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:C0001511 (Adhesion)
5,955 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute glomerulonephritis can cause acute renal failure. Activated neutrophils and monocytes are major effectors of glomerulonephritic renal failure. Adhesion molecules, granule enzymes, reactive oxygen radicals, lipid metabolites, and cytokines of activated neutrophils and monocytes mediate glomerular capillary constriction, occlusion, and destruction. Injurious products and biologically active mediators released by activated leukocytes have profound functional effects on mesangial cells and endothelial cells, which in turn participate in the disturbance of glomerular function, for example, by altering capillary diameter and surface area. The glomerular inflammatory events result in decreased glomerular capillary ultrafiltration coefficient and glomerular filtration rate, as well as other functional perturbations.
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PMID:Acute renal failure secondary to leukocyte-mediated acute glomerular injury. 150 72

The initial step in extravasation of neutrophils (polymorphonuclear leukocytes [PMNs]) to the extravascular space is adherence to the endothelium. We examined the effect of oxidants on this process by treating human endothelial cells with H2O2, t-butylhydroperoxide, or menadione. This resulted in a surface adhesive for PMN between 1 and 4 h after exposure. The oxidants needed to be present only for a brief period at the initiation of the assay. Adhesion was an endothelial cell-dependent process that did not require an active response from the PMN. The adhesive molecule was not platelet-activating factor, which mediates PMN adherence when endothelial cells are briefly exposed to higher concentrations of H2O2 (Lewis, M. S., R. E. Whatley, P. Cain, T. M. McIntyre, S. M. Prescott, and G. A. Zimmerman. 1988. J. Clin. Invest. 82:2045-2055), nor was it ELAM-1, an adhesive glycoprotein induced by cytokines. Oxidant-induced adhesion did not require protein synthesis, was inhibited by antioxidants, and, when peroxides were the oxidants, was inhibited by intracellular iron chelators. Granule membrane protein-140 (GMP-140) is a membrane-associated glycoprotein that can be translocated from its intracellular storage pool to the surface of endothelial cells where it acts as a ligand for PMN adhesion (Geng, J.-G., M. P. Bevilacqua, K. L. Moore, T. M. McIntyre, S. M. Prescott, J. M. Kim, G. A. Bliss, G. A. Zimmerman, and R. P. McEver. 1990. Nature (Lond). 343:757-760). We found that endothelial cells exposed to oxidants expressed GMP-140 on their surface, and that an mAb against GMP-140 or solubilized GMP-140 completely blocked PMN adherence to oxidant-treated endothelial cells. Thus, exposure of endothelial cells to oxygen radicals induces the prolonged expression of GMP-140 on the cell surface, which results in enhanced PMN adherence.
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PMID:Oxygen radicals induce human endothelial cells to express GMP-140 and bind neutrophils. 170 76

We examined the actions of tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1 beta) on neutrophil and monocyte (phagocyte) adhesion to human mesangial cell monolayers (HMC) and assessed the role of phagocyte CD11/CD18 integrin adhesion molecules and HMC intercellular adhesion molecule-1 (ICAM-1) in this process, using subunit specific monoclonal antibodies (MAb). TNF, but not IL-1, provoked rapid (onset less than 1 min) neutrophil and monocyte adhesion to HMC by a phagocyte-directed action. Adhesion was markedly inhibited by MAb against CD18 and CD11b, with lesser or no inhibition being afforded by MAb against CD11a, CD11c, or ICAM-1. In contrast, prolonged exposure of HMC to TNF or IL-1 (1-18 h) increased HMC adhesiveness for phagocytes. These actions were blocked by actinomycin D or cycloheximide and by MAb against HMC ICAM-1 or phagocyte CD18, CD11a, or CD11b, suggesting that cytokines provoked adhesion by inducing HMC ICAM-1 synthesis. In keeping with this interpretation, TNF treatment of HMC was associated with increased ICAM-1 surface expression, as determined by indirect immunofluorescence, and increased ICAM-1 mRNA levels, as determined by Northern blot analysis. The actions of TNF on phagocytes and HMC were additive. HMC injury, as determined by 51Cr release, was only observed when both phagocytes and HMC were activated by TNF. HMC injury was attenuated by anti-CD18 MAb and superoxide dismutase, suggesting that the injury process was, in part, adhesion dependent and mediated by reactive oxygen species.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytokine-induced phagocyte adhesion to human mesangial cells: role of CD11/CD18 integrins and ICAM-1. 172 95

The participation of leukocytes in the development of vascular disorders has been observed under various circumstances. Leukocyte activation occurs in extracorporeal blood circulation which lead to a pulmonary vascular sequestration and respiratory distress syndrome. Leukocytes could act on vascular components through at least two different pathways by releasing free oxygen radicals and proteases or by producing mediators such as interleukin 1, Tumor necrosis alpha, leukotrienes. Monocytes macrophages are present in the vascular wall at a very early stage of atherosclerosis. A majority of foam cells have been identified as macrophages loaded with lipids. Lymphocytes and monocytes are present in the atherosclerotic plaque. Leukocytes are also observed in the inflammatory lesion of vasculitis and experimentally activated lymphocytes can induce vasculitis. The molecular bases of leukocyte-endothelium interactions have been determined, and imply specialized molecules. Leukocyte Adhesion Molecule (LeucAM) appear to play a crucial role in leukocyte adhesion. On the endothelial cell side, endothelial cell adhesion molecule, intercellular adhesion molecule are receptors for leukocytes adhesion. They have been recently fully characterized. The better knowledge of leukocyte-vascular wall interactions offers new possible target for therapeutic agents.
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PMID:[Leukocytes and vascular lesions]. 204 28

Two different types of interactions were described between cells and elastin: 1) the adhesion of cells to insoluble fibrous elastin and 2) the binding of soluble elastin derived peptides by cells. We could show that these are two different mechanisms underlying those two types of interactions. The adhesion of cells to elastin fibers is mediated by a cell-membrane complex with a 120 kD protein as the main adhesive compound which we proposed to designate elastonectin. Three other proteins (67, 60 and 45 kD) were coisolated with elastonectin. Adhesion of insoluble elastin to mesenchymal cells (fibroblasts, smooth muscle cells) is inducible with soluble elastin peptides. Highly metastatic Lewis lung carcinoma cells and human melanoma cells also exhibited the adhesion mechanism, but without a lag phase (constitutive adhesion). Binding curve (Scatchard plots) obtained with radiolabelled elastin peptides indicated the presence of high affinity elastin receptors on mesenchymal cells and human white blood cells (monocytes and PMNs) with Kd-s in the nanomolar range. The binding of elastin peptides triggers several cellular reactions such as chemotaxis, Ca++ influx (increase of Ca++i) and with mononuclear blood cells release of lytic enzymes and oxygen radicals. All these cells which exhibited elastin receptor function also exhibited adhesion although the two processes could be inhibited selectively. The receptor action is mediated by a G-protein-phospholipase-IP3 mechanism, involved in the increase of intracellular Ca++. It appears that this action also triggers the biosynthesis and membrane localization of elastonectin. The coupling of these 2 mechanisms between receptor and adhesion appears to be modified in transformed cells.
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PMID:Elastonectin and the elastin receptor. 255 Aug 76

Monocytes and endothelial cell interactions play a key role in the development of vascular lesion, inflammation and atherosclerosis. Leukocyte adhesion is mediated through specific molecules CD11/CD18 complexes on the leukocyte side and the ELAM (Leukocyte Adhesion Molecule) ICAM (Intercellular Adhesion Molecule) on the endothelium cell surface. Several monocyte products damage endothelial cells such as free radicals, oxygen peroxides, proteases, hydrolases, lipases... Various monokines alter endothelial cell function and proliferation. Interleukin 1, gamma interferon, alpha tumor necrosis factor increase ELAM, further more they induce the synthesis of procoagulant activity by endothelial cells. Monocyte derived growth factor stimulates endothelial cells proliferation while transforming growth factors, beta (TGF beta) and TNF alpha inhibit endothelial cell growth. Lipid products of monocyte origins such as leukotrienes induce an activation of endothelial cells which results in a production of prostacyclin. Monocytes may also participate in the coagulation process by producing thromboplastin and coagulation factors and facilitating the tenase (activation of factor X) complex formation. On the other hand, monocyte also synthesize tissue plasminogen activator and inhibitor. The numerous factor produced by monocytes may affect in different ways the endothelial cell behavior.
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PMID:[Monocyte-endothelium relations]. 265 10

A brief review is given for the rheological behavior of blood in the microcirculation in normal and low flow states. Blood viscosity increases in low flow conditions because of the decrease in shear stress which normally causes red cell deformation and disaggregation. The low hematocrit found in the microvessels leads to a decrease in apparent blood viscosity and tends to compensate for the high vascular hindrance due to the narrowness of the vessels. The presence of the less deformable white blood cells in the microcirculation causes a retardation of red cell flux and a redistribution of red cells at bifurcations. Elevated hematocrit, in turn, can cause an enhancement of the interaction between white blood cells and the venular endothelium. Adhesion of white blood cells to microvascular endothelium leads to an increase in flow resistance, especially in low flow states. The optimum hematocrit for myocardial oxygen transport and utilization is shifted from near 40% in normal conditions to 25% in hemorrhagic hypotension. These findings indicate that blood rheology in the microcirculation should be considered in analyzing the pathophysiological disturbances in shock and that improvement of microcirculation rheology offers a promising approach in treatment.
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PMID:Rheology in the microcirculation in normal and low flow states. 713 48

Adhesion molecules may play an important role not only in adherence of inflammatory cells (particularly eosinophils) to an inflamed focus but also in activation of these cells. It is therefore of interest to evaluate eosinophil activation via intercellular adhesion molecule-1 (ICAM-1) and the beta 2-integrin family, namely CR3 (Mac-1), lymphocyte function-associated antigen (LFA)-1 alpha and LFA-1 beta, which are ligands for ICAM-1. Reactive oxygen species generated by eosinophils have also been considered capable of causing airway injury at the inflamed focus. This study examined the effect of recombinant soluble ICAM-1 and its ligands on eosinophil-induced radical oxygen products in terms of luminol-dependent chemiluminescence. Recombinant soluble ICAM-1 augmented eosinophil oxidative metabolism. It was concluded that signaling via adhesion molecules might play an important role in the pathogenesis of allergic inflammation through activation of eosinophils, e.g. an increase in oxidative metabolism.
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PMID:Increased eosinophil oxidative metabolism by treatment with soluble intercellular adhesion molecule-1. 754 22

Fibronectin, an extracellular matrix component, is a ligand for very late activation antigen (VLA)-4, which is one of the beta 1-integrin family of molecules expressed by eosinophils. This study examined the effect of adherence to fibronectin on radical oxygen products from eosinophils. Adhesion of eosinophils to fibronectin resulted in enhancement of eosinophil production of radical oxygen species, as determined by luminol-dependent chemiluminescence of eosinophils stimulated with calcium ionophore. It was concluded that eosinophil adhesion to extracellular matrix via adhesion molecules may be important in the pathogenesis of allergic inflammation through eosinophil activation.
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PMID:Adhesion to fibronectin augments eosinophil radical oxygen products. 754 23

Oxygen radicals are believed to play a role in the pathogenesis of aging and glomerular injury. Changes in cellular function may result from modification of the extracellular matrix with which they interact. We produced oxidized mesangial matrix protein using a mixed function oxidase system. Carbonyl content of the oxidized matrix was significantly increased. Adhesion of macrophages to the oxidized mesangial matrix was significantly enhanced, an effect which was significantly abrogated by scavenger receptor blockade with polyinosinic acid or dextran sulfate. Neither polyinosinic acid nor dextran sulfate diminished macrophage adhesion to unmodified matrix. These data demonstrate for the first time that mesangial matrix can undergo oxidation and that such oxidation may promote accumulation of macrophages in the mesangium via interaction of macrophage scavenger receptors with oxidized matrix proteins.
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PMID:Oxidation of mesangial matrix using a mixed function oxidase system augments adhesion of macrophages: possible role of macrophage scavenger receptors. 761 19


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