apparently healthy subjects free from clinically overt atherosclerosis. We found an association between increased PGE(2) and increasing number of cardiovascular risk factors and carotid intima-media thickness, a noninvasive surrogate marker of atherosclerosis, independently of traditional and non traditional cardiovascular risk factors. Our findings support the notion that the COX-2/PGE(2)axis may have a role in atherosclerosis, and this might be an attractive therapeutic target. COX-2 inhibitors, collectively called coxibs (celecoxib, rofecoxib, valdecoxib, lumiracoxib, etc), held a promise of improved treatment of arthritis without the gastrointestinal side effects associated with aspirin and other nonsteroidal anti-inflammatory drugs. However, clinical studies raise several clinically relevant questions as to their beneficial role in atherosclerosis prevention, because of increased thrombogenicity and cardiovascular risk. Only well designed large scale clinical trials can provide the answer as to the net effect of selective COX-2 inhibition on cardiovascular events before this new class of anti-inflammatory drugs can be incorporated into the armamentarium of atherosclerosis.
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PMID:Monocyte cyclooxygenase-2 activity: a new therapeutic target for atherosclerosis? 1610 63

Atherosclerotic plaque rupture is promoted by metalloproteinase (MMP)-2 and MMP-9, enzymes that degrade the fibrous cap leading to plaque erosion. MMP biosynthesis is mediated by prostaglandin (PG)E2, the product of cyclooxygenase (COX)-2/inducible PGE synthase (mPGES) activity. We have recently reported the overexpression of COX-2/mPGES-1 in vulnerable plaques as a basis of MMP-mediated plaque instability. Hypercholesterolemia and hypertension are two important risk factors for atherosclerosis. Recent trial showed that statins and AT1 receptor blockers significantly reduce the incidence of cardiovascular events in humans. Since anti-inflammatory effects have been reported in association to therapy with statins or AT1 receptor blockers, in two different studies we hypothesized that these drugs can stabilize atherosclerotic plaques through modulation of COX-2/mPGES-1-dependent MMP biosynthesis. Our data demonstrated the stabilizing effect of atherosclerotic plaques by simvastatin or irbesartan, that is due, at least in part, to the reduction of inflammatory burden and suppression of PGE2-dependent metalloproteinases release.
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PMID:Pharmacological modulation of plaque instability. 1621 85

Apolipoprotein A-I (apoA-I), the major protein component of serum high-density lipoprotein, exhibits anti-inflammatory activity in atherosclerosis. In this study, we demonstrate that apoA-I inhibits DC differentiation and maturation. DC differentiated from monocytes in the presence of apoA-I showed a decreased expression of surface molecules such as CD1a, CD80, CD86, and HLA-DR. In addition, these DC exhibited decreased endocytic activity and weakened allogeneic T-cell activation. During DC differentiation in the presence of apoA-I, PGE(2) and IL-10, which are known to be DC differentiation inhibitors and/or modulators of DC function, were produced at remarkable rates, whereas IL-12 production in the cells after stimulation with CD40 mAb and IFN-gamma was significantly decreased in comparison with the control DC. T cells stimulated by apoA-I-pretreated DC produced significantly low levels of IFN-gamma, and apoA-I inhibited cross-talk between DC and NK cells, in terms of IL-12 and IFN-gamma production. Therefore, apoA-I appears to play an important role in modulating both innate immune response and inflammatory response. The novel inhibitory function of apoA-I on DC differentiation and function may facilitate the development of new therapeutic interventions in inflammatory diseases.
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PMID:Apolipoprotein A-I induces IL-10 and PGE2 production in human monocytes and inhibits dendritic cell differentiation and maturation. 1625 56

Bisphosphonates are antiatherosclerotic, suppress monocyte-macrophages, and modulate proinflammatory mediators. Prostaglandin (PG) E(2), thromboxane (TX) A(2), and cyclooxygenase-2 (COX-2) enzyme are involved in inflammation and atherosclerosis. We studied the effects of four bisphosphonates (etidronate, clodronate, tiludronate, and alendronate) on PGE(2) and TXB(2) production in human whole blood and monocytes. PGE(2) and TXB(2) were determined by direct radioimmunoassay and COX-2 expression by Western blot. In whole blood, the bisphosphonates did not modulate the increase in PGE(2) and TXB(2) concentrations induced by calcium ionophore A23187 or lipopolysaccharide (LPS). None of the bisphosphonates did change PGE(2) and TXB(2) concentration after spontaneous clotting. A23187- and spontaneous clotting-induced PGE(2) and TXB(2) productions were inhibited over 90% by acetylsalicylic acid (ASA), and LPS-induced PGE(2) and TXB(2) formations were inhibited over 90% by nimesulide. None of the bisphosphonates altered these inhibitions. In monocytes, etidronate and clodronate augmented A23187-stimulated PGE(2) production 2.5- to 3.2-fold (p < 0.05). LPS- or A2318-induced elevations in TXB(2) were not influenced by the bisphosphonates. The tested bisphosphonates neither induced COX-2 expression nor modulated LPS-induced COX-2 expression in monocytes. The results suggest that the antiatherosclerotic effects of bisphosphonates are not mediated via PGE(2), TXA(2), or COX-2, and the bisphosphonates do not interfere with the suppression of platelet COX-1 activity by ASA and COX-2 activity by nimesulide.
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PMID:Effects of bisphosphonates on prostaglandin E2 and thromboxane B2 production in human whole blood and monocytes stimulated by lipopolysaccharide and A23187. 1689 5

Atherosclerosis is characterized by chronic inflammation and enrichment of inflammatory cells in the vessel wall. Acute inflammation can lead to damaged endothelium triggering the coagulation cascade and thrombus formation. Likewise, the clotting cascade may elicit an inflammatory response. The vascular endothelium regulates vascular tone, permeability, inflammation, thrombosis, and coagulation. Dysfunction of the vascular endothelium can promote atherosclerotic disease processes. Prostanoids (prostaglandins, thromboxane, and prostacyclin) have been established as inflammatory mediators in vascular endothelial function and there continues to be growing insights into their role in atherosclerotic disease. This review examines the role of prostanoids as paracrine inflammatory mediators of atherosclerotic vascular disease, highlighting the relevant physiology of eicosanoid production and endothelial dysfunction. We consider the role of prostanoids in systemic diseases associated with high cardiovascular morbidity and mortality, including diabetes mellitus, coronary artery disease, peripheral arterial disease, rheumatologic disorders, and dyslipidemia. We present emerging evidence that cardio-protective and lipid lowering medications, such as irbesartan and simvastatin may exert their effects via prostanoid mediated pathways. Both serum and urinary prostanoids may be utilized as diagnostic predictors of disease; for example 8-iso-PGF(2alpha) in the serum has recently been reported as an independent predictor of symptomatic peripheral arterial disease. In addition, we discuss current recommendations on established therapeutic uses of prostanoids for atherosclerotic diseases, such as the use of PGE(1) for the treatment of peripheral arterial disease. Finally, we investigate original therapeutic modalities of various prostanoids involved in the aforementioned diseases.
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PMID:Recent insights into the role of prostanoids in atherosclerotic vascular disease. 1707 4

Atherosclerotic plaque formation is a dynamic process involving repeated injury and inflammation of the endothelium. We have demonstrated previously that thrombin and tryptase stimulation of human coronary artery endothelial cells (HCAEC) leads to increased phospholipase A(2) (PLA(2)) activity and generation of membrane phospholipid derived inflammatory metabolites, including eicosanoids and platelet activating factor. Thus, our hypothesis is that selective PLA(2) inhibitors have therapeutic potential as anti-inflammatory agents. Stimulation of confluent HCAEC monolayers with thrombin or tryptase resulted in a concentration and time-dependent increase in both prostaglandin E(2) (PGE(2)) and prostacyclin (PGI(2)) production. Pretreatment with PX-18 to inhibit secretory PLA(2) or BEL to inhibit calcium-independent PLA(2) prior to thrombin or tryptase stimulation resulted in a significant inhibition of both PGI(2) and PGE(2) release. However, pretreatment with methyl arachidonyl fluorophosphonate (MAFP), a widely used inhibitor of cytosolic PLA(2) isoforms, resulted in a significant potentiation of both thrombin and tryptase stimulated PGI(2) and PGE(2) release as a consequence of increased free arachidonic acid production. We conclude that the use of selective PLA(2) inhibitors may be of therapeutic benefit in the development and progression of atherosclerosis, however, the development of such an agent requires rigorous screening.
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PMID:Prostaglandin production in human coronary artery endothelial cells is modulated differentially by selective phospholipase A(2) inhibitors. 1737 79

It is becoming increasingly clear that infections and chronic inflammatory conditions, such as periodontitis can be linked with atherosclerotic process. Periodontitis and atherosclerosis have many pathogenetic mechanisms in common. The objective of this based on current knowledge review is to present the putative mechanisms whereby periodontitis which is chronic and inflammatory in nature and initiated by microbial plaque can influence the atherosclerosis. Two main processes in particular are worthy of consideration and may provide the link between these two diseases. Induction of the chronic systemic inflammation has been proposed to be of pathogenetic relevance in the association of infection and atherosclerosis, and may rely in part on the endothelial toxicity of bacterial endotoxin and the action of proinflammatory cytokines (PGE-2, IL-1beta, TNF-alpha). Another well-founded proatherogenetic property of infectious illness may be the induction of autoimmunity and autoagression. It has been suggested that humoral immune cross-reaction of the same antibodies to heat shock proteins (HSP), both bacterial mHSP65 and human endothelial HSP60 may play an important role in the process of vascular endothelial injury. Both of these mechanisms are believed to be a key event in the pathogenesis of artheriosclerosis.
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PMID:[The impact of periodontal infection on systemic inflammatory process and atherosclerosis]. 1744 82

Atherosclerosis, the underlying cause of cardiovascular disease, is characterized by lipid accumulation, lipoprotein oxidation, and inflammation. Products of the cyclooxygenase (COX) pathway participate in acute and chronic inflammation. The inducible form of COX, COX-2, generates lipid mediators of inflammation that are pro-inflammatory and COX-2-selective inhibitors are potent anti-inflammatory agents. However, clinical data suggest an increased risk of cardiovascular side effects in patients using COX-2-selective inhibitors. In this paper, we sought to determine the effect of COX-2 deficiency on atherosclerosis-related lipoprotein metabolism in mice. We demonstrate that COX-2 deficiency resulted in (i) accumulation of lipids in circulation and liver, (ii) pro-inflammatory properties of HDL as measured by HDL's increased reactive oxygen species (ROS) content, decreased paraoxonase 1 (PON1) activity, decreased serum apoA-1, reduced ability to efflux cholesterol and to prevent LDL oxidizability, and (iii) increased TXB(2) in circulation. Moreover, when placed on an atherogenic diet, COX-2 deficiency resulted in (i) increased lipid deposition in the aorta, (ii) a further dramatic imbalance in circulating eicosanoids, i.e. decreased serum PGI(2) coupled with increased PGE(2) and TXB(2), and (iii) a marked elevation of pro-inflammatory cytokines, TNF and IL-6. Our results suggest, for the first time, that COX-2 deficiency contributes to the pro-atherogenic properties of HDL in mice.
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PMID:A novel anti-atherogenic role for COX-2--potential mechanism for the cardiovascular side effects of COX-2 inhibitors. 1764 85

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