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

Fetal embryonic fibroblasts attach and spread on thrombospondin (TSP). Adhesion is tight and focal adhesion plaques and "spots" are formed. We have investigated the receptors responsible for this adhesion. Unstimulated cells express the vitronectin receptor on their surface and this beta 3 integrin molecule contributes to adhesion. Another putative receptor for TSP, termed glycoprotein (GP) 88, which exists as a cytoplasmic pool in unstimulated cells becomes surface expressed when these cells are plated on TSP and localizes to areas of cell adhesion. Western blot analysis of cell lysate confirms GP88 as a TSP binding protein. Studies with fucoidan indicate that the heparan sulfate proteoglycan, known to function as a receptor for TSP, appears to contribute substantially to the TSP attachment of these cells and may be the receptor most important in the initial phases of TSP interaction.
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PMID:Adhesion to thrombospondin by human embryonic fibroblasts is mediated by multiple receptors and includes a role for glycoprotein 88 (CD36). 137 62

We have demonstrated previously that chick embryo fibroblasts synthesize and secrete a large chondroitin sulfate proteoglycan (designated PG-M) that binds to fibronectin. We now report the possibility that PG-M interactions with cell surfaces can modulate cell-substrate adhesion. When PG-M was added to the medium, various types of trypsinized cells failed to adhere not only to fibronectin-coated substrates but also to collagen- or vitronectin-coated substrates. Adhesion of the cells to laminin or glycyl-arginyl-glycyl-aspartyl-serine derivatized serum albumin (arginyl-glycyl-aspartic acid-containing molecules with no capacity to bind PG-M) was also inhibited by PG-M. Treatment of the proteoglycan with either proteolytic enzymes or chondroitinase abolished its inhibitory effects on the cell adhesion. These results suggest that direct binding between PG-M and fibronectin, if any, is not a cause of the inhibition by PG-M and that only the proteoglycan form is responsible for the activity. When the immobilization of added PG-M to available plastic surfaces of coated dishes was blocked by pretreating the dishes with serum albumin, the inhibitory effect of PG-M was abolished, suggesting that the immobilized fraction of PG-M can act as a cell adhesion inhibitor. In immobilized form, both cartilage chondroitin sulfate proteoglycan (designated PG-H) and chondroitin sulfate-derivatized serum albumin also inhibited cell adhesion. In contrast, heparan sulfate proteoglycan form LD and heparan sulfate-derivatized serum albumin had far lower inhibitory activities, indicating that the active site for the interaction between cells and PG-M is on the chondroitin sulfate chains.
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PMID:Regulation of cell-substrate adhesion by proteoglycans immobilized on extracellular substrates. 247 Jul 39

Thrombospondin is a 420-kD platelet alpha-granule glycoprotein that binds specifically to heparin. We examined adhesion to thrombospondin of CHO K1 cells and three mutant CHO lines with varying deficiencies in glycosaminoglycan (GAG) synthesis. In an experiment in which the parent line (K1) had 78% adherence to thrombospondin adsorbed to tissue culture plastic, CHO S745 cells, with less than 6% normal GAG synthesis had 11% adherence. CHO S677 cells, with decreased heparan sulfate proteoglycan but increased chondroitin sulfate proteoglycan, had 42% adherence. CHO S803 cells, with decreased heparan sulfate proteoglycan and normal chondroitin sulfate proteoglycan, had 31% adherence. Heparin inhibited K1 cell adhesion to thrombospondin, but not fibronectin, in a concentration-dependent manner. Dermatan sulfate but not chondroitin sulfate was also inhibitory. There was markedly decreased K1 cell adhesion to a thrombospondin core fragment that lacked the heparin binding NH2-terminal domain. Purified heparin binding domain, although poorly adhesive when adsorbed to substratum, inhibited cell adhesion to intact thrombospondin. Adhesion was better for all cell lines tested, including three human tumor cell lines, when thrombospondin was adsorbed at pH 4.0 compared with pH 7.4. When adsorption of thrombospondin was done at pH 7.4, cell adhesion was better when thrombospondin was adsorbed in the presence of greater than or equal to 0.6 mM calcium, compared to 0.1 mM calcium or EDTA. These findings suggest that thrombospondin can adsorb to plastic with varying degrees of exposure of a cell adhesion domain. We conclude that the thrombospondin cell adhesion receptor on CHO cells is a heparan sulfate proteoglycan, and that cell adhesion to thrombospondin depends on conformation of adsorbed thrombospondin.
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PMID:Chinese hamster ovary cell adhesion to human platelet thrombospondin is dependent on cell surface heparan sulfate proteoglycan. 252 6

Single cell suspensions of early postnatal mouse cerebellum adhere to substrate-bound culture supernatants of the teratocarcinoma cell line PF-HR9 and can be inhibited to adhere by antibodies to the neural cell adhesion molecules L1 and N-CAM. Adhesion can also be inhibited by the glycosaminoglycans heparin and heparan sulfate, and less by chondroitin sulfate or hyaluronic acid. Heparinase treatment of cells, but not of HR9 substrate, reduces adhesion. Adhesion does not appear to be mediated by laminin, a constituent of HR9 extracellular matrix, since L1 and N-CAM antibodies do not interfere with cell adhesion on EHS sarcoma laminin as substrate and since antibodies to EHS sarcoma laminin partially inhibit adhesion to HR9 extracellular matrix which contains laminin. Of the other extracellular matrix constituents analysed in HR9 culture supernatants (collagen type IV, a heparan sulfate proteoglycan and fibronectin) none could be shown to promote adhesion, when coated as substrate, suggesting that yet unidentified compounds are responsible for L1- or N-CAM-mediated cell adhesion. These experiments show for the first time that extracellular matrix constituents can act as binding partners for the neural cell adhesion molecules L1 and N-CAM.
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PMID:Adhesion of neural cells to extracellular matrix constituents. Involvement of glycosaminoglycans and cell adhesion molecules. 317 50

Previous studies have shown that heparin-binding epidermal growth factor (EGF)-like growth factor (HB-EGF) mRNA is synthesized in the mouse uterine luminal epithelium temporally, just prior to implantation, and spatially, only at the site of blastocyst apposition (Das, S. K., Wang, X. N., Paria, B. C., Damm, D., Abraham, J. A., Klagsbrun, M., Andrews, G. K. and Dey, S. K. (1994) Development 120, 1071-1083). HB-EGF is synthesized as a transmembrane protein (HB-EGF TM) that can be processed to release the soluble growth factor. An antibody that cross-reacts only with the transmembrane form detected HB-EGF TM in uterine luminal epithelium in a spatial manner similar to that of HB-EGF mRNA. HB-EGF TM is a juxtacrine growth factor that mediates cell-cell contact. To ascertain if HB-EGF TM could be an adhesion factor for blastocysts, a mouse cell line synthesizing human HB-EGF TM was co-cultured with mouse blastocysts. Cells synthesizing HB-EGF TM adhered to day-4 mouse blastocysts more extensively than parental cells or cells synthesizing a constitutively secreted form of HB-EGF. Adhesion of cells synthesizing HB-EGF TM to blastocysts was inhibited by excess recombinant HB-EGF but less so by TGF-alpha. Adhesion was also inhibited by the synthetic peptide P21 corresponding to the HB-EGF heparin binding domain, and by incubating the blastocysts with heparinase. In addition, adhesion to delayed implanting dormant blastocysts, which lack EGF receptor (EGFR), was diminished relative to normal blastocysts. These results suggested that adhesion between blastocysts and cells synthesizing HB-EGF TM was mediated via interaction with both blastocyst EGFR and heparan sulfate proteoglycan (HSPG). It was concluded that HB-EGF TM, which is synthesized exclusively in the luminal epithelium at the site of blastocyst apposition, and which is a juxtacrine adhesion factor for blastocysts, could be one of the mediators of blastocyst adhesion to the uterus in the process of implantation.
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PMID:Mouse preimplantation blastocysts adhere to cells expressing the transmembrane form of heparin-binding EGF-like growth factor. 862 15

A heparin-binding glycoprotein was purified from conditioned medium of cultured rat Schwann cells. The protein, p200, which has an apparent molecular mass of approximately 200 kDa, was identified by its ability to bind the cell surface heparan sulfate proteoglycan N-syndecan (syndecan-3) in a membrane overlay assay. Soluble heparin but not chondroitin sulfate inhibited the binding, suggesting the involvement of heparan sulfate chains of proteoglycan in the interaction. Purified p200 promoted the attachment and spreading of Schwann cells. Adhesion to p200 was blocked by heparin, suggesting that heparan sulfate proteoglycans are cell surface receptors for p200. The tissue distribution of p200 was determined by immunoblot analysis with anti-p200 antibodies. Among neonatal rat tissues examined p200 was detected only in sciatic nerve and, at lower levels, in skeletal muscle. p200 expression in sciatic nerve was detectable only during the first 2-3 weeks of postnatal development and was not detected in adult rats. Immunofluorescent staining of rat sciatic nerve showed that p200 was localized in the extracellular matrix surrounding individual Schwann cells-axon units. Two tryptic peptides from p200 were purified and sequenced. These contained multiple GXX collagen-like repeats. Bacterial collagenase digestion of p200 produced a product with an apparent molecular mass of approximately 90 kDa. These data suggest that Schwann cells secrete an apparently novel collagen-like adhesive protein that interacts with cells through cell surface heparan sulfate proteoglycans.
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PMID:Schwann cells secrete a novel collagen-like adhesive protein that binds N-syndecan. 866 84

Mel-cell adhesion molecule (CAM), also known as MUC18 and CD146, is a novel member of the immunoglobulin supergene family. Mel-CAM was first identified as an integral membrane glycoprotein in human melanoma and is also abundantly expressed by endothelial cells of various origins. In a previous study (I. M. Shih et al., Cancer Res., 54: 2514-2520, 1994), we showed that Mel-CAM is a cell-cell adhesion molecule with a possible role in melanoma invasion and metastasis. Here, we define the molecular mechanism responsible for cell-cell adhesion of Mel-CAM and demonstrate its role in melanoma-endothelial cell interactions. Most of human melanoma cells, including Mel-CAM-negative SBcl-2 cells, adhered to nitrocellulose-immobilized Mel-CAM produced by baculovirus recombinants. This adhesion can be blocked by full-length Mel-CAM or polyclonal antiserum against Mel-CAM. Adhesion is not affected by the presence of EDTA, truncated Mel-CAM extracellular domain, or heparan sulfate proteoglycan. In cell aggregation assays, Mel-CAM-negative SBcl-2 cells cluster with U937TM cells (U937 transfected with Mel-CAM cDNA) but not with control nontransfectants, suggesting that SBcl-2 cells express the ligand for Mel-CAM. SBcl-2 cells also form heterotypic aggregates with Mel-CAM-positive human endothelial cells but not with Mel-CAM-negative but ligand-positive smooth muscle cells. Taken together, our results show that Mel-CAM mediates cell-cell adhesion through heterophilic adhesion to an as yet unidentified ligand present on melanoma but not on endothelial cells. Thus, melanoma-endothelial interactions during metastasis may occur through this novel mechanism.
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PMID:Melanoma cell-cell interactions are mediated through heterophilic Mel-CAM/ligand adhesion. 928 96

Previously we reported that type V collagen synthesized by Schwann cells inhibits the outgrowth of axons from rat embryo dorsal root ganglion neurons but promotes Schwann cell migration (Chernousov, M. A., Stahl, R. C., and Carey, D. J. (2001) J. Neurosci. 21, 6125-6135). Analysis of Schwann cell adhesion and spreading on dishes coated with various type V collagen domains revealed that Schwann cells adhered effectively only to the non-collagenous N-terminal domain (NTD) of the alpha4(V) collagen chain. Schwann cell adhesion to alpha4(V)-NTD induced actin cytoskeleton assembly, tyrosine phosphorylation, and activation of the Erk1/Erk2 protein kinases. Adhesion to alpha4(V)-NTD is cell type-specific because rat fibroblasts failed to adhere to dishes coated with this polypeptide. Schwann cell adhesion and spreading on alpha4(V)-NTD was strongly inhibited by soluble heparin (IC(50) approximately 30 ng/ml) but not by chondroitin sulfate. Analysis of the heparin binding activities of a series of recombinant alpha4(V)-NTD fragments and deletion mutants identified a highly basic region (not present in other type V collagen NTD) as the site responsible for high affinity heparin binding. Schwann cells adhered poorly to dishes coated with alpha4(V)-NTD that lacked the heparin binding site and failed to spread or assemble organized actin-cytoskeletal structures. Soluble alpha4(V)-NTD polypeptide that contained the heparin binding site inhibited spreading of Schwann cells on dishes coated with alpha4(V)-NTD. Affinity chromatography of Schwann cell detergent extracts on a column of immobilized alpha4(V)-NTD resulted in the isolation of syndecan-3, a transmembrane heparan sulfate proteoglycan. Together, these results suggest that Schwann cells bind to collagen type V via syndecan-3-dependent binding to a novel high affinity heparin binding site in the alpha4(V)-NTD.
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PMID:Schwann cell adhesion to a novel heparan sulfate binding site in the N-terminal domain of alpha 4 type V collagen is mediated by syndecan-3. 1175 72

Cerebral amyloid angiopathy (CAA) is a major feature of Alzheimer's disease pathology. In CAA, degeneration of vascular smooth muscle cells (VSMCs) occurs close to regions of the basement membrane where the amyloid protein (Abeta) builds up. In this study, the possibility that Abeta disrupts adhesive interactions between VSMCs and the basement membrane was examined. VSMCs were cultured on a commercial basement membrane substrate (Matrigel). The presence of Abeta in the Matrigel decreased cell-substrate adhesion and cell viability. Full-length oligomeric Abeta was required for the effect, as N- and C-terminally truncated peptide analogues did not inhibit adhesion. Abeta that was fluorescently labelled at the N-terminus (fluo-Abeta) bound to Matrigel as well as to the basement membrane heparan sulfate proteoglycan (HSPG) perlecan and laminin. Adhesion of VSMCs to perlecan or laminin was decreased by Abeta. As perlecan influences VSMC viability through the extracellular signal-regulated kinase (ERK)1/2 signalling pathway, the effect of Abeta1-40 on ERK1/2 phosphorylation was examined. The level of phospho-ERK1/2 was decreased in cells following Abeta treatment. An inhibitor of ERK1/2 phosphorylation enhanced the effect of Abeta on cell adhesion. The studies suggest that Abeta can decrease VSMC viability by disrupting VSMC-extracellular matrix (ECM) adhesion.
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PMID:The beta-amyloid peptide of Alzheimer's disease decreases adhesion of vascular smooth muscle cells to the basement membrane. 1626 5

Perlecan/HSPG2 is a large, multi-domain, multifunctional heparan sulfate proteoglycan with a wide tissue distribution. With the exception of its unique domain I, each of perlecan's other four domains shares sequence similarity to other protein families including low density lipoprotein (LDL) receptor, laminin alpha chain, neural cell adhesion molecule (NCAM), immunoglobulin (Ig) superfamily members, and epidermal growth factor (EGF). Previous studies demonstrated that glycosaminoglycan-bearing perlecan domain I supports early chondrogenesis and growth factor delivery. Other sites in the core protein interact with other matrix molecules and support cell adhesion, although the peptide sequences involved remain unidentified. To identify novel functional motifs within perlecan, we used a bioinformatics approach to predict regions likely to be on the exterior of the folded protein. Unique hydrophilic sequences of about 18 amino acids were selected for testing in cell adhesion assays. A novel peptide sequence (TWSKVGGHLRPGIVQSG) from an immunoglobulin (Ig) repeat in domain IV supported rapid cell adhesion, spreading and focal adhesion kinase (FAK) activation when compared to other peptides, a randomly scrambled sequence of the domain IV peptide or a negative control protein. MG-63 human osteosarcoma cells, epithelial cells and multipotent C(3)H10T1/2 cells, but not bone marrow cells, rapidly, i.e., within 30 min, formed focal adhesions and assembled an actin cytoskeleton on domain IV peptide. Cell lines differentially adhered to the domain IV peptide, suggesting adhesion is receptor specific. Adhesion was divalent cation independent and heparin sensitive, a finding that may explain some previously poorly understood observations obtained with intact perlecan. Collectively, these studies demonstrate the feasibility of using bioinformatics-based strategies to identify novel functional motifs in matrix proteins such as perlecan.
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PMID:A novel peptide sequence in perlecan domain IV supports cell adhesion, spreading and FAK activation. 1799 86


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