UMLS:C0001511 - FACTA Search

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

The importance of thrombocyte function in atherogenesis is discussed in the light of experimental and clinical results. Adhesion and aggregation of thrombocytes on an intact or injured artery wall may be the first step to atherosclerotic plaque. In vitro measurements of aggregation, in vivo measurements of thrombocytic survival time and microscopic and histological examinations are all consistent in showing a rise in aggregation of thrombocytes in the early stages of arteriosclerosis. The measurement of thrombocyte function is therefore recommended in addition to the known risk factors in patients with a greater risk of arteriosclerosis.
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PMID:[Early arteriosclerosis with increased thrombocyte aggregation (author's transl)]. 41 80

Tyrosine phosphorylation of membrane-associated proteins is involved at two distinct sites of contact between cells and the extracellular matrix: adhesion plaques (cell adhesion and de-adhesion) and invadopodia (invasion into the extracellular matrix). Adhesion plaques from chicken embryonic fibroblasts or from cells transformed by Rous sarcoma virus contain low levels of tyrosine-phosphorylated proteins (YPPs) which were below the level of detection in 0.5-microns thin, frozen sections. In contrast, intense localization of YPPs was observed at invadopodia of transformed cells at sites of degradation and invasion into the fibronectin-coated gelatin substratum, but not in membrane extensions free of contact with the extracellular matrix. Local extracellular matrix degradation and formation of invadopodia were blocked by genistein, an inhibitor of tyrosine-specific kinases, but cells remained attached to the substratum and retained their free-membrane extensions. Invadopodia reduced or lost YPP labeling after treatment of the cells with genistein, but adhesion plaques retained YPP labeling. The plasma membrane contact fractions of normal and transformed cells have been isolated form cells grown on gelatin cross-linked substratum using a novel fractionation scheme, and analyzed by immunoblotting. Four major YPPs (150, 130, 81, and 77 kD) characterize invadopodial membranes in contact with the matrix, and are probably responsible for the intense YPP labeling associated with invadopodia extending into sites of matrix degradation. YPP150 may be an invadopodal-specific YPP since it is approximately 3.6-fold enriched in the invasive contact fraction relative to the cell body fraction and is not observed in normal contacts. YPP130 is enriched in transformed cell contacts but may also be present in normal contacts. The two major YPPs of normal contacts (130 and 71 kD) are much lower in abundance than the major tyrosine-phosphorylated bands associated with invadopodial membranes, and likely represent major adhesion plaque YPPs. YPP150, paxillin, and tensin appear to be enriched in the cell contact fractions containing adhesion plaques and invadopodia relative to the cell body fraction, but are also present in the soluble supernate fraction. However, vinculin, talin, and alpha-actinin that are localized at invadopodia, are equally concentrated in cell bodies and cell contacts as is the membrane-adhesion receptor beta 1 integrin. Thus, tyrosine phosphorylation of the membrane-bound proteins may contribute to the cytoskeletal and plasma membrane events leading to the formation and function of invadopodia that contact and proteolytically degrade the extracellular matrix; we have identified several candidate YPPs that may participate in the regulation of these processes.
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PMID:Tyrosine phosphorylation of membrane proteins mediates cellular invasion by transformed cells. 144 4

In this paper, it is suggested that specificity and non-specificity in (oral) microbial adhesion are different expressions for the same phenomena. It is argued that the same basic, physicochemical forces are responsible for so-called 'non-specific' and 'specific' binding and that from a physico-chemical point of view the distinction between the two is an artificial one. Non-specific interactions arise from Van der Waals and electrostatic forces and hydrogen bonding, and originate from the entire cell. A specific bond consists of a combination of the same type of Van der Waals and electrostatic forces and hydrogen bonding, now originating from highly localized chemical groups, which together form a stereochemical combination. The absence or presence of specific receptor sites on microbial cell surfaces must therefore be reflected in the overall, non-specific surface properties of cells as well. This point is illustrated by showing that glucan-binding lectins on mutans streptococcal strains may determine the pH dependence of the zeta potentials of these cells. When studying microbial adhesion, a non-specific approach may be better suited to explain adhesion to inert substrata, whereas a specific approach may be preferred in case of adhesion to adsorbed protein films. Adhesion is, however, not as important in plaque formation in the human oral cavity as is retention, because low shear force periods, during which adhesion presumably occurs, are followed by high shear force periods, during which adhering cells must withstand these detachment forces. Evidence is provided that such detachment will be through cohesive failure in the pellicle mass, the properties of which are conditioned by the overall, non-specific substratum properties. Therefore, in vivo plaque formation may be more readily explained by a non-specific approach.
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PMID:On the relative importance of specific and non-specific approaches to oral microbial adhesion. 151 60

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

Mesangial cells in culture change shape and become less adhesive in response to cAMP elevation (e.g., treatment with isoproterenol plus isobutylmethylxanthine (IM). Inhibitors of serine proteases inhibit cellular shape change in response to IM. To further examine the role of cell surface proteases in shape change, adhesion plaque proteins (i.e., preparations of ventral membranes and extracellular matrix) were separated in SDS-polyacrylamide gels containing gelatin with and without plasminogen. Four discrete zones of lysis were evident in plasminogen gels (indicative of activation of plasminogen) from control adhesion plaques: one inconspicuous zone with a Mr approximately 150 kD, another at approximately 115 kD, and a doublet at approximately 35-32 kD. Another diffuse zone of lysis centered around Mr approximately 70 kD and contained a defined band of approximately 56 kD. Adhesion plaques contained most of the plasminogen activators (PA). 5 min after IM treatment, the Mr approximately 150- and approximately 115-kD PA were increased in activity. Vasopressin (VP), which prevented shape change and adhesion loss when added along with IM, inhibited the increase in these PA. Preincubation with monoclonal or polyclonal antibodies to urokinase-type plasminogen activator (uPA) totally inhibited the IM-inducible shape change and adhesion loss. Activation of plasminogen throughout the gels revealed multiple protease resistant bands that markedly increased with IM treatment (maximal at 45 min). These may represent focal control mechanisms. uPA thus may mediate focal proteolysis, which results in shape change and decreased adhesion.
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PMID:Urokinase-dependent adhesion loss and shape change after cyclic adenosine monophosphate elevation in cultured rat mesangial cells. 246 65

Adhesion plaques, specialized regions of the plasma membrane where a cell contacts its substratum, are dynamic structures. However, little is known about how the protein-protein interactions that occur at adhesion plaques are controlled. One mechanism by which a cell might modulate its associations with the substratum is by selective, regulated proteolysis of an adhesion plaque component. Here we show that the catalytic subunit of the calcium-dependent protease type II (CDP-II) is localized in adhesion plaques of several cell types (BS-C-1, EBTr, and MDBK). We have compared the susceptibility of the adhesion plaque constituents vinculin, talin, and alpha-actinin to calcium-dependent proteolysis in vitro and have found talin to be the preferred substrate for CDP-II. The colocalization of a calcium-requiring proteolytic enzyme and talin in adhesion plaques raises the possibility that calcium-dependent proteolytic activity provides a mechanism for regulating some aspect of adhesion plaque physiology and function via cleavage of talin.
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PMID:Colocalization of calcium-dependent protease II and one of its substrates at sites of cell adhesion. 282 61

A technique measuring platelet reactivity with vessel wall subendothelium has been modified to examine platelet reactivity with vessel pieces in place of intact segments of aorta of a specific diameter. This modification of Baumgartner's original technique (1) allows measurement of blood platelet reactivity with vessel pieces, 5 X 10 mm in size, mounted on perfusion chambers with "twist bands." Adhesion and aggregation of human platelets to deendothelialized surfaces of intact segments of rabbit aorta and pieces of rabbit, rat and human aorta, were equivalent. This modification will expand the use of Baumgartner's technique to investigations of platelet vessel wall interactions using blood platelets and vessels from numerous experimental animal models and humans. It will also facilitate examination of possible differences in thrombogenocity of selected areas of vessels such as those exhibiting stages of atherosclerotic plaque formation.
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PMID:Human platelet reactivity with intact segments of rabbit aorta and selected regions of rabbit, rat and human aorta. 402 48

Another intracellular location of the Rous sarcoma virus (RSU) src gene product (pp60src) has been detected within RSV-transformed cells by indirect immunofluorescence. By using rabbit anti-tumor serum specific for pp60src, a speckled pattern of fluorescence was found on the ventral surface of RSV (Schmidt-Ruppin strain)-transformed normal rat kidney cells. Several tests indicated that this pattern was specific for pp60src. In addition, interference-reflection microscopy was used to visualize cellular adhesion plaques, which are the points at which cells attach to the substratum. Simultaneous immunofluorescence and interference-reflection microscopy indicated that the speckles of pp60src fluorescence corresponded exactly to the adhesion plaque structures. The presence of pp60src within the adhsion plaques was further demonstrated by indirect immunofluorescences on isolated adhesion plaques that remained bound to glass after removal of the cells. pp60src also was observed in adhesion plaques of RSV-tranformed chicken embryo fibroblasts (CEF) and mouse fibroblasts, as well as CEF infected with the temperature-sensitive RSV mutant tsNY68 and grown at permissive temperature. At nonpermissive temperature, pp60src was not detectable in adhesion plaques of the tsNY68-infected CEF. Adhesion plaques serve as focal points of microfilament bundle attachment, and thse results suggest that pp60src interacts directly with cellular cytoskeletal components.
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PMID:Adhesion plaques of Rous sarcoma virus-transformed cells contain the src gene product. 625 64

Chronic inflammatory cells are key components in the progression of atherosclerotic plaques and restenosis after coronary angioplasty. Adhesion molecules are fundamental in inflammatory processes. Therefore, the distributions of intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule (VCAM) were investigated in directional coronary atherectomy specimens obtained from 14 patients, in 6 with acute coronary syndromes (myocardial infarction and unstable angina within 1 month), 6 with old myocardial infarction and 2 with stable effort angina. There were eight primary lesions and six restenotic lesions. Atherectomy tissue fragments were snap frozen and cut into 4 microns thick cryostat sections for immunohistochemical staining by avidin-biotin complex immunoperoxidase techniques using adhesion molecule specific monoclonal antibodies BBIG-I1 (ICAM-1) and BBIG-V1 (VCAM). The cells of lesions were characterized in sequential sections by macrophage marker KP1 (CD68), endothelial marker JC/70A (CD31), and smooth muscle cell marker 1A4 (alpha-smooth muscle actin). Four restenotic lesions that had undergone a prior balloon angioplasty within a few months consisted of intimal proliferation and the other lesions were atherosclerotic plaque. Macrophage-rich areas were seen in the lesions from acute coronary syndromes and/or early restenotic lesions. Expression of ICAM-1 or VCAM was strongly associated with macrophage-rich areas, but VCAM staining was weaker than ICAM-1 except in one restenotic lesion. Macrophages that express ICAM-1 and/or VCAM may be important in the unstable plaques and restenotic lesions related to disease activity of ischemic heart disease.
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PMID:[Immunohistochemical analysis of adhesion molecules in directional coronary atherectomy specimens]. 747 44

Adhesion of trophoblast of the blastocyst to and penetration into the uterine epithelium, invasion into the maternal vessels and endometrial stroma, and establishment of the basic organization of the placenta all occur within the first week following the initiation of implantation in the human, macaques and several other primates. The cellular rearrangements and interactions of trophoblast with endometrial epithelial cells and stroma were studied during this preiimplantation stage in macaques. At the early lacunar stage, 1-2 days after the initiation of implantation, both cytotrophoblast and syncytial trophoblast can be found at the maternal surface of lacunae. As the lacunar stage advances, both syncytial trophoblast and cytotrophoblast are found throughout the implantation site including in septae partitioning lacunae, but syncytial trophoblast lines most of the lacunae and forms the confluence with the maternal vessels. Indentations of fetal mesenchyme and accumulation of cytotrophoblast cells within the septae occur rapidly. Over a period of about 2 days, clusters of cytotrophoblast cells pass beyond the syncytial trophoblast at the maternal surface as the anchoring villi, establishing the trophoblastic shell. The bypassing of epithelial plaque cells by cytotrophoblast cells and elimination of stromal matrix between such clusters verifies that this is a progressive invasion rather than simply superficial growth. Concomitant with establishment of the trophoblastic shell there is extravasation of blood, necrosis of plaque cells, and massive invasion of vessels by cytotrophoblast resulting in a necrotic zone between the trophoblastic shell and endometrium. It is concluded that only in the brief period of time of establishment of the trophoblastic shell is the full invasive potential of cytotrophoblast realized and that only at this stage does cytotrophoblast demonstrate the type of invasive and migratory behavior which has been achieved with isolated human cytotrophoblast cells in vitro.
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PMID:Transition from lacunar to villous stage of implantation in the macaque, including establishment of the trophoblastic shell. 757 26

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