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

It has been generally accepted that platelets play etiological roles for the development of atherosclerosis and arterial thrombosis. Platelet activation may be dependent upon the cytosolic free Ca2+ concentration ([Ca2+]i), and regulated by PGI2 and endothelium-derived relaxing factor (EDRF) released by vascular endothelium. We have studied here the effect of endothelial cells (EC) on platelet activation and intracellular Ca2+ mobilization. Effluent of non-stimulated EC column inhibited thrombin-induced platelet aggregation and intracellular Ca2+ mobilization. An addition of this effluent to platelet suspension leaded to increase in intraplatelet cyclic AMP (cAMP) which was inhibited by the treatment of indomethacin to EC, suggesting that this effect was involved in PGI2 released by EC. On the other hand, effluent of thimerosal-stimulated EC column inhibited platelet aggregation and increase in [Ca2+]i stimulated with thrombin, and leaded to increase in intraplatelet cyclic GMP (cGMP). But the treatment of indomethacin to EC had no effect of this inhibition. The effect of thimerosal-stimulated EC was inhibited by the addition of 1-NG-monomethylarginine (NMA), EDRF/NO inhibitor, suggesting that EDRF released by thimerosal-stimulated EC produced an increase in cGMP and inhibited platelet activation. Although forskolin-induced in cAMP caused a marked prevention of inositol 1, 4, 5-trisphosphate (IP3) production stimulated with thrombin, 8-bromo cGMP and EDRF-induced increase in cGMP had no effect of IP3 production. An increase in cAMP and cGMP was considered to inhibit intracellular Ca2+ mobilization by different mechanisms in platelets.
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PMID:[Intracellular Ca2+ mobilization and its regulation in platelet activation]. 165 28

We have examined thrombin-induced metabolism of phosphoinositides in the platelets from fifteen NIDDM (non-insulin-dependent diabetes mellitus) patients and fifteen healthy subjects (control). The diabetic patients were divided into two groups. One group (group I) had diabetic retinopathy (microangiopathy) and the other group (group II) had atherosclerosis of great vessels (macroangiopathy). In platelets incubated with [32P] orthophosphate for 80 min, the incorporation of 32P radioactivity into phosphatidylinositol (PI), phosphatidylinositol 4-monophosphate (PIP) and phosphatidylinositol 4,5-bisphosphate (PIP2) was significantly lower in the group II than in the control. The addition of thrombin induced a marked decrease in PIP2 radioactivity at 10 sec in platelets from group I compared with that from the control. These results suggest that the breakdown of polyphosphoinositides is increased in platelets from diabetic subjects with retinopathy, and also that the formation of polyphosphoinositides is decreased in the platelets from diabetic subjects with macroangiopathy.
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PMID:Thrombin-induced breakdown of phosphoinositides in platelets from patients with NIDDM. 165 98

The adhesion of circulating blood cells to vascular endothelium may be an initial step in atherosclerosis, inflammation, and wound healing. One mechanism for promoting cell-cell adhesion involves the expression of adhesion molecules on the surface of the target cell. Herpes simplex virus infection of endothelium induces arterial injury and has been implicated in the development of human atherosclerosis. We now demonstrate that HSV-infected endothelial cells express the adhesion molecule GMP140 and that this requires cell surface expression of HSV glycoprotein C and local thrombin generation. Monocyte adhesion to HSV-infected endothelial cells was completely inhibited by anti-GMP140 antibodies but not by antibodies to other adhesion molecules such as VCAM and ELAM-1. The induction of GMP140 expression on HSV-infected endothelium may be an important pathophysiological mechanism in virus-induced cell injury and inflammation.
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PMID:Identification of a monocyte receptor on herpesvirus-infected endothelial cells. 171 92

The endothelial cells can release both relaxing and contracting substances. The former include prostacyclin and endothelium-derived relaxing factor (EDRF, which most likely is nitric oxide, or a nitrosoderivative releasing nitric oxide, derived from L-arginine). Candidates as endothelium-derived contracting factors (EDCF) include superoxide anions thromboxane A2 and the peptide endothelin. Endothelium-derived relaxing factor causes relaxation of vascular smooth muscle by activation of the soluble form of guanylate cyclase which leads to an accumulation of cyclic GMP; it also reduces platelet adhesion and aggregation. The latter effect is synergistic with the inhibition evoked by prostacyclin. The release of EDRF and prostacyclin plays a key role in the protective role of the endothelium against vasospasm and the unwanted coagulation of blood. Indeed, thrombin and aggregating platelets are potent stimuli for the release of EDRF. The platelet-products responsible are the adenine nucleotides, ADP and ATP, which activate P2y-purinergic receptors on the endothelial cells and 5-hydroxytryptamine (serotonin) that stimulates 5-HT1-like serotonergic receptors. The response to serotonin, but not that to the adenine nucleotides, is mediated by a pertussis toxin-sensitive mechanism. When endothelial cells regenerate, or are cultured, they selectively lose the pertussis toxin-sensitive mechanism of release, which results in a marked decrease in sensitivity to exogenous and platelet-released serotonin. As a consequence, the endothelial cells exhibit a considerably reduced response to aggregating platelets. This phenomenon, which can be exacerbated by hypercholesterolemia, favors ongoing platelet aggregation and vasospasm, and constitutes a first step toward atherosclerosis.
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PMID:Platelet-derived serotonin, the endothelium, and cardiovascular disease. 171 75

Endothelial cells can produce contracting factors; endothelin, a 21-amino acid peptide that can control local vascular tone, is the most potent of these factors. Of the three isoforms of endothelin, endothelial cells appear to release primarily endothelin-1. The peptide is formed from its precursor big endothelin via the activity of the endothelin converting enzyme. The basal production of the peptide is stimulated by epinephrine, angiotensin II, arginine vasopressin, transforming growth factor beta, thrombin, interleukin-1, and the calcium ionophore A23187. In vascular smooth muscle cells, endothelin binds to a specific receptor that activates phospholipase C and leads to the formation of inositol trisphosphate, diacylglycerol, and increased intracellular calcium levels. In certain blood vessels, the endothelin receptor is linked to a voltage-operated calcium channel via a Gi protein. This may explain why calcium antagonists inhibit endothelin-induced contractions only in certain blood vessels. In the human forearm circulation, calcium antagonists of different classes prevent endothelin-induced contractions. In hypertension, the circulating endothelin levels appear to be normal, whereas the vascular sensitivity to the peptide is reduced in most vascular tissues, but normal and enhanced responses have also been reported. In atherosclerosis and other forms of vascular disease, circulating endothelin levels are augmented, a phenomenon that may be related to an increased formation of the peptide induced by modified forms of low-density lipoproteins.
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PMID:Endothelin. 172 99

The present study was undertaken to determine whether the extent of Factor VII elevation correlated with the severity of coronary artery disease and whether zymogen or activated Factor VII was responsible for this elevation. A group of 69 patients with coronary artery disease with old myocardial infarction was compared with 28 control subjects. The patient groups showed elevated levels of Factor VII procoagulant activity (FVII:C) and more markedly elevated Factor VII antigen (FVII:Ag) levels than the control group; therefore they had a decreased FVII:C to FVII:Ag ratio. The increased Factor VII level in the patient groups was caused by elevated Factor VII zymogen levels, and not by activated Factor VII. Since FVII:C levels strongly correlated with the titer of thrombin-antithrombin III complexes in all patients, the hypercoagulable state accompanying severe coronary atherosclerosis seems to underlie the increase of FVII and TAT in the stable phase of myocardial infarction.
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PMID:Elevation of factor VII activity and mass in coronary artery disease of varying severity. 174 7

Atherosclerosis is associated with an accumulation of proteoglycans. Proteoglycans and/or glycosaminoglycans, in particular heparan sulfate, produced by endothelial cells are thought to play important roles in diverse vascular functions. Of particular note is that they possess anticoagulant functions, i.e., heparin-like antithrombin cofactor activity. Incubation of antithrombin III with endothelial cell cultures resulted in a specific, saturable binding of this protease inhibitor presumably to the endothelial cell surface. In addition, thrombin inactivation by antithrombin III was accelerated on the endothelial surface, providing strong evidence that heparan sulfate on the surface of endothelial cells exerts a heparin-like activity. beta-D-xyloside or cytokine treatments altered the synthesis of heparan sulfate on the endothelial cell surface, resulting in decreased anti-thrombin III binding and diminished heparin-like anticoagulant activity of endothelial cells. The modulation of endothelial heparin-like compounds by these pharmacologic or physiologic agents may have pathophysiologic implications in thrombosis as well as atherogenesis.
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PMID:Anticoagulant heparin-like glycosaminoglycans on endothelial cell surface. 174 77

The interaction of platelets with the vessel wall plays an important pathophysiological role in coronary artery disease. While in healthy blood vessels platelets remain inactivated and do not adhere or aggregate, an augmented interaction occurs in coronary artery disease. Due to their strategic anatomical position between the circulating blood and the media of the vascular wall, endothelial cells play an important regulatory role. Indeed, after endothelial denudation, massive platelet adhesion and aggregation at the vessel wall occurs. Platelet-derived substances lead to vasoconstriction and in the long run also to proliferative changes of the vascular wall. Besides other substances, endothelial cells release vasoactive mediators such as endothelium-derived nitric oxide (NO), prostacyclin and endothelin. In healthy human arteries, aggregating platelets cause endothelium-dependent relaxations in spite of the liberation of serotonin and thromboxane A2 and through the luminally released NO also induce a feedback inhibition of the platelets. In contrast, in arteries without endothelium, a marked vasoconstriction (due to thromboxane A2 and serotonin) is noted. Endothelin may also play a role in platelet-vessel wall interaction, since thrombin and transforming growth factor beta (a platelet-derived product) stimulate the production of this potent vasoconstrictor. Oxidized low-density lipoproteins inhibit the relase of NO and thereby activate the platelet-vessel wall interaction. In atherosclerosis even more pronounced dysfunctions of the endothelium occur, which lead to vasoconstriction, ischemia and thrombus formation in patients with coronary artery disease.
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PMID:[Thrombocyte-vascular wall interaction and coronary heart disease]. 176

The purpose of this study was to compare the relative effect of n-3 fatty acids on plasma lipids and platelet function in normolipemic subjects (n = 8) with plasma Lp(a) levels greater than 30 mg/dl and normolipemic subjects (n = 7) without detectable plasma Lp(a) concentrations. Six weeks of dietary supplementation (3.8 g EPA and 2.9 g DHA/d) significantly reduced (P less than 0.005) plasma TGs in both groups whereas no changes of plasma TC, LDL-C, HDL-C, and Lp(a), respectively, were found. Collagen- or thrombin-stimulated platelet aggregation and collagen- or thrombin-induced TXB2 generation from platelets decreased by approx. 45% in Lp(a)-negative and Lp(a)-positive platelet donors after a 6 week dietary intake. Four more weeks without n-3 supplementation restored the pretreatment values of TGs, platelet aggregability and TXB2 release. The biophysical properties of platelets from normolipemics with and without high plasma Lp(a) concentrations revealed a similar structural order of platelets at 37 degrees C using DPH, TMA-DPH, or 6-AS as fluorescent probes. Also similar temperature-dependent changes in platelet fluidity from 37 degrees C to 17 degrees C were observed in platelet preparations from Lp(a)-positive and Lp(a)-negative subjects. However, no subtle changes in the structural order of platelets due to nutrient intakes were found in all subjects (n = 15, 19-28 yrs) using fluorescence polarization technique. The present data suggest a similar in vitro platelet behaviour from normolipemic subjects with and without high plasma levels of Lp(a) (which is considered a risk for premature atherosclerosis) in contrast to platelet aggregability and platelet fluidity in certain hyperlipidemic stages.
Atherosclerosis 1991 Jun
PMID:Effects of dietary fish oil supplementation on platelet aggregability and platelet membrane fluidity in normolipemic subjects with and without high plasma Lp(a) concentrations. 183 37

Restenosis after coronary angioplasty is due to a proliferation of smooth muscle cells growing in the vascular lumen, beneath the residual fragments of the atherosclerotic plaque, as seen in necropsy studies and examination of the specimens removed by atherectomy. At the histological analysis thrombi or their fibrocellular organization are not usually detectable. Smooth muscle cell proliferation leading to restenosis is very similar to the one observed in the experimental models of response-to-injury, so that these models are used to investigate into the pathogenetic mechanisms of restenosis. The main stimulus to the loss of the contractile phenotype and to the start of the smooth muscle cell proliferation is represented by the growth factors delivered by platelets adhered to the disendothelialized wall and by the smooth muscle cells themselves, stretched during the dilatation. Other stimuli can be growth factors delivered by monocytes and fibroblasts, by thrombin, endothelin, angiotensin and interleukin 1. The elastic recoil of the vessel wall, the plaque debris and the regional wall shear stress can also contribute to restenosis. The restenosis tissue is different from the atheromatous plaque in that it is almost only constituted by smooth muscle cells and intercellular matrix, while atheroma is much more complex due to the presence of various kinds of cells, of necrotic debris and lipid substances. The smooth muscle cells proliferation also contributes to the pathogenesis of atherosclerosis, but the stimuli starting this process have not been clarified yet; moreover this process is much slower than restenosis, interacting with several factors. Encouraging results have been achieved in the prevention of restenosis after angioplasty in experimental models, but not in man. In order to reduce the incidence of restenosis one should improve the results of angioplasty, even by the use of atherectomy and intracoronary stents. Among pharmacologic approaches anticoagulants, heparin, antiplatelet agents, calcium-channel blockers, corticosteroids all proved ineffective. Studies are in progress evaluating the effect of inhibitors of platelet-derived growth factor (PDGF), antitumor agents and radiation therapy, hirudin, angiotensin-converting enzyme inhibitors and HMG-CoA reductase inhibitors.
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PMID:[Restenosis after coronary angioplasty: its pathogenesis and prevention]. 184 86


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