Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We studied the effect of arterial balloon injury on nuclear factor-kappaB (NF-kappaB) mobilization and ICAM-1 expression in untreated rats and rats treated with aspirin. Baseline NF-kappaB nuclear binding in smooth muscle cells (SMC) increased two-fold within 6 h after balloon injury. The binding returned to baseline 3 days after injury. Consistently nuclear staining of p65 active subunit increased in the medial SMC following balloon injury. There was no baseline ICAM-1 expression. Within 3 days after balloon injury there was marked medial ICAM-1 expression, that localized to neointima 7 days after injury and to regrowing endothelial cells 14 days after injury. Treatment with aspirin inhibited NF-kappaB nuclear translocation and binding and was associated with reduction of ICAM-1 expression, SMC proliferation and neointimal thickening following balloon injury. These data suggest that transient mobilization of NF-kappaB in vascular SMC after balloon injury mediates ICAM-1 expression and is involved in arterial response to balloon injury.
Atherosclerosis 1997 May
PMID:Nuclear factor-kappaB activity and arterial response to balloon injury. 918 Feb 45

T-cells and monocytes are the first cells infiltrating the arterial intima during the early stages of atherogenesis. Recently our laboratory has provided evidence that T-cells isolated from atherosclerotic intima reacts against heat shock protein 60 (Hsp60). Transmigration of activated T-cells into the intima is mediated by adhesion molecules (ICAM-1; VCAM-1; ELAM-1) expressed on activated endothelial cells. Here we studied the potential of cytokines (TNF-alpha, IFN-gamma, IL-1). Escherichia coli lipopolysaccharide (LPS), native and oxidized low-density lipoprotein (LDL; oxLDL) and high temperature to induce adhesion molecules as well as Hsp60 and Hsp70 expression in human endothelial cells (EC). On Northern blots, a strong signal for ICAM-1, VCAM-1 and ELAM-1 was detected after 4 h, which thereafter declined, but did not reach the basal level of untreated control cells. Heat shock induced the expression of Hsp60 and Hsp70 but not of adhesion molecules. EC were cultivated in serum-free medium, which led to the expression of adhesion molecule transcripts. Addition of LDL or oxLDL to these ECs did not alter the expression of these transcripts. The production of adhesion molecule proteins was analysed by flow cytometry. In human venous endothelial cells (HVEC) and human arterial endothelial cells (HAEC) ICAM-1 and VCAM-1 production was permanently highly induced, whereas the high level of ELAM-1 production at 4 h disappeared after 24 h. Furthermore, only HAEC, but not HVEC, produced ICAM-1, VCAM-1 and ELAM-1 after stress by moderately and highly oxLDL. LDL and oxLDL did not induce the production of Hsp60 and Hsp70. The present study demonstrates the co-expression of Hsp60 and adhesion molecules in arterial and venous EC in response to cytokine and LPS exposure, and that oxLDL is an efficient inducer of adhesion molecules in arterial EC and not in venous EC. These features provide the prerequisites for a cellular immune reaction against Hsp60 expressed by stressed EC in the initial stages of atherosclerosis.
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PMID:Co-expression of ICAM-1, VCAM-1, ELAM-1 and Hsp60 in human arterial and venous endothelial cells in response to cytokines and oxidized low-density lipoproteins. 925 Apr

The increased risk of premature atherosclerosis in noninsulin-dependent diabetes mellitus (NIDDM) might be related in part to augmented expression of endothelial adhesion molecules (AMs). So far it is, however, unknown whether increased circulating (c) AMs in NIDDM are only a consequence of this disease or also involved in its sequelae. To determine the presence of cAMs in a population at increased risk for subsequent development of NIDDM, we analyzed fasting and postprandial [oral glucose tolerance test (OGTT): 100 g] serum concentrations of circulating E-selectin, vascular cell adhesion molecule-1 (cVCAM-1), and intercellular adhesion molecule-1 (cICAM-1) in pregnant women with either gestational diabetes (GDM) or normal glucose tolerance (NT) before and after delivery vs. nonpregnant healthy women (C). During pregnancy cE-selectin and cVCAM-1 were elevated in both GDM and NT vs. nonpregnant females (P < 0.01 vs. C). Following delivery, all GDM females regained normal glucose tolerance according to OGTT criteria, but showed slightly higher postprandial [area under the curve (AUC)180 min] glycemia and HbA1c values than nonpregnant healthy women (P < 0.05), indicating persisting subtle abnormalities in carbohydrate metabolism. cE-selectin and cVCAM-1 remained increased in GDM (P < 0.01 vs.C) after delivery, but fell to normal in NT (P < 0.05 before vs. after delivery). Furthermore, a correlation was seen in GDM females between cE-selectin and HbA1c (P < 0.005), fasting glucose (P < 0.01), and insulin (P < 0.05) as well as postprandial (AUC180 min) glucose and insulin concentrations (P < 0.05) during OGTTs, both before and after delivery. ICAM-1, however, did not differ significantly between groups. In summary, GDM is characterized by persistently raised levels of cE-selectin and cVCAM-1 12 weeks after delivery. Whether these persistent elevations of cE-selectin and cVCAM-1 reflect early vascular injury or represent a risk factor for atherosclerosis in women at increased risk for NIDDM remains to be determined.
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PMID:Persistent elevation and metabolic dependence of circulating E-selectin after delivery in women with gestational diabetes mellitus. 939 24

Low and oscillatory shear stresses are major features of the hemodynamic environment of sites opposite arterial flow dividers that are predisposed to atherosclerosis. Atherosclerosis is a focal inflammatory disease characterized initially by the recruitment of mononuclear cells into the arterial wall. The specific characteristics of the hemodynamic environment that facilitate the generation of arterial inflammatory responses in the presence of, for example, hyperlipidemia are unknown. We show here that prolonged oscillatory shear stress induces expression of endothelial cell leukocyte adhesion molecules, which are centrally important in mediating leukocyte localization into the arterial wall. Vascular cell adhesion molecule-1 was upregulated an average 9-fold relative to endothelial monolayers in static culture. Intercellular adhesion molecule-1 and E-selectin exhibited 11-fold and 7.5-fold increases, respectively. Upregulation of these adhesion molecules was associated with enhanced monocyte adherence. Cytokine stimulation of surface vascular cell adhesion molecule-1 was maximally induced after 6 and 8 hours of cytokine incubation. Oscillatory shear stress for these time periods elicited respective vascular cell adhesion molecule-1 levels of 16% and 30% relative to those observed for cytokine stimulation. Surface intercellular adhesion molecule-1 induction by cytokine stimulation for 24 hours was found to be approximately five times the level detected after 24 hours of oscillatory shear stress. Experiments performed in the presence of the antioxidant N-acetylcysteine demonstrated that the expression of vascular cell adhesion molecule-1 could be almost totally abolished, whereas that of intercellular adhesion molecule-1 was typically reduced by approximately 70%. These results imply that oscillatory shear stress per se is sufficient to stimulate mononuclear leukocyte adhesion and, presumptively, migration into the arterial wall. These results further indicate that atherosclerotic lesion initiation is likely related, at least in part, to unique signals generated by oscillatory shear stress and that the mechanism of upregulation is, to some extent, redox sensitive.
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PMID:Oscillatory shear stress stimulates adhesion molecule expression in cultured human endothelium. 952 57

By extrapolation from the responses of cultured human umbilical vein endothelial cells (EC) and bovine aortic EC to short-term cytokine stimulation, EC activation is postulated as a likely component of the host response in acute allograft rejection and cardiac transplant-associated accelerated arteriosclerosis. To investigate the extent to which EC activation occurs in vivo in humans and to identify potential targets for therapeutic interventions, we compared the phenotypic characteristics of vascular EC as seen during clinicopathologically significant vs non-significant acute cardiac allograft rejection. We used monoclonal and monospecific polyclonal antibodies to coagulation molecules [tissue factor, thrombomodulin (TM), antithrombin III (AT-III), fibrinogen/fibrin, cross-linked fibrin and von Willebrand factor (vWF)], adhesion molecules (P-selectin, ICAM-1) and major histocompatibility complex (MHC) class I and II molecules. In addition we sought evidence of local cytokine production (IL-1, IL-2R, IL-4, IL-6, IL-7, IL-8, TNF-alpha, PDGF-AA, PDGF-BB), which might mediate alterations in expression of these proteins. We found that in clinically significant grades of cardiac allograft rejection requiring increased immunosuppression, in contrast to lesser grades of rejection not requiring clinical intervention, there was increased microvascular EC activation and differential expression of cytokines. EC changes associated with more extensive cardiac allograft rejection requiring treatment included: (i) disruption of the normal anticoagulant state with downregulation of TM and AT-III, upregulation of tissue factor and vWF expression, and associated extensive fibrin deposition; (ii) upregulation of MHC class I antigens, which are potential targets for host cytotoxic T lymphocytes; (iii) increased expression of the leucocyte adhesion molecules P-selectin and ICAM-1; (iv) expression of the pro-inflammatory cytokines IL-1 beta and TNF-alpha; and (v) increased expression of PDGF-AA and BB, which are known to promote migration and proliferation of intimal cells, and hence may contribute to development of transplant-associated atherosclerosis. Collectively these findings suggest that immune events resulting in EC surface changes and/or production of key cytokines play a role in the pathogenesis of acute transplant rejection and may contribute to the long-term complication of accelerated arteriosclerosis in allograft coronary arteries.
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PMID:Endothelial activation and cytokine expression in human acute cardiac allograft rejection. 953 4

In health, the vascular endothelium forms a multifunctional interface between the circulating blood and various tissues and organs of the body. It constitutes a selectively permeable barrier for macromolecules, as well as a nonthrombogenic and nonadhesive container that actively maintains the fluidity of blood. It is a metabolically active endocrine organ, serving as the source of multiple factors and mediators that are critical for normal homeostasis. These include vasodilators (nitric oxide, prostacyclin, endothelium-derived hyperpolarizing factor), vasoconstrictors (endothelin-1, thromboxane A2, prostaglandin H2 and components of the renin angiotensin system), various pro- and antithrombotic factors (e.g. tissue factor, platelet activating factor--PAF, von Willebrand factor), fibrinolytic activators and inhibitors (e.g. tissue plasminogen activator, plasminogen activator inhibitor-1), potent arachidonate metabolites (prostanoids), leukocyte adhesion molecules (e.g. E-selectin, P-selectin, intercellular adhesion molecule-1--ICAM-1, vascular cell adhesion molecule-1--VCAM-1), and multiple cytokines with activities of growth stimulators and inhibitors, transforming growth factors, proinflammatory and antiinflammatory mediators, tumour necrosis factors and chemotactic factors (chemokines). Besides these essential activities controlling the cardiovascular system, the endothelial cells represent an important part of the immune system as well. They have a pivotal role in the initiation and development of defensive and damaging inflammatory responses. Therefore endothelium can be considered as being the central equipment for the mutual exchange of life important information between the cardiovascular and immune systems. This in turn is leading to rapid advances in understanding the pathogenesis of some of the most serious and most common diseases, including inflammation, atherosclerosis and hypertension. (Tab. 7, Ref. 89.)
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PMID:[Vascular endothelium as a factor in information transfer between the cardiovascular and immune systems]. 958 73

We examined the relationship of soluble intercellular adhesion molecule-1 (sICAM-1) and vascular cell adhesion molecule-1 (sVCAM-1) with smoking and hypercholesterolaemia in peripheral artery disease (PAD). Serum samples were obtained from 119 patients with objectively-proven PAD, 39 patients with hypercholesterolaemia but asymptomatic for PAD, and 132 age and sex matched asymptomatic controls. Using ELISAs, we found increased sICAM-1 and sVCAM-1 (both p <0.01) in the patients with PAD relative to the controls, but no significant change in patients with hypercholesterolaemia. However, the effect for sVCAM-1 was lost when smoking was entered as a covariate. Only sICAM-1 was higher in patients with PAD in the femoral/iliac arteries compared to the carotid arteries (p <0.05). In a 39-month follow-up of 112 patients with PAD, increased ICAM-1 weakly (univariate p <0.05) predicted those 57 whose disease progressed (i.e. to end points such as myocardial infarction and arterial surgery). However, high fibrinogen was a much better (univariate p = 0.001, multivariate p <0.05) predictor of disease progression. We suggest (i) that increased levels of sVCAM-1 in atherosclerosis are due to smoking, (ii) that increased sICAM-1 is independent of this risk factor, (iii) that both these changes are independent of hypercholesterolaemia, and (iv) that increased sICAM-1 is a weak predictor of disease progression in peripheral atherosclerosis.
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PMID:Circulating ICAM-1 and VCAM-1 in peripheral artery disease and hypercholesterolaemia: relationship to the location of atherosclerotic disease, smoking, and in the prediction of adverse events. 965 27

Sphingolipids and their metabolic products are now known to have second-messenger functions in a variety of cellular signaling pathways. Lactosylceramide (LacCer), a glycosphingolipid (GSL) present in vascular cells such as endothelial cells, smooth muscle cells, macrophages, neutrophils, platelets, and monocytes, contributes to atherosclerosis. Large amounts of LacCer accumulate in fatty streaks, intimal plaque, and calcified intimal plaque, along with oxidized low density lipoproteins (Ox-LDLs), growth factors, and proinflammatory cytokines. A possible role for LacCer in vascular cell biology was suggested when this GSL was found to stimulate the proliferation in vitro of aortic smooth muscle cells (ASMCs). A further link of LacCer in atherosclerosis was uncovered by the finding that Ox-LDLs stimulated specifically the biosynthesis of LacCer. Ox-LDL-stimulated endogenous synthesis of LacCer by activation of UDP-Gal:GlcCer,beta1-4galtransferase (GalT-2) is an early step in this signaling pathway. In turn, LacCer serves as a lipid second messenger that orchestrates a signal transduction pathway, ultimately leading to cell proliferation. This signaling pathway includes LacCer-mediated activation of NADPH oxidase that produces superoxide. Such superoxide molecules stimulate the GTP loading of p21(ras). Subsequently, the kinase cascade (Raf-1, Mek2, and p44MAPK [mitogen-activated protein kinase]) is activated. The phosphorylated form of p44MAPK translocates from the cytoplasm to the nucleus and engages in c-fos expression, proliferating cell nuclear antigen (PCNA) such as cyclin activation, and cell proliferation takes place. Interestingly, D-threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol (D-PDMP), an inhibitor of GalT-2, can abrogate the Ox-LDL-mediated activation of GalT-2, the signal kinase cascade noted above, as well as cell proliferation. Additional studies have revealed that LacCer mediates the tumor necrosis factor-alpha (TNF-alpha)-induced nuclear factor-kappaB expression and intercellular adhesion molecule (ICAM-1) expression in vascular endothelial cells via the redox-dependent transcriptional pathway. LacCer also stimulates the expression of CD11/CD8, or Mac-1, on the surface of human neutrophils. Collectively, this phenomenon may contribute to the adhesion of neutrophils or monocytes to the endothelial cell surface and thus initiate the process of atherosclerosis. In addition, the LacCer-mediated proliferation of ASMCs may contribute to the progression of atherosclerosis. On the other hand, programmed cell death (apoptosis) by proinflammatory cytokines such as TNF-alpha, interleukin-1, and high concentrations of Ox-LDL occur via activation of a cell membrane-associated neutral sphingomyelinase (N-SMase). N-SMase hydrolyzes sphingomyelin into ceramide and phosphocholine. In turn, ceramide or a homologue serves as an important stress-signaling molecule. Interestingly, an antibody against N-SMase can abrogate Ox-LDL- and TNF-alpha-induced apoptosis and therefore may be useful for in vivo studies of apoptosis in experimental animals. Because plaque stability is an integral aspect of atherosclerosis management, activation of N-SMase and subsequent apoptosis may be vital events in the onset of plaque rupture, stroke, or heart failure. Interestingly, in human liver cells, N-SMase action mediates the TNF-alpha-induced maturation of the sterol regulatory-element binding protein. Moreover, a cell-permeable ceramide can reconstitute the phenomenon above in a sterol-independent fashion. Such findings may provide new avenues for therapy for patients with atherosclerosis. The findings described here indicate an important role for sphingolipids in vascular biology and provide an exciting opportunity for further research in vascular disease and atherosclerosis.
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PMID:Sphingolipids in atherosclerosis and vascular biology. 976 22

One of the most important events in the reaction to all forms of injury is adhesion of leukocytes to endothelium, a prelude to their emigration into tissues. This process is central to inflammation, atherosclerosis, and immune reactions. Endothelial-leukocyte adhesion is governed largely by the interaction of complementary adhesion molecules on endothelia and leukocytes. The synthesis, surface expression, and avidity of these molecules, are regulated by chemical mediators, particularly chemokines. The most important adhesion molecule pairs are the selectins (E, L and P), the immunoglobulins ICAM-1 and VCAM-1, and the beta 2 and beta 1 integrins (e.g., LFA-1 and VLA-4). In vivo studies in experimental animals and humans have confirmed a role for these molecules in a number of pathological processes, including transplant rejection, septic shock, atherosclerosis, late phase hypersensitivity reactions, immunologically-mediated lung and kidney disease, and reperfusion injury. Besides their importance in understanding pathogenesis, work on adhesion molecules has direct clinical implications in diagnosis and therapy. Current studies suggest that the expression of these adhesion molecules may be a useful marker for active inflammation under certain conditions, and that abrogation of endothelial adhesion by interfering with such molecules may inhibit tissue injury. Mice genetically deficient in adhesion molecules (knock out) have been particularly useful in the study of the role of these molecules in vivo. This lecture will first summarize the state-of the-art on the structure, localization, and distribution of the major adhesion molecules, examine their roles in vivo, in humans and knock-out mice, and point to possible use of the information derived from these studies in diagnosis and therapy.
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PMID:Endothelial adhesion molecules in health and disease. 976 11

Atherosclerosis is a vascular injury characterized by elevated tissue levels of tumor necrosis factor-alpha (TNF-alpha), increased expression of endothelial cell adhesion molecules, and vascular wall inflammatory cell infiltration. Foam cells are associated with atherosclerotic plaque material, and low density lipoprotein (LDL) is a lipid component of foam cells. Malondialdehyde (MDA) is an oxidative product of unsaturated fatty acids and is also present in atherosclerotic lesions. MDA-modified (adducted) proteins, including MDA-modified LDL, are present in atherosclerotic human vascular tissue. Acetaldehyde (AA) is the major metabolic product of ethanol oxidation. Both MDA and AA are highly reactive aldehydes and will combine with proteins to produce an antigenically distinct protein adduct, termed the MAA adduct. This study demonstrates that proteins modified in the presence of high concentrations of MDA can produce MAA-modified proteins in vitro. In addition, MAA adducted proteins are capable of inducing rat heart endothelial cell cultures (rHEC) to produce and release TNF-alpha, and cause rHEC upregulation of endothelial adhesion molecule expression, including ICAM-1. These adhesion molecules are required for circulating inflammatory cells to adhere to endothelium which allows inflammatory cell tissue infiltration. Additionally, MAA modified proteins were defected in human atherosclerotic aortic vascular tissue but not in normal aortic tissue. Since atherosclerosis is associated with an inflammatory vascular injury characterized by elevated tissue TNF-alpha concentrations and inflammatory cell infiltration, these data suggest that MAA-adducted proteins may be formed in atherosclerotic plaque material and may be involved in the inflammatory reaction that occurs in atherosclerosis. These data further suggest that previous studies demonstrating MDA modified protein in atherosclerotic plaque may in fact have MAA modified proteins associated with them.
Atherosclerosis 1998 Nov
PMID:Association of malondialdehyde-acetaldehyde (MAA) adducted proteins with atherosclerotic-induced vascular inflammatory injury. 986 43


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