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)

The ADAMs are a family of membrane proteins possessing a disintegrin and metalloprotease domain. Currently, 34 members are known to exist. Approximately 50% of the ADAMs contain a metalloprotease-like domain and some of these have been shown to possess protease activity. Most of the protein substrates identified to date for ADAMs are either integral membrane or extracellular matrix (ECM) proteins. In addition to hydrolysing proteins, a number of ADAMs bind to integrins. The attachment to integrins occurs via the disintegrin domain. Since the ADAMs can play a role in both proteolysis and adhesion, they have been implicated in a variety of biological processes such as sperm-egg fusion, somatic cell-cell adhesion, ectodomain shedding, myoblast fusion and development. Altered expression of certain ADAMs has been associated with a number of diseases including asthma, arthritis, Alzheimer's disease, atherosclerosis and cancer.
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PMID:The ADAMs family of proteins: from basic studies to potential clinical applications. 1266 15

Enhanced production of reactive oxygen species (ROS) such as H(2)O(2) and a failure in ROS removal by scavenging systems are hallmarks of several cardiovascular diseases such as atherosclerosis and hypertension. ROS act as second messengers that play a prominent role in intracellular signaling and cellular function. In vascular smooth muscle cells (VSMCs), a vascular pathogen, angiotensin II, appears to initiate growth-promoting signal transduction through ROS-sensitive tyrosine kinases. However, the precise mechanisms by which tyrosine kinases are activated by ROS remain unclear. In this review, the current knowledge that suggests how certain tyrosine kinases are activated by ROS, along with their functional significance in VSMCs, will be discussed. Recent findings suggest that transactivation of the epidermal growth factor receptor by ROS requires metalloprotease-dependent heparin-binding epidermal growth factor-like growth factor production, whereas other ROS-sensitive tyrosine kinases such as PYK2, JAK2, and platelet-derived growth factor receptor require activation of protein kinase C-delta. Each of these ROS-sensitive kinases could mediate specific signaling critical for pathophysiological responses. Detailed analysis of the mechanism of cross-talk and the downstream function of these various tyrosine kinases will yield new therapeutic interventions for cardiovascular disease.
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PMID:Activation of tyrosine kinases by reactive oxygen species in vascular smooth muscle cells: significance and involvement of EGF receptor transactivation by angiotensin II. 1458 50

AngII (angiotensin II) and its G-protein-coupled AT(1) receptor play critical roles in mediating cardiovascular diseases such as hypertension, atherosclerosis and restenosis after vascular injury. It is widely believed that AngII promotes these diseases by inducing vascular remodelling that involves hypertrophy, hyperplasia and migration of VSMCs (vascular smooth muscle cells). We have shown that transactivation of an ErbB family receptor, EGFR (epidermal growth factor receptor; ErbB1), is essential for VSMC hypertrophy and migration induced by AngII. However, the precise signal transduction mechanism by which AngII transactivates EGFR/ErbB1 and whether other ErbBs are also required for AngII function remains unclear. Recent studies suggest an involvement of a metalloprotease-dependent ErbB family ligand production in the transactivation. Here, we will discuss the roles and mechanisms of AngII/AT(1) receptor in promoting ErbB receptors transactivation in VSMCs. Further elucidation of this ErbB activation machinery not only will give us a better understanding of the critical molecular mechanism underlying vascular remodelling stimulated by AngII, but will also contribute to development of novel treatment strategies for cardiovascular diseases.
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PMID:Metalloprotease-dependent ErbB ligand shedding in mediating EGFR transactivation and vascular remodelling. 1464 Oct 25

Accumulating evidence strongly implicates the critical roles of intracellular signaling of angiotensin II (AngII) in mediating cardiovascular diseases such as hypertension, atherosclerosis, and restenosis after vascular injury. The importance of AngII signals has also been reported in endothelial dysfunction and insulin resistance, two strong predictors of cardiovascular disease. Through its G protein-coupled AngII type-1 receptor (AT1), AngII activates various intracellular protein kinases, such as receptor or non-receptor tyrosine kinases and serine/threonine kinases. Activation of these kinases requires both G protein-dependent and independent pathways, reactive oxygen species and a metalloprotease, and each kinase could be involved specifically in mediating pathophysiological function of the AT1 receptor target organs. In fact, some of the kinases are indispensable for AngII-induced hypertrophy and migration. The role of these AT1-activated kinases in mediating vascular remodeling, vascular contractility, endothelial dysfunction, and insulin resistance will be discussed in this review. In addition, the AT1 receptor undergoes rapid phosphorylation, desensitization, and internalization upon AngII stimulation. Recent studies with site-directed mutagenesis of the AT1 receptor not only elucidated a G protein interaction and desensitization of the receptor, but also demonstrated a structural requirement of the receptor for downstream signal transduction. Thus, AT1 mutants have provided an excellent means to examine the mechanism of signal transduction and their significance in mediating AngII function. Taken together, in this review, we will focus our discussion on the recent findings of the signal transduction research elucidating novel signaling mechanisms of the AT1 receptor that are relevant to the vascular pathophysiology of AngII.
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PMID:Recent progress in signal transduction research of the angiotensin II type-1 receptor: protein kinases, vascular dysfunction and structural requirement. 1625 Aug 62

Cell-cell and cell-matrix interactions are of utmost importance in the pathogenesis of inflammatory diseases. For example, cell-cell and cell-matrix interactions are crucial for leukocyte homing and recruitment to inflammatory sites. The discovery of the disintegrin and metalloprotease (ADAM) proteins, which have both adhesive and proteolytic activities, raised the question of their involvement in inflammatory processes. More interestingly, the presence of the RGD integrin-binding sequence in the disintegrin domain of ADAM-15 (MDC-15; metargidin) highlighted ADAM-15 as a protein particularly involved in cell-cell interactions. These findings therefore prompted authors to investigate the roles of ADAM-15 in inflammatory diseases. Because of the early description of ADAM-15 expression in endothelial cells, work first focused on the roles of ADAM-15 in vascular diseases, and ADAM-15 was found to be associated with atherosclerosis. Other studies also pointed at ADAM-15 as a mediator of rheumatoid arthritis and intestinal inflammation as well as inherent angiogenesis. The roles of ADAM-15 in these diseases appear to involve mechanisms as different as cell-cell interactions, cell-extracellular matrix (ECM) interactions, and shedding activity. Here we review and discuss these recent discoveries pointing to ADAM-15 as a mediator of mechanisms underlying inflammation and as a possible therapeutic target for prevention of inflammatory diseases.
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PMID:ADAM-15: a metalloprotease that mediates inflammation. 1790 25

Vascular endothelial (VE)-cadherin is the major adhesion molecule of endothelial adherens junctions. It plays an essential role in controlling endothelial permeability, vascular integrity, leukocyte transmigration, and angiogenesis. Elevated levels of soluble VE-cadherin are associated with diseases like coronary atherosclerosis. Previous data showed that the extracellular domain of VE-cadherin is released by an unknown metalloprotease activity during apoptosis. In this study, we used gain-of-function analyses, inhibitor studies, and RNA interference experiments to analyze the proteolytic release of VE-cadherin in human umbilical vein endothelial cells (HUVECs). We found that VE-cadherin is specifically cleaved by the disintegrin and metalloprotease ADAM10 in its ectodomain, releasing a soluble fragment and generating a carboxyl-terminal membrane-bound stub, which is a substrate for a subsequent gamma-secretase cleavage. This ADAM10-mediated proteolysis could be induced by Ca(2+) influx and staurosporine treatment, indicating that ADAM10-mediated VE-cadherin cleavage contributes to the dissolution of adherens junctions during endothelial cell activation and apoptosis, respectively. In contrast, protein kinase C activation or inhibition did not modulate VE-cadherin processing. Increased ADAM10 expression was functionally associated with an increase in endothelial permeability. Remarkably, our data indicate that ADAM10 activity also contributes to the thrombin-induced decrease of endothelial cell-cell adhesion. Moreover, knockdown of ADAM10 in HUVECs as well as in T cells by small interfering RNA impaired T-cell transmigration. Taken together, our data identify ADAM10 as a novel regulator of vascular permeability and demonstrate a hitherto unknown function of ADAM10 in the regulation of VE-cadherin-dependent endothelial cell functions and leukocyte transendothelial migration.
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PMID:ADAM10 regulates endothelial permeability and T-Cell transmigration by proteolysis of vascular endothelial cadherin. 1849 10

ADAM17 was initially characterized as the TNF Alpha Converting Enzyme (TACE) and, until now, has been the most studied member of the ADAM family. It is a type I transmembrane metalloproteinase involved in the shedding of the extracellular domain of several transmembrane proteins (at least 40) such as cytokines, growth factors, receptors or adhesion molecules. As a consequence, depending on the transmembrane molecule cleaved, one may expect possible opposite effects of ADAM17 activity on inflammation (e.g. TNF and its receptors). The role of ADAM17 in regulating inflammatory cellular processes is clearly demonstrated in cells deficient in active ADAM17 or expressing substrates mutated for the ADAM17 cleavage site. As ADAM17-deficient mice died at birth, mice overexpressing the mutated uncleavable form of some substrates and recently conditional knock-out of ADAM17 are used to approach in vivo the role of this metalloprotease in regulating inflammation. Arguments are provided that ADAM17 plays a role in atherosclerosis, in adipose tissue metabolism, insulin resistance and diabetes. The multitude of substrates cleaved by ADAM17 makes this enzyme an attractive candidate to study its role in inflammation-driven pathologies.
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PMID:[The two sides of ADAM17 in inflammation: implications in atherosclerosis and obesity]. 1915 93

Abscisic acid (ABA) is a phytohormone recently identified as a new endogenous pro-inflammatory hormone in human granulocytes. Here we report the functional activation of human monocytes and vascular smooth muscle cells by ABA. Incubation of monocytes with ABA evokes an intracellular Ca2+ rise through the second messenger cyclic ADP-ribose, leading to NF-kappaB activation and consequent increase of cyclooxygenase-2 expression and prostaglandin E2 production and enhanced release of MCP-1 (monocyte chemoattractant protein-1) and of metalloprotease-9, all events reportedly involved in atherogenesis. Moreover, monocytes release ABA when exposed to thrombin-activated platelets, a condition occurring at the injured vascular endothelium; monocyte-derived ABA behaves as an autocrine and paracrine pro-inflammatory hormone-stimulating monocyte migration and MCP-1 release, as well as vascular smooth muscle cells migration and proliferation. These results, and the presence of ABA in human arterial plaques at a 10-fold higher concentration compared with normal arterial tissue, identify ABA as a new signal molecule involved in the development of atherosclerosis and suggest a possible new target for anti-atherosclerotic therapy.
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PMID:Abscisic acid released by human monocytes activates monocytes and vascular smooth muscle cell responses involved in atherogenesis. 1933 45

Amino-substituted xanthene, thioxanthene and carbazole sulfonamido-carboxylic acid of carboxamido carboxylic acid derivatives, their use to treat metalloprotease mediated conditions, and especially to inhibit MMP-12, and to treat osteoarthritis, rheumatoid arthritis, atherosclerosis, heart failure, fibrosis, pulmonary emphysema, tumour growth, asthma and chronic obstructive pulmonary disorder (COPD). Compounds of this category are suggested to be particularly useful in the treatment of COPD.
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PMID:Selective MMP-12 inhibitors: WO-2008057254. 1945 79

Phenotypic modulation of endothelium to a dysfunctional state contributes to the pathogenesis of atherosclerosis, partly through the activation of the transcription factor NFkB. Several data indicate that magnesium deficiency caused by prolonged insufficient intake and/or defects in its homeostasis may be a missing link between diverse cardiovascular risk factors and atherosclerosis. Here we report that endothelial cells cultured in low magnesium rapidly activate NFkB, an event which is prevented by exposure to the anti-oxidant trolox. It is well known that NFkB activation correlates with marked alterations of the cytokine network. In the present study, we show that exposure of endothelial cells to low magnesium increases the secretion of RANTES, interleukin 8 and platelet derived growth factor BB, all important players in atherogenesis. Moreover, we describe the increased secretion of matrix metalloprotease-2 and -9 and of their inhibitor TIMP-2. Interestingly, by zymography we show that metalloprotease activity predominated over the inhibitory effect of TIMP-2. These results indicate that low magnesium promotes endothelial dysfunction by inducing pro-inflammatory and pro-atherogenic events.
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PMID:Magnesium deficiency promotes a pro-atherogenic phenotype in cultured human endothelial cells via activation of NFkB. 2060 Aug 65

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