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)

The thrombospondin and collagen receptor CD36 was recently found to function, also, as a dominating scavenger receptor for oxidized low-density lipoproteins (oxLDL). Thus, CD36 might be a key factor in monocyte adhesion and foam cell formation. We, therefore, studied CD36 expression in monocytic cells under conditions of cholesterol depletion and overload. Human monocytic U937 cells were cultured under control conditions and in the presence of lovastatin, native, and oxLDL. The expression of lipoprotein receptors was measured by quantitative reverse transcriptase polymerase chain reaction (RT-PCR) and fluorescence-activated cell sorting (FACS). In sharp contrast to the feedback-controlled ApoB100 specific receptor for native low-density lipoprotein (LDL-R), CD36 expression was significantly reduced by lovastatin in a dose-dependent manner, both at the RNA and protein level, resulting in decreased cellular oxLDL binding. The addition of mevalonate completely reversed lovastatin effects, whereas excess LDL was only partially effective. Similarly to native LDL, oxLDL reduced LDL-R transcription, but did not affect CD36 transcription. CD36 protein surface expression fell, however, due to internalization of CD36 loaded with oxLDL. In summary, monocytic expression of CD36, in contrast to the native LDL-R, is reduced by cholesterol synthesis inhibition and not by feedback inhibition from substrate overexposure. CD36 suppression is a new pharmacological action of lovastatin that may contribute to its clinical benefit by attenuating monocyte adhesion and foam cell formation, key steps in atherosclerosis.
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PMID:Lovastatin reduces expression of the combined adhesion and scavenger receptor CD36 in human monocytic cells. 868 97

Blood platelets are capable of interacting with monocytes and macrophages and of enhancing various functions of these cells, which are believed to play a role in thrombosis and inflammation. An increase in the uptake of oxidised low density lipoprotein (LDL), in the synthesis of procoagulant tissue factor, thrombospondin and leukotrienes, as well as stimulation of oxygen radical production by platelets has been described (1-5). In circulating blood, a substantial proportion of monocytes was found to be associated with platelets, but the pathophysiological significance of such platelet-monocyte conjugates is not yet clear (6,7). Immigration of monocytes into the arterial intima and their differentiation into macrophages are initial steps in the development of an atherosclerotic lesion (8). During differentiation, there is a tremendous increase in the activity and secretion of the enzyme PAF acetylhydrolase (PAF = platelet-activating factor = 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine) (9,10), and there is some evidence that this enzyme may contribute to the development of atherosclerosis. It cleaves PAF, and the remaining lyso-PAF is chemotactic for monocytes (11). Furthermore it also acts on oxidised low density lipoproteins and enhances their uptake into macrophages (12,13). We were therefore interested in investigating whether platelets may modulate the differentiation of monocytes into macrophages and the activity of PAF acetylhydrolase.
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PMID:Platelets inhibit the activity of platelet-activating factor acetylhydrolase in monocyte-derived macrophages. 921 35

Experimental studies have implicated a functional role for the extracellular matrix glycoprotein thrombospondin-1 (TSP-1) in vascular smooth muscle cell proliferation and migration. We therefore sought to determine if TSP-1 might represent a specific component of the fibroproliferative tissue typically associated with restenosis lesions from human coronary and peripheral arteries. Positive immunostaining for TSP-1 was limited to hypocellular plaques typical of primary atherosclerosis; in contrast, such staining was nearly absent from the loose extracellular matrix of the fibroproliferative tissue typical of restenotic lesions. Only a small fraction of vascular smooth muscle cells in either primary or restenotic lesions demonstrated a cellular staining pattern for TSP-1, which was also observed in control studies performed in cell culture and in atherosclerotic rabbit arteries examined 3 days after experimental balloon angioplasty. Double-staining for TSP-1 and proliferating cell nuclear antigen in studies of human beings disclosed that only a small portion of proliferating cell nuclear antigen-positive cells also stained for TSP-1. The observations made in this series of specimens thus indicate that TSP-1 is not a major component of the extracellular matrix of human restenotic tissues, even when such specimens demonstrate evidence of hypercellularity or ongoing cellular proliferation. Because most restenosis specimens, however, were retrieved > or =1 month after the primary intervention, a functional role for TSP-1 in smooth muscle cell proliferation or migration at the early stages of lesion development is still possible.
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PMID:Immunolocalization of thrombospondin-1 in human atherosclerotic and restenotic arteries. 948 88

The physiological meaning of platelets has been best documented for acute coronary syndromes where platelets act as "first responsive elements" triggering the final occlusive thrombus after plaque rupture has occurred. This situation is particularly relevant for patients with NIDDM-type diabetes regularly showing complicated plaque architecture. Predictive power for acute ischemic events e.g. following angioplasty has been proven, and this has dominated the attention exclusively towards the hemostatic function of platelets. Meanwhile, a variety of particularly important platelet features have been identified: a) promotion of liquid phase coagulation; b) regulation of the local vascular tone; c) active modulation of tissue modeling at lesion sites; d) adhesion molecule-mediated communication with a variety of corpuscular blood (and non-blood cells). With emerging recognition of the latter role, the pathophysiological scope of platelets exceeds the well-established role as microemboli, local atherosclerosis amplifiers and triggers of gross thrombosis. In diabetes mellitus of either type, increased populations of circulating platelets have been identified expressing activation dependent adhesion molecules such as activated alpha 2 beta 3 (GPIIbIIIa), lysosomal GP53, thrombospondin or, perhaps most importantly "P-selectin" (CD62 p). This suggests that these adhesion molecules among others can also mediate platelet-leukocyte interactions potentially resulting in inflammatory tissue damaging processes in addition to the immanent tendency towards (micro-)thrombosis. This review works out a more general view on the meaning of platelet activation beyond hemostaseology and updates the actual knowledge of platelet-leukocyte communication checkpoints with particular reference to the diabetic state outlining new pharmacological concepts for intervention.
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PMID:Platelet-leukocyte-cross-talk in diabetes mellitus. 949 1

We investigated the effect of zinc sulfate on the proliferation of cultured bovine aortic smooth muscle cells stimulated with or without growth factors. Zinc had no effect on the incorporation of [3H]thymidine into the acid-insoluble fraction of the cells stimulated with or without platelet-derived growth factor or transforming growth factor beta 1. However, it was shown that stimulation of the [3H]thymidine incorporation by either basic or acidic fibroblast growth factor was significantly potentiated by zinc. Other cations including copper, manganese and nickel did not exhibit such an activity. The present data suggest that zinc is a particular heavy metal which potentiates vascular smooth muscle cell proliferation stimulated by basic and acidic fibroblast growth factors as well as thrombospondin. Zinc may be involved in the intimal hyperplasia of atherosclerosis.
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PMID:Zinc potentiates the stimulation by basic and acidic fibroblast growth factors on the proliferation of cultured vascular smooth muscle cells. 950 72

1. Changes in the environmental oxygen tension to which cells are exposed in vivo result in physiological and sometimes pathological consequences that are associated with differential expression of specific genes. 2. Low oxygen tension (hypoxia) affects endothelial cellular physiology in vivo and in vitro in a number of ways, including the transcriptionally regulated expression of vasoactive substances and matrix proteins involved in modulating vascular tone or remodelling the vasculature and surrounding tissue. 3. Hypoxia results in the transcriptional induction of genes encoding vasoconstrictors and smooth muscle mitogens (PDGF-B, endothelin-1, VEGF, thrombospondin-1) and genes encoding matrix or remodelling molecules (collagenase IV (MMP-9), thrombospondin-1) and reciprocal transcriptional inhibition of vasodilatory or anti-mitogenic effectors (eNOS). 4. Oxygen appears to signal through a novel haem-containing sensor and signals initiated by this sensor alter the levels and DNA-binding activity of transcription factors such as activating protein (AP)-1, nuclear factor-kappa B and hypoxia-inducible transcription factor-1. 5. The genes encoding vasoactive factors regulated by oxygen tension are themselves also regulated by the vasoactive agent nitric oxide (NO). 6. Nitric oxide and oxygen transduce similar signals (i.e. their absence results in identical patterns of gene expression in endothelial cells and other cell types). 7. Thus, NO can feedback on and modulate signals induced by hypoxia and vice versa. For example, NO, which can act directly on smooth muscle cells as a vasodilator, can also facilitate vasodilation indirectly by reversing the production of vasoconstrictors induced by hypoxia. 8. Short-term exposure of endothelial cells to low oxygen tension results in the elaboration of predominantly vasoconstricting effectors, while longer-term and more severe hypoxic exposure generates factors that can induce smooth muscle proliferation and remodelling. 9. Thus, the endothelial cell response to hypoxic stress can result in two different consequences in the surrounding tissues, depending on the duration of the exposure: short-term exposure causes physiological and reversible modulation of vascular tone and blood flow; chronic hypoxic stress results in irreversible remodelling of the vasculature and surrounding tissues, with smooth muscle proliferation and fibrosis. 10. This dichotomy of responses to hypoxia may explain, in part, both the acute and chronic pathophysiological sequelae of diseases characterized by regional hypoxia, including atherosclerosis, pulmonary hypertension, sickle cell disease and systemic sclerosis (scleroderma).
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PMID:Endothelial cell responses to hypoxic stress. 1090 94

Platelet activation plays a central role in acute arterial stenosis as has been shown in coronary heart disease. Likewise it can be assumed to be of importance in the evolution of acute cerebral ischemia (ACI), particularly in patients with large vessel disease. Flow cytometric detection of platelet adhesion molecules as a marker of platelet activation in a group of patients with ACI and different etiologies has not been evaluated. In 72 patients with ACI and 72 controls, the exposure of activation-dependent adhesion molecules was determined using flow cytometry after immunostaining with monoclonal antibodies against CD 62, CD 63 and thrombospondin. The extent of platelet activation differed as a function of the etiology of ACI: platelets from patients with atherosclerosis of brain-supplying arteries expressed significantly more activation markers than did controls, whereas patients with cardioembolic stroke did not. By analyzing platelet adhesion molecules it is possible to describe platelet activation profiles in patients with acute cerebral ischemia. This diagnostic procedure will be useful for monitoring individualized anti-platelet therapy and may enable distinguishing different subgroups of stroke patients.
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PMID:Circulating platelets show increased activation in patients with acute cerebral ischemia. 1010 63

Retention of lipoproteins within the vasculature is a central event in the pathogenesis of atherosclerosis. However, the signals that mediate this process are only partially understood. Prompted by putative links between inflammation and atherosclerosis, we previously reported that alpha-defensins released by neutrophils are present in human atherosclerotic lesions and promote the binding of lipoprotein(a) [Lp(a)] to vascular cells without a concomitant increase in degradation. We have now tested the hypothesis that this accumulation results from the propensity of defensin to form stable complexes with Lp(a) that divert the lipoprotein from its normal cellular degradative pathways to the extracellular matrix (ECM). In accord with this hypothesis, defensin stimulated the binding of Lp(a) to vascular matrices approximately 40-fold and binding of the reactants to the matrix was essentially irreversible. Defensin formed stable, multivalent complexes with Lp(a) and with its components, apoprotein (a) and low-density lipoprotein (LDL), as assessed by optical biosensor analysis, gel filtration, and immunoelectron microscopy. Binding of defensin/Lp(a) complexes to matrix was inhibited (>90%) by heparin and by antibodies to fibronectin (>70%), but not by antibodies to vitronectin or thrombospondin. Defensin increased the binding of Lp(a) (10 nmol/L) to purified fibronectin more than 30-fold. Whereas defensin and Lp(a) readily traversed the endothelial cell membranes individually, defensin/Lp(a) complexes lodged on the cell surface. These studies demonstrate that alpha-defensins released from activated or senescent neutrophils stimulate the binding of an atherogenic lipoprotein to the ECM of endothelial cells, a process that may contribute to lipoprotein accumulation in atherosclerotic lesions.
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PMID:Defensin promotes the binding of lipoprotein(a) to vascular matrix. 1047 30

Abnormal proliferation of vascular smooth muscle cells (VSMCs) is thought to play an important role in the pathogenesis of atherosclerosis and restenosis. Previous studies have implicated the extracellular matrix protein thrombospondin-1 (TSP1) in mitogen-dependent proliferation of VSMCs. In this study, we investigated the molecular mechanisms involved in TSP1-mediated regulation of VSMC growth. Neutralizing A4.1 anti-TSP1 antibody inhibited the activity of the G(1)/S cyclin-dependent kinase 2 (cdk2) and blocked the induction of S-phase entry, which normally occurs in serum-stimulated VSMCs. This growth-inhibitory effect was associated with a marked induction of p21(Cip1/WAF1) (p21) expression in A4.1-treated VSMCs. Moreover, addition of A4.1 antibody to VSMCs markedly increased the level of p21 bound to cdk2. Thus growth arrest on antibody blockade of TSP1 may be mediated by the cdk inhibitory protein p21. Consistent with this notion, anti-TSP1 antibody inhibited [(3)H]-thymidine incorporation in wild-type but not in p21-deficient mouse embryonic fibroblasts (MEFs). Together, these data suggest that p21 plays an important role in TSP1-mediated control of cellular proliferation.
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PMID:Vascular smooth muscle cell growth arrest on blockade of thrombospondin-1 requires p21(Cip1/WAF1). 1048 33

Cartilage oligomeric matrix protein (COMP/thrombospondin [TSP]-5) belongs to the thrombospondin gene family and is an extracellular glycoprotein found predominantly in cartilage and tendon. To date, there is limited evidence of COMP/TSP-5 expression outside of the skeletal system. The aim of the present study was to investigate the expression of COMP/TSP-5 in cultured human vascular smooth muscle cells and human arteries. COMP/TSP-5 mRNA and protein expression was detected in cultured human vascular smooth muscle cells with both Northern blotting and immunoprecipitation. Serum, as well as transforming growth factor (TGF)beta1 and TGF-beta3, stimulated COMP/TSP-5 mRNA expression. COMP/TSP-5 was detected in normal as well as atherosclerotic and restenotic human arteries with immunohistochemistry. The majority of COMP/TSP-5 was expressed in close proximity to vascular smooth muscle cells. In vitro attachment assays demonstrated strong adhesion of smooth muscle cells to COMP/TSP-5-coated surfaces, with the majority of cells spreading and forming stress fibers. In addition, COMP/TSP-5 supported the migration of smooth muscle cells in vitro. The present study shows that COMP/TSP-5 is present in human arteries and may play a role in the adhesion and migration of vascular smooth muscle cells during vasculogenesis and in vascular disease settings such as atherosclerosis.
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PMID:Cartilage oligomeric matrix protein (thrombospondin-5) is expressed by human vascular smooth muscle cells. 1114 32


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