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)

Although anticardiolipin antibody (aCL) has been suggested to be a potent risk factor for thrombosis and atherosclerosis in multiple arterial beds, conflicting results exist between aCL and cerebral ischemia in the general stroke population. To elucidate if this discrepancy relates to the heterogeneity of underlying etiologies, the blood beta(2)-glycoprotein I dependent-aCL in 432 Taiwanese adults was examined. The associated cerebral ischemia in these patients was classified into five subtypes according to the cause of cerebral ischemia. The results were compared with those in 100 healthy controls. A definite increase of aCL-IgG isotype was found in 41 patients (9.35%) and four controls (4.0%). The relative risk was 2.52. The frequency of increased aCL-IgG was 12.2%, 12.8%, 8.8%, 3.9%, and 3.5% in patients with large-artery atherosclerotic disease, stroke of unknown etiology, small-artery occlusive disease, cardioembolism, and stroke of other known etiology, respectively. Only patients with large-artery atherosclerotic disease (p<0.025) and stroke of unknown etiology (p<0.05) had higher frequencies of increased aCL than those in control subjects. The frequencies of abnormal results of activated partial thromboplastin time, antinuclear factor, Coombs' test, and venereal disease research laboratory were 2.84%, 1.22%, 1.02%, and 1.34% in these 41 patients, respectively. Accordingly, aCL-IgG selectively increases in patients with large-artery atherosclerosis and stroke of unknown etiology, reflecting selective activation of humoral immunity for aCL in the pathogenesis of cerebral ischemia.
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PMID:The increase of blood anticardiolipin antibody depends on the underlying etiology in cerebral ischemia. 1644 37

Tissue factor (TF), formerly known as thromboplastin, is the key initiator of the coagulation cascade; it binds factor VIIa resulting in activation of factor IX and factor X, ultimately leading to fibrin formation. TF expression and activity can be induced in endothelial cells, vascular smooth muscle cells, and monocytes by various stimuli such as cytokines, growth factors, and biogenic amines. These mediators act through diverse signal transduction mechanisms including MAP kinases, PI3-kinase, and protein kinase C. Cellular TF is present in three pools as surface, encrypted, and intracellular protein. TF can also be detected in the bloodstream, referred to as circulating or blood-borne TF. Elevated levels of TF are observed in patients with cardiovascular risk factors such as hypertension, diabetes, dyslipidemia, and smoking as well as in those with acute coronary syndromes. TF may indeed be involved in the pathogenesis of atherosclerosis by promoting thrombus formation; in addition, it can induce migration and proliferation of vascular smooth muscle cells. As a consequence, therapeutic strategies have been developed to specifically interfere with the action of TF such as antibodies against TF, site-inactivated factor VIIa, or recombinant TF pathway inhibitor. Inhibition of TF action appears to be an attractive target for the treatment of cardiovascular diseases.
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PMID:Tissue factor in cardiovascular diseases: molecular mechanisms and clinical implications. 1646 45

Oxidatively modified low-density lipoprotein (OxLDL) is present in atherosclerotic lesions and has been proposed to play an important role in atherogenesis. Asp-hemolysin, a hemolytic toxin from Aspergillus fumigatus, is a binding protein for OxLDL. This study was undertaken to clarify the biological activity of OxLDL and the potentially of Asp-hemolysin as a regulation factor to atherogenic effect by OxLDL. We first analyzed the interaction between OxLDL and blood coagulation factors, which are involved in the blood coagulation pathway. OxLDL caused prolongation of activated partial thromboplastin time (APTT) as a parameter of the intrinsic pathway of blood coagulation in a dose- and oxidation time-dependent manner. In addition, OxLDL significantly inhibited blood coagulation factor VIII, IX, and XI activity. Furthermore, we demonstrated that factor VIII binds to OxLDL. These results indicate that the binding of factor VIII to OxLDL affects the intrinsic pathway of the blood coagulation cascade. Next, to clarify the structure-function relationship of Asp-hemolysin, we expressed Asp-hemolysin in Escherichia coli as a fusion protein with a maltose-binding protein (MBP) and purified it by affinity chromatography. The purified recombinant Asp-hemolysin showed an immunoreactivity with the anti-Asp-hemolysin antibody. In addition, MBP-Asp-hemolysin fusion protein exhibited binding activity to Ox-LDL as did native Asp-hemolysin. Furthermore, to investigate the effect of the Asp-hemolysin-related peptide (P-21), a synthetic peptide derived from a region of Asp-hemolysin that is rich in positive charges, on macrophage proliferation induced by OxLDL. P-21 inhibited OxLDL-induced macrophage proliferation in a dose-dependent manner. In addition, the binding analysis of P-21 to OxLDL indicated that P-21 binds to OxLDL. These results indicate that P-21 inhibits the OxLDL-induced macrophage proliferation through binding of P-21 to OxLDL. In conclusion, we have shown that OxLDL affects the intrinsic pathway of blood coagulation, and its mechanism is dependent on the binding of factor VIII to OxLDL. Furthermore, we indicate the possibility that Asp-hemolysin is a useful tool to investigate the pathophysiological significance of OxLDL. In particular, since the P-21, an Asp-hemolysin-related peptide, inhibits the OxLDL-induced macrophage proliferation through binding of P-21 to OxLDL, further study on the binding mechanism between Asp-hemolysin-related peptide and OxLDL may provide important information on the prevention and treatment of atherosclerosis.
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PMID:[Biological activity of Asp-hemolysin as a regulation factor to atherogenic effect by oxidized low-density lipoprotein]. 1701 24

Tissue factor (TF) is involved not only in the progression of atherosclerosis and other cardiovascular diseases, but is also associated with tumor growth, metastasis, and angiogenesis and hence may be an attractive target for directed cancer therapeutics. Gynostemma pentaphyllum (GP) is widely used in the treatment of various cardiovascular diseases including atherosclerosis, as well as cancers. Gypenoside (Gyp) XLIX, a dammarane-type glycoside, is one of the prominent components in GP. We have recently reported Gyp XLIX to be a potent peroxisome proliferator-activated receptor (PPAR)-alpha activator. Here we demonstrate that Gyp XLIX (0-300 microM) concentration dependently inhibited TF promoter activity after induction by the inflammatory stimulus lipopolysaccharide (LPS) in human monocytic THP-1 cells transfected with promoter reporter constructs pTF-LUC. Furthermore, Gyp XLIX inhibited LPS-induced TF mRNA and protein overexpression in THP-1 monocyte cells. Its inhibition of LPS-induced TF hyperactivity was further confirmed by chromogenic enzyme activity assay. The activities of Gyp XLIX reported in this study were similar to those of Wy-14643, a potent synthetic PPAR-alpha activator. Furthermore, the Gyp XLIX-induced inhibitory effect on TF luciferase activity was completely abolished in the presence of the PPAR-alpha selective antagonist MK-886. The present findings suggest that Gyp XLIX inhibits LPS-induced TF overexpression and enhancement of its activity in human THP-1 monocytic cells via PPAR-alpha-dependent pathways. The data provide new insights into the basis of the use of the traditional Chinese herbal medicine G. pentaphyllum for the treatment of cardiovascular and inflammatory diseases, as well as cancers.
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PMID:Gypenoside XLIX, a naturally occurring gynosaponin, PPAR-alpha dependently inhibits LPS-induced tissue factor expression and activity in human THP-1 monocytic cells. 1714 Dec 90

Systemic lupus erythematosus (SLE) is a chronic inflammatory disorder with a high prevalence of cardiovascular disease due to accelerated atherosclerosis, as well as an increased risk of venous thromboembolism. Many of these clinical features have been attributed to the high prevalence of autoantibodies that are directed against phospholipid-bound antigens and that induce prothrombotic effects and disturb endothelial cell function. We conducted a case-control study in a cohort of female patients with SLE and in age-matched and sex-matched normal individuals. Patients had significantly higher levels of plasma inflammatory markers, but their overall coagulation status assessed by prothrombin fragment 1 + 2 and D-dimer plasma levels was not different from controls. Resistance against activated protein C (APC), assessed by a thrombin generation-based as well as an activated partial thromboplastin time-based method, however, was increased in patients. This defect was neither due to factor V Leiden carriership or to the use of oral contraceptives. This acquired form of APC resistance was due to proinflammatory changes associated with lower plasma levels of free protein S. In conclusion, acquired APC resistance may be an important determinant of the risk of thrombosis in patients with SLE, probably due to an active cross-talk between inflammation and coagulation systems.
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PMID:The inflammation and coagulation cross-talk in patients with systemic lupus erythematosus. 1717 22

Peroxisome proliferator-activated receptor-gamma1 (PPARgamma1) is an important transcription factor involved in atherosclerosis progression. Thus, PPARgamma1 appears to be an interesting gene therapeutic target to favorably affect atherosclerosis development. The present study was carried out to test the hypothesis that PPARgamma1 gene therapy may attenuate and stabilize atherosclerotic plaques in apolipoprotein E-knockout mice. The recombinant adenovirus carrying mouse PPARgamma1 cDNA (AdPPARgamma1) was constructed and AdPPARgamma1 (5 x 10(8) PFU) or AdGFP (5 x 10(8) PFU), diluted to a total volume of 200 mul, was injected into the tail vein of mice (40 weeks of age and fed a high-fat diet) in two intervention groups (n = 20 each). Mice (n = 20) injected with phosphate-buffered saline (PBS) served as vehicle controls. The results showed that 4-week treatment with AdPPARgamma1 attenuated atherosclerotic lesions, although the overall mRNA levels of CD36 were increased in the AdPPARgamma1 group. Moreover, PPARgamma1 gene overexpression stabilized atherosclerotic plaques as shown by the reduced depositions of lipids and macrophages and increased contents of smooth muscle cells and collagen within the plaques. In addition, marked upregulation of the mRNA levels of cholesterol efflux-related molecules such as liver X receptor alpha and ATP-binding cassette transporter A1 in liver, and downregulation of matrix metalloproteinase-9, human tissue factor, CD40, CD40 ligand, tumor necrosis factor-alpha, monocyte chemoattractant protein-1, vascular cell adhesion molecule-1, macrosialin, class A scavenger receptor, and macrophage migration inhibitory factor in aorta, were demonstrated in AdPPARgamma1-treated animals. In contrast, there was no significant difference in aforementioned parameters between the AdGFP and PBS groups. In conclusion, overexpression of the PPARgamma1 gene exerts beneficial effects in attenuating atherosclerosis progression and stabilizes vulnerable plaques. Thus, PPARgamma1 might offer a promising gene therapeutic target against atherosclerosis.
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PMID:Peroxisome proliferator-activated receptor-gamma1 gene therapy attenuates atherosclerosis and stabilizes plaques in apolipoprotein E-deficient mice. 1830 11

The homocysteine (Hcy)-induced tissue factor (TF) expression in human vascular smooth muscle cells (VSMCs) and the effect of Hcy on the activity of nuclear factor-kappaB (NF-kappaB) and the expression of inducible nitric oxide synthase (iNOS) were investigated. Human umbilical artery VSMCs were cultured by tissue explanting method, identified by alpha-actin immunohistochemistry, and incubated with different concentrations of Hcy/PTDC (NF-kappaB inhibitor). Semi-quantitative RT-PCR was performed to detect the expression of TF mRNA in VSMCs. Flow cytometry was used to assay the expression of TF protein on the surface of VSMCs and the expression of iNOS in VSMCs. Western blot was carried out to detect the expression of NF-kappaB protein in nuclei. The results showed that Hcy could induce VSMCs expressing TF mRNA significantly after the VSMCs were incubated with Hcy at concentrations of 10, 100, 500 micromol/L respectively. There was low expression level of TF protein on the surface of the resting VSMCs and Hcy could also induce VSMCs expressing TF protein on the cell surface in different concentrations. Additionally, Hcy could rapidly induce the activation of NF-kappaB and this effect could be significantly inhibited by PDTC. Hcy alone could not induce the expression of iNOS in VSMCs. It was concluded that Hcy could significantly induce the expression of TF in VSMCs and enhance the activation of NF-kappaB, subsequently mediate TF gene expression and protein synthesis. NF-kappaB-mediated expression of TF in VSMCs might be the important mechanism of atherosclerosis and thrombosis induced by Hcy.
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PMID:Homocysteine-induced enhanced expression of tissue factor in human vascular smooth muscle cells. 1884 30

Tissue factor (TF) initiates coagulation, regulates hemostasis, and plays a critical role in mediating arterial thrombosis. TF is up-regulated in vascular smooth muscle cells (VSMCs) in atherosclerosis and arterial injury. To examine the biologic role of VSMC-derived TF, we crossed TF(flox/flox) mice with SM22alphaCre(+/-) mice. TF mRNA and activity were decreased in the aortic media of TF-deficient mice by 96% and 94.8%, respectively. There were no differences in TF activity measured in plasma or concentrated microparticles. TF-deficient mice were generated with the expected frequency, showed no evidence of bleeding or increased mortality, and had similar activated partial thromboplastin and tail vein bleeding times. Thrombus-mediated flow reduction in response to ferric chloride injury of the carotid arteries was significantly attenuated in VSMC-specific TF-deficient. Stable occlusion was seen in 11 of 12 wild-type mice, but in only 6 of 16 VSMC-specific TF-deficient mice (P = .001). These data suggest that VSMC-derived TF is critical in a macrovascular model of arterial thrombosis. This mouse model should be valuable in determining the contribution of VSMC-derived TF in other TF-mediated phenomena, such as restenosis.
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PMID:Vascular smooth muscle-derived tissue factor is critical for arterial thrombosis after ferric chloride-induced injury. 1893 46

Fenofibrate, a lipid-lowering drug, inhibits hydroxyl-methylglutaryl coenzyme A (HMG-CoA)-reductase activity, thus reducing cholesterol synthesis and increasing the clearance of circulating LDL-cholesterol via the high affinity receptor system. In addition, fenofibrate has beneficial effects such as the inhibition of tissue factor expression, antithrombotic effect and anti-inflammatory effect. The aim of this study was to investigate the effects of fenofibrate on thrombus formation in vivo and platelet activation in vitro and ex vivo. The carotid arteries of male Sprague-Dawley rats were subjected to chemical injury by FeCl(3), and then blood flow was measured with a blood flowmeter. Fenofibrate (200 and 400mg/kg/day for 1 week) delayed the time to occlusion by 61.3% (p<0.05, n=10) and 90.7% (p<0.01, n=10), respectively. Fenofibrate also significantly inhibited ex vivo platelet aggregations induced by collagen (7.5microg/ml) (p<0.01, n=11) and ADP (10microM) (p<0.01, n=11), respectively, but did not affect coagulation times following activated partial thromboplastin and prothrombin activation, indicating the antithrombotic effect was mediated by its inhibition on platelet activation rather than coagulation system. This antiplatelet activity was revealed to be mediated by the suppression of thromboxane A(2) receptor, cytosolic calcium mobilization, and cyclooxygenase (COX)-1 activity. Taken together, we demonstrate that fenofibrate can significantly inhibit artery thrombus formation in vivo, which may be due to antiplatelet activity via the inhibition of thromboxane A(2) receptor, cytosolic calcium mobilization and COX-1 activity, and the beneficial effect of fenofibrate on cardiovascular system may be also due to its modulation of platelet activation.
Atherosclerosis 2009 Oct
PMID:Antithrombotic and antiplatelet activities of fenofibrate, a lipid-lowering drug. 1934 49

The aim of this study was to test the effects of Ilex kudingcha total saponins on hemorheology of ApoE-/- mice suffering from hypercholesterolemia induced by high-cholesterol diet. The mice were randomly divided into six groups: the control group, the high-cholesterol diet group, 50 mg/kg atorvastatin treatment group, 75, 150 and 300 mg/kg Ilex kudingcha saponins treatment groups, and all the drug treatment groups were fed with a high-cholesterol diet. After administration with saponins (150 mg/kg or more) and atorvastatin (50 mg/kg) for six weeks, the plasma total cholesterol (TC), whole blood viscosity (WBV), plasma viscosity (PV), and erythrocyte aggregation index (EAI) had a remarkable decrease compared with that of the high-cholesterol diet group, but the hematocrit (Hct) and erythrocyte deformation index (DI) had no significant changes. In addition, it is found that the improving effects of saponins on reducing plasma fibrinogen (Fg) levels and prolonging the blood coagulation times including activated partial thromboplastin time (APTT), thrombin time (TT), and prothrombin time (PT). In conclusion, the Ilex kudingcha total saponins may have a significant therapy application of hypercholesterolemia and atherosclerosis by considering its actions on hemorheological characteristics.
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PMID:Improving abnormal hemorheological parameters in ApoE-/- mice by Ilex kudingcha total saponins. 1936 38

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