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

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

Clinical and experimental observations suggest that tumor-induced endothelial cell (EC) injury may be one of several initial events in the establishment of tumor metastases. This work investigates tumor-induced EC injury and the interaction between tumor-damaged EC and platelets. We used cultured bovine EC and extracts of four cultured human malignancies. EC injury was assessed by 51Cr and lactic dehydrogenase (LDH) release. Incubation of EC with melanoma, breast carcinoma or lung carcinoma caused significant LDH and 51Cr release, whereas colon cancer seemed ineffective. Increased adhesion of platelets to tumor-injured EC was noted. These observations indicate that certain varieties of tumor cause EC injury. Adhesion of platelets to tumor-injured EC results in the formation of platelet-tumor thrombi at the endothelial surface, an event that may initiate tumor invasion of the vessel wall.
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PMID:Tumor interaction with vascular endothelium. 366 82

Lewis lung carcinoma cells are able to bind sugar residues, mainly alpha-D-glucosyl and alpha-D-mannosyl derivatives as assessed by fluorescent neoglycoproteins binding assay. We have investigated the binding efficiency and shown that: 3LL tumor cells are heterogeneous with regards to their capability to recognize neoglycoproteins, as shown by fluorescence microscopy and flow cytofluorometry analyses; basically two distinct subpopulations could be evidenced which were called glucose-receptor-rich (or glucose-specific lectin-rich, GLR 3LL) and glucose-receptor-poor (or glucose-specific lectin-poor, GLP 3LL) cells; those two subpopulations could be separated on the basis of their binding properties to neoglycoprotein-substituted microcarriers onto which GLR 3LL cells were able to rapidly adhere (2 h) while GLP 3LL cells were not. Some aspects of the biological behavior of these two selected populations were investigated in order to determine the possible involvement of 3LL cell membrane sugar receptors in cell-cell recognition and adhesion to other cells: namely C57 B1/6 mouse pulmonary cells maintained in primary culture. The two 3LL sublines bind to pulmonary cells but their adhesion kinetics were markedly different. Adhesion inhibition studies showed the adhesion process to be dependent upon the specificity of membrane lectins present on both the tumor cell surface (alpha-D-glucose-specific) and on the pulmonary cells (alpha-L-fucose-specific). Surface sugar-specific receptors on mouse pulmonary cells were shown to bind beta-D-galactose-, alpha-L-fucose and alpha-L-rhamnose substituted serum albumin. A neoglycoprotein bearing alpha-L-rhamnose residues was an efficient binder under the conditions of cell adhesion experiments and a potent cell adhesion inhibitor. A fucose-containing neoglycoprotein was shown to have a high inhibitory activity when used concomitantly to alpha-D-glucose-containing neoglycoproteins. Adhesion inhibition experiments, performed with cells the sugar specific receptors of which have been selectively inactivated, showed that the alpha-L-fucose specific receptors on pulmonary cell surface are partly responsible for the specificity of this cell-cell recognition process.
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PMID:Involvement of membrane sugar receptors and membrane glycoconjugates in the adhesion of 3LL cell subpopulations to cultured pulmonary cells. 380 41

Adhesion of cancer cells to endothelium is thought to be a prerequisite to extravasation during the haematogenous phase of metastasis, and is enhanced after perturbation of the endothelium by interleukin-1 (IL-1). The inducible endothelial adhesion molecules, E-selectin, VCAM-1/alpha 4 beta 1 and vitronectin receptor have been reported to mediate attachment of cancer cells to IL-1-treated endothelial cells. We have examined the relative contribution of these molecules by quantifying the adhesion of a panel of 22 human, 125I-labelled cancer cells and the rat W256 tumour to untreated and IL-1-treated endothelial monolayers in the presence of relevant neutralising antibodies. Antibodies against E-selectin inhibited the adhesion of HL-60 leukaemia cells and two colon carcinomas. Anti-alpha 4 beta 1 antibodies blocked adhesion of four melanomas, five sarcomas and one lung carcinoma. Anti-vitronectin receptor antibodies inhibited adhesion of 14 of the 22 human cell lines to IL-1-treated endothelial cells. Adhesion of seven cell lines was inhibited by more than a single antibody. In contrast, adhesion of one of the cancer cell lines was unaffected by any of the antibodies, suggesting involvement of other IL-1-inducible endothelial adhesion molecules. Moreover, none of the antibodies altered the attachment of cancer cells to unstimulated endothelial monolayers. We conclude that the mechanisms of cancer cell adhesion to the endothelium are influenced by endothelial activation and by the adhesive repertoire of the cancer cell.
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PMID:The relative roles of vitronectin receptor, E-selectin and alpha 4 beta 1 in cancer cell adhesion to interleukin-1-treated endothelial cells. 753 92

Ten small cell lung carcinoma and 12 non-small cell lung carcinoma cell lines of various histological types were studied for constitutive expression of the intercellular adhesion molecule-1 (ICAM-1). ICAM-1 was present in all squamous and large cell carcinoma cell lines whereas two out of five adenocarcinoma and all small cell lung cancer (SCLC) cell lines showed no basal ICAM-1 expression. ICAM-1 expression was upregulated by tumour necrosis factor-alpha (TNF-alpha) in a time- and dose-dependent manner in cell lines with basal ICAM-1 expression. Western blot analysis revealed a molecular size of 85 kDa for ICAM-1 in all but one cell line. The TNF-alpha-induced upregulation of ICAM-1 occurs on the transcriptional level. Adhesion of peripheral blood mononuclear cells to lung tumour cell lines could be inhibited by monoclonal antibodies (MAb) (CD11a;CD18) against the receptor of ICAM-1, the leukocyte function-associated antigen-1 (LFA-1), but not by a MAb (CD54) against ICAM-1 itself.
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PMID:Differential expression of the intercellular adhesion molecule-1 (ICAM-1) in lung cancer cell lines of various histological types. 811 Apr 95

The purpose of this study was to assess the phenotypic and functional characteristics of pulmonary microvascular endothelial cells (MVEC) in the acute respiratory distress syndrome (ARDS). Pulmonary MVEC were isolated from the lungs of five patients who developed ARDS, and from four patients who had undergone a lobectomy for lung carcinoma, as controls. Adhesion molecules and other surface molecules were quantitated on these cells by flow cytometry and the cytokines IL-6 and IL-8 were measured in the supernatants by ELISA. The constitutive expression of intercellular adhesion molecule and, to a lesser extent, vascular adhesion molecule-1, was significantly increased on MVEC isolated from all ARDS patients, as compared with control MVEC. CD14 and TNF receptor p75 were also increased on the surface of MVEC isolated from most patients with ARDS. The expression of ELAM-1 and TNF receptor p55 (TNF-R1) was not significant on the surface of either ARDS-derived or control pulmonary MVEC. The constitutive ability of ARDS-derived MVEC to secrete IL-6 and IL-8 was markedly enhanced as compared with control MVEC. Upon in vitro restimulation by TNF, pulmonary MVEC from ARDS patients showed lower ICAM-1 upregulation, but similar IL-6 and IL-8 production capacity, when compared with control MVEC. Selective differences were found in cell adhesion molecules and TNF receptor p75 expression on pulmonary MVEC isolated from patients with ARDS. These pulmonary MVEC spontaneously overexpress some adhesion molecules and produce greater amounts of the pro- and anti-inflammatory cytokines IL-8 and IL-6. These findings suggest that ICAM-1 and TNF receptor p75 may have a particular involvement in the pathogenesis of acute lung injury, and that the endothelium may be an important source of cytokines detected in broncho-alveolar lavage during this syndrome. It is tempting to hypothesize that the differences observed result from either a genetic predisposition to ARDS based on MVEC phenotype or to a long-lived MVEC phenotypic change induced by ARDS. By allowing the monitoring of phenotypic and functional parameters, cultures of pulmonary MVEC isolated from ARDS patients may thus represent a useful system to analyze further the mechanisms of acute lung injury and to evaluate the efficacy of drugs, including inhibitors of cytokines and of adhesion molecules.
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PMID:Phenotypic and functional analysis of pulmonary microvascular endothelial cells from patients with acute respiratory distress syndrome. 860 86

Although human small cell lung carcinoma (SCLC) cell lines are typically anchorage-independent and do not attach on most extracellular matrix proteins, OH-1, and several other SCLC cell lines attached on substrates coated with thrombospondin-1 (TSP1). SCLC cells grew long-term as adherent cells on a TSP1-coated substrate. Adhesion of SCLC cells on TSP1 was inhibited by heparin, function-blocking antibodies recognizing alpha3 or beta1 integrin subunits, and by soluble alpha3beta1 integrin ligands. SCLC cells extended neurite-like processes on a TSP1 substrate, which was also mediated by alpha3beta1 integrin. Process formation on a TSP1 substrate was specifically stimulated by epidermal growth factor and somatostatin. Adhesion on TSP1 weakly inhibited SCLC cell proliferation, but this inhibition was strongly enhanced in the presence of epidermal growth factor. TSP1 and an alpha3beta1 integrin-binding peptide from TSP1 also inhibited proliferation when added in solution. High-affinity binding of 125I-labeled TSP1 to OH-1 cells was heparin-dependent and may be mediated by sulfated glycolipids, which are the major sulfated glycoconjugates synthesized by these cells. Synthesis or secretion of TSP1 by SCLC cells could not be detected. On the basis of these results, the alpha3beta1 integrin and sulfated glycolipids cooperate to mediate adhesion of SCLC cells on TSP1. Interaction with TSP1 through this integrin inhibits growth and induces neurotypic differentiation, which suggests that this response to TSP1 may be exploited to inhibit the progression of SCLC.
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PMID:Thrombospondin-1 promotes alpha3beta1 integrin-mediated adhesion and neurite-like outgrowth and inhibits proliferation of small cell lung carcinoma cells. 1066 1

Laminin-10/11, the laminin isoforms containing the alpha 5 chain, are major components of basement membranes of many fetal and adult tissues. Laminin-10/11 purified from the conditioned medium of human lung carcinoma cells were potent in mediating adhesion of the carcinoma cells in an integrin alpha 3 beta 1-dependent manner. To further define the type(s) of integrins involved in cell adhesion to laminin-10/11, we examined the effects of a panel of function-blocking anti-integrin antibodies on the adhesion of different cell types to laminin-10/11. Although anti-integrin beta 1 antibody inhibited the adhesion of all cell types tested, anti-alpha 3 antibody inhibited the adhesion of carcinoma and glioma cells but not fibroblastic cells. Adhesion of fibroblastic cells was inhibited, however, by a combination of anti-alpha 3 and anti-alpha 6 antibodies, suggesting that both alpha 3 beta 1 and alpha 6 beta 1 integrins function as laminin-10/11 receptors in these cells. To explore this possibility, we examined the adhesion of K562 leukemic cells transfected with integrin alpha 3 or alpha 6 subunit to laminin-10/11 or other laminin isoforms. Laminin-10/11 were potent adhesive ligands for both the alpha 3 beta 11 and alpha 6 beta 1 transfectants, whereas laminin-5 was the preferred ligand for the alpha 3 beta 1 transfectants. Upon stimulation with the activating anti-integrin beta 1 antibody, both transfectants became more adherent to the substratum regardless of the type of laminins coated, although their preference for laminin isoforms remained unaltered. K562 cells transfected with alpha 6 and beta 4 subunits were also capable of adhering to laminin-10/11, indicating that integrin alpha 6 beta 4 is another receptor for laminin-10/11. Even with lung carcinoma cells, the alpha 6-containing integrins partly contributed to adhesion to laminin-10/11 at higher coating concentrations, although non-integrin receptor(s) might also be involved under such conditions. These results indicated that laminin-10/11 are potent and versatile adhesive ligands in basement membranes capable of binding to both alpha 3 beta 1 and alpha 6 beta 1 integrins with high avidity and also to alpha 6 beta 4 integrin.
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PMID:Integrin binding specificity of laminin-10/11: laminin-10/11 are recognized by alpha 3 beta 1, alpha 6 beta 1 and alpha 6 beta 4 integrins. 1067 76

Adhesion of tumor cells to endothelium via cell-adhesion molecules constitutes a crucial step in metastasis, which is largely responsible for the poor prognosis of small-cell lung carcinoma (SCLC). Patients with SCLC were reported to have elevated levels of intercellular adhesion molecule-1 (ICAM-1). The present study therefore focusses on endothelial ICAM-1 in tumor-cell adhesion. We found that the adherence of SCLC cells (cell lines H24, H69, H82) to cultured vascular endothelium in stasis and flow depends on the expression of ICAM-1. After blocking endothelial ICAM-1 with monoclonal antibodies, adhesion was significantly reduced. These results pinpoint ICAM-1 for the first time as a molecule crucially involved in SCLC cell-endothelial adhesion.
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PMID:ICAM-1 supports adhesion of human small-cell lung carcinoma to endothelial cells. 1538 68

The junctional adhesion molecule C (JAM-C) was recently shown to undergo a heterophilic interaction with the leukocyte beta2 integrin Mac-1, thereby mediating interactions between vascular cells in inflammatory cell recruitment. Here, the homophilic interaction of JAM-C is presented and functionally characterized to mediate tumor cell-endothelial cell interactions. Recombinant soluble JAM-C in fluid phase bound to immobilized JAM-C as assessed in a purified system; moreover, JAM-C-transfected Chinese hamster ovary (CHO) cells adhered to immobilized JAM-C. The homophilic interaction of JAM-C was mediated by the isolated amino-terminal Ig domain (D1), but not the carboxyl-terminal Ig domain (D2), of the molecule. Dimerization of JAM-A is dependent on the sequence RVE in the amino-terminal Ig domain. This motif is conserved in JAM-C (Arg64-Ile65-Glu66), and a single amino acid mutation in this motif (E66R) abolished the homophilic interaction of JAM-C. The lung carcinoma cell line NCI-H522 was found to express JAM-C. NCI-H522 cells adhered to immobilized JAM-C, as well as to JAM-C-transfected CHO cells, but not to mock-transfected CHO cells or to CHO cells transfected with the JAM-C mutant (E66R). Adhesion of NCI-H522 cells to JAM-C protein or JAM-C-transfected CHO cells was abolished in the presence of soluble JAM-C or the isolated D1. Furthermore, the adhesion of NCI-H522 cells to endothelial cells was significantly blocked by soluble JAM-C or the isolated D1. Thus, JAM-C undergoes a homophilic interaction via the Arg64-Ile65-Glu66 motif on the membrane-distal Ig domain of the molecule. The homophilic interaction of JAM-C can mediate tumor cell-endothelial cell interactions and may thereby be involved in the process of tumor cell metastasis.
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PMID:The homophilic binding of junctional adhesion molecule-C mediates tumor cell-endothelial cell interactions. 1611 3


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