The Proteoglycan Lectin Domain Binds Sulfated Cell Surface Glycolipids and Promotes Cell Adhesion

alpha-Agglutinin is a cell adhesion glycoprotein expressed on the cell wall of Saccharomyces cerevisiae alpha cells. Binding of alpha-agglutinin to its ligand a-agglutinin, expressed by a cells, mediates cell-cell contact during mating. Analysis of truncations of the 650-amino-acid alpha-agglutinin structural gene AG alpha 1 delineated functional domains of alpha-agglutinin. Removal of the C-terminal hydrophobic sequence allowed efficient secretion of the protein and loss of cell surface attachment. This cell surface anchorage domain was necessary for linkage to a glycosyl phosphatidylinositol anchor. A construct expressing the N-terminal 350 amino acid residues retained full a-agglutinin-binding activity, localizing the binding domain to the N-terminal portion of alpha-agglutinin. A 278-residue N-terminal peptide was inactive; therefore, the binding domain includes residues between 278 and 350. The segment of alpha-agglutinin between amino acid residues 217 and 308 showed significant structural and sequence similarity to a consensus sequence for immunoglobulin superfamily variable-type domains. The similarity of the alpha-agglutinin-binding domain to mammalian cell adhesion proteins suggests that this structure is a highly conserved feature of adhesion proteins in diverse eukaryotes.

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Redistribution and dysfunction of integrins in cultured renal epithelial cells exposed to oxidative stress

AJP Renal Physiology ◽

10.1152/ajprenal.1993.264.1.f149 ◽

1993 ◽

Vol 264 (1) ◽

pp. F149-F157 ◽

Cited By ~ 14

Author(s):

J. Gailit ◽

D. Colflesh ◽

I. Rabiner ◽

J. Simone ◽

M. S. Goligorsky

Keyword(s):

Oxidative Stress ◽

Cell Adhesion ◽

Epithelial Cell ◽

Epithelial Cells ◽

Cell Surface ◽

Apical Cell ◽

Flow Cytometric Analysis ◽

Adhesion Properties ◽

Renal Tubular Cells ◽

Renal Tubular

Tubular obstruction by detached renal tubular epithelial cells is a major cause of oliguria in acute renal failure. Viable renal tubular cells can be recovered from urine of patients with acute tubular necrosis, suggesting a possible defect in cell adhesion to the basement membrane. To study this process of epithelial cell desquamation in vitro, we investigated the effect of nonlethal oxidative stress on the integrin adhesion receptors of the primate kidney epithelial cell line BS-C-1. Morphological and functional studies of cell adhesion properties included the following: interference reflection microscopy, intravital confocal microscopy and immunocytochemistry, flow cytometric analysis of integrin receptor abundance, and cell-matrix attachment assay. High levels of the integrin subunits alpha 3, alpha v, and beta 1 were detected on the cell surface by fluorescence-activated cell sorting (FACS) analysis, as well as lower levels of alpha 1, alpha 2, alpha 4, alpha 5, alpha 6, and beta 3. Exposure of BS-C-1 cells to nonlethal oxidative stress resulted in the disruption of focal contacts, disappearance of talin from the basal cell surface, and in the redistribution of integrin alpha 3-subunits from predominantly basal location to the apical cell surface. As measured in a quantitative cell attachment assay, oxidative stress decreased BS-C-1 cell adhesion to type IV collagen, laminin, fibronectin, and vitronectin. Defective adhesion was not associated with a loss of alpha 3-, alpha 4-, or alpha v-integrin subunits from the cell surface.(ABSTRACT TRUNCATED AT 250 WORDS)

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Lectin domain peptides from selectins interact with both cell surface ligands and Ca2+ ions.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(19)88632-5 ◽

1992 ◽

Vol 267 (28) ◽

pp. 19846-19853

Author(s):

J.G. Geng ◽

G.A. Heavner ◽

R.P. McEver

Keyword(s):

Cell Surface ◽

Surface Ligands ◽

Lectin Domain

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Intracellular transport and cell surface delivery of the neural cell adhesion molecule (NCAM)

BioArchitecture ◽

10.1080/19490992.2015.1118194 ◽

2015 ◽

Vol 5 (3-4) ◽

pp. 54-60 ◽

Cited By ~ 3

Author(s):

Iryna Leshchyns’ka ◽

Vladimir Sytnyk

Keyword(s):

Cell Adhesion ◽

Cell Surface ◽

Adhesion Molecule ◽

Intracellular Transport ◽

Cell Adhesion Molecule ◽

Neural Cell Adhesion Molecule ◽

Neural Cell ◽

Neural Cell Adhesion

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Regulation of epithelial and lymphocyte cell adhesion by adenosine deaminase–CD26 interaction

Biochemical Journal ◽

10.1042/bj3610203 ◽

2002 ◽

Vol 361 (2) ◽

pp. 203-209 ◽

Cited By ~ 4

Author(s):

Silvia GINÉS ◽

Marta MARIÑO ◽

Josefa MALLOL ◽

Enric I. CANELA ◽

Chikao MORIMOTO ◽

...

Keyword(s):

T Cells ◽

Cell Adhesion ◽

T Cell ◽

B Cells ◽

Epithelial Cell ◽

Epithelial Cells ◽

Cell Surface ◽

Adenosine Deaminase ◽

Cell To Cell Adhesion ◽

Lymphocyte Cell

The extra-enzymic function of cell-surface adenosine deaminase (ADA), an enzyme mainly localized in the cytosol but also found on the cell surface of monocytes, B cells and T cells, has lately been the subject of numerous studies. Cell-surface ADA is able to transduce co-stimulatory signals in T cells via its interaction with CD26, an integral membrane protein that acts as ADA-binding protein. The aim of the present study was to explore whether ADA—CD26 interaction plays a role in the adhesion of lymphocyte cells to human epithelial cells. To meet this aim, different lymphocyte cell lines (Jurkat and CEM T) expressing endogenous, or overexpressing human, CD26 protein were tested in adhesion assays to monolayers of colon adenocarcinoma human epithelial cells, Caco-2, which express high levels of cell-surface ADA. Interestingly, the adhesion of Jurkat and CEM T cells to a monolayer of Caco-2 cells was greatly dependent on CD26. An increase by 50% in the cell-to-cell adhesion was found in cells containing higher levels of CD26. Incubation with an anti-CD26 antibody raised against the ADA-binding site or with exogenous ADA resulted in a significant reduction (50–70%) of T-cell adhesion to monolayers of epithelial cells. The role of ADA—CD26 interaction in the lymphocyte—epithelial cell adhesion appears to be mediated by CD26 molecules that are not interacting with endogenous ADA (ADA-free CD26), since SKW6.4 (B cells) that express more cell-surface ADA showed lower adhesion than T cells. Adhesion stimulated by CD26 and ADA is mediated by T cell lymphocyte function-associated antigen. A role for ADA—CD26 interaction in cell-to-cell adhesion was confirmed further in integrin activation assays. FACS analysis revealed a higher expression of activated integrins on T cell lines in the presence of increasing amounts of exogenous ADA. Taken together, these results suggest that the ADA—CD26 interaction on the cell surface has a role in lymphocyte—epithelial cell adhesion.

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Cell surface lipids and adhesion. I. The effects of lysophosphatidyl compounds, phospholipase A2 and aggregation-inhibiting protein

Journal of Cell Science ◽

10.1242/jcs.18.3.347 ◽

1975 ◽

Vol 18 (3) ◽

pp. 347-356

Author(s):

A.S. Curtis ◽

J. Campbell ◽

F.M. Shaw

Keyword(s):

Cell Adhesion ◽

Fatty Acid ◽

Cell Surface ◽

Phospholipase A2 ◽

Low Temperatures ◽

Phospholipase A ◽

Phospholipase Activity ◽

Surface Lipids ◽

Parallel Effect ◽

Inhibiting Protein

Aggregation-inhibiting protein (AIP: Curtis & Greaves, 1965), which diminishes the adhesiveness of cells, particularly at low temperatures, is identified in the present paper as phospholipase A2 (EC. 3.1.1.4). Our reasons for this identification are because phospholipase activity parallels AIP activity on cell adhesion, and because various inhibitors and sera act in a parallel manner on adhesion in the presence of AIP or phospholipase. We suggest that the enzyme acts on adhesion by producing lysolecithin and other lysolipids in the plasmalemma. Addition of lysolipids diminishes cell adhesion in a manner similar to phospholipase A. Incubation of cells in Hanks' medium at 37 degrees C has a parallel effect. Conditions which would be expected to stimulate reacylation of lysolipids in the plasmalemma, i.e. incubation of cells in the external presence of CoA, ATP and a fatty acid, lead to a recovery or maintenance of adhesion after or during Hanks' incubation at 37 degrees C. All these results suggest that lipid components of the cell, probably in the plasmalemma, are of importance in adhesion. The results are discussed in relation to the long-standing controversy about the effects of low temperatures and trypsinization on cell adhesion, for phospholipase treatment of cells affects adhesion in a manner similar to trypsinization.

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Trimers of the fibronectin cell adhesion domain localize to actin filament bundles and undergo rearward translocation

Journal of Cell Science ◽

10.1242/jcs.115.12.2581 ◽

2002 ◽

Vol 115 (12) ◽

pp. 2581-2590 ◽

Cited By ~ 2

Author(s):

Françoise Coussen ◽

Daniel Choquet ◽

Michael P. Sheetz ◽

Harold P. Erickson

Keyword(s):

Cell Adhesion ◽

Fluorescence Microscopy ◽

Cell Surface ◽

Actin Cytoskeleton ◽

Fiber Bundles ◽

Cell Surfaces ◽

Actin Fiber ◽

Filament Bundles ◽

Necessary And Sufficient ◽

Small Clusters

Previous studies have shown that small beads coated with FN7-10, a four-domain cell adhesion fragment of fibronectin, bind to cell surfaces and translocate rearward. Here we investigate whether soluble constructs containing two to five FN7-10 units might be sufficient for activity. We have produced a monomer, three forms of dimers, a trimer and a pentamer of FN7-10,on the end of spacer arms. These oligomers could bind small clusters of up to five integrins. Fluorescence microscopy showed that the trimer and pentamer bound strongly to the cell surface, and within 5 minutes were prominently localized to actin fiber bundles. Monomers and dimers showed only diffuse localization. Beads coated with a low concentration (probably one complex per bead) of trimer or pentamer showed prolonged binding and rearward translocation, presumably with the translocating actin cytskeleton. Beads containing monomer or dimer showed only brief binding and diffusive movements. We conclude that clusters of three integrin-binding ligands are necessary and sufficient for coupling to and translocating with the actin cytoskeleton.

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A molecular mechanism directly linking E-cadherin adhesion to initiation of epithelial cell surface polarity

The Journal of Cell Biology ◽

10.1083/jcb.200705094 ◽

2007 ◽

Vol 178 (2) ◽

pp. 323-335 ◽

Cited By ~ 109

Author(s):

Lene N. Nejsum ◽

W. James Nelson

Keyword(s):

Cell Adhesion ◽

Epithelial Cell ◽

Cell Surface ◽

Basolateral Membrane ◽

Surface Polarity ◽

Cell Contacts ◽

Protein Receptors ◽

Epithelial Cell Surface ◽

E Cadherin ◽

Cell Cell

Mechanisms involved in maintaining plasma membrane domains in fully polarized epithelial cells are known, but when and how directed protein sorting and trafficking occur to initiate cell surface polarity are not. We tested whether establishment of the basolateral membrane domain and E-cadherin–mediated epithelial cell–cell adhesion are mechanistically linked. We show that the basolateral membrane aquaporin (AQP)-3, but not the equivalent apical membrane AQP5, is delivered in post-Golgi structures directly to forming cell–cell contacts where it co-accumulates precisely with E-cadherin. Functional disruption of individual components of a putative lateral targeting patch (e.g., microtubules, the exocyst, and soluble N-ethylmaleimide–sensitive factor attachment protein receptors) did not inhibit cell–cell adhesion or colocalization of the other components with E-cadherin, but each blocked AQP3 delivery to forming cell–cell contacts. Thus, components of the lateral targeting patch localize independently of each other to cell–cell contacts but collectively function as a holocomplex to specify basolateral vesicle delivery to nascent cell–cell contacts and immediately initiate cell surface polarity.

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