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Journal articles on the topic 'Adhesion receptors; Glycoproteins'
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1
Ruhl, Stefan, John O. Cisar, and Ann L. Sandberg. "Identification of Polymorphonuclear Leukocyte and HL-60 Cell Receptors for Adhesins of Streptococcus gordonii and Actinomyces naeslundii." Infection and Immunity 68, no. 11 (November 1, 2000): 6346–54. http://dx.doi.org/10.1128/iai.68.11.6346-6354.2000.
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ABSTRACT Interactions of oral streptococci and actinomyces with polymorphonuclear leukocytes (PMNs), mediated by sialic acid- and Gal/GalNAc-reactive adhesins, respectively, result in activation of the PMNs and thereby may contribute to the initiation of oral inflammation. Sialidase treatment of PMNs or HL-60 cells abolished adhesion ofStreptococcus gordonii but was required for adhesion ofActinomyces naeslundii. The same effects of sialidase were noted for adhesion of these bacteria to a major 150-kDa surface glycoprotein of either PMNs or undifferentiated HL-60 cells and to a 130-kDa surface glycoprotein of differentiated HL-60 cells. These glycoproteins were both identified as leukosialin (CD43) by immunoprecipitation with a specific monoclonal antibody (MAb). Adhesion of streptococci and actinomyces to a 200-kDa minor PMN surface glycoprotein was also detected by bacterial overlay of untreated and sialidase-treated nitrocellulose transfers, respectively. This glycoprotein was identified as leukocyte common antigen (CD45) by immunoprecipitation with a specific MAb. CD43 and CD45 both possess extracellular mucinlike domains in addition to intracellular domains that are implicated in signal transduction. Consequently, the interactions of streptococci and actinomyces with the mucinlike domains of these mammalian cell surface glycoproteins result not only in adhesion but, in addition, may represent the initial step in PMN activation by these bacteria.
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Norris, W. E. "Evidence for a second class of membrane glycoprotein involved in cell adhesion." Journal of Cell Science 93, no. 4 (August 1, 1989): 631–40. http://dx.doi.org/10.1242/jcs.93.4.631.
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It is believed that transmembrane relationships exist between the cytoskeleton and the extracellular matrix through integral membrane proteins, almost certainly glycoproteins, which would act as transmembrane receptors. Such receptors would include those involved in cell adhesion. I have been able to isolate a detergent-soluble fraction from chick embryo fibroblasts that is enriched in these integral membrane proteins by making use of their amphipathic character to phase-separate them in the detergent Triton X-114. Antisera raised to this fraction had biological activities interfering with cell adhesion and motility. A 45 X 10(3) Mr glycoprotein unique to this fraction appears to be responsible for this biological activity and is a candidate for a transmembrane receptor involved in cell adhesion.
3
Watson, Steve. "Collagen Receptor Signaling in Platelets and Megakaryocytes." Thrombosis and Haemostasis 82, no. 08 (1999): 365–76. http://dx.doi.org/10.1055/s-0037-1615855.
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IntroductionThe extracellular matrix protein, collagen, plays a primary role in hemostasis. Collagen fibers provide an important site for adhesion of platelets to the exposed subendothelium, trapping them at the site of vascular damage and enabling the formation of a monolayer of cells over the damaged area. Collagen fibers also stimulate platelet activation, leading to inside-out regulation of the integrin glycoprotein (GP) IIb-IIIa (also known as αIIbβ3), secretion from dense and α granules, generation of thromboxanes, and expression of procoagulant activity, all of which support the hemostatic process. The role of collagen in supporting platelet adhesion to the subendothelium is mediated through indirect and direct interactions. The indirect interaction is mediated through von Willebrand factor (vWF), which binds to the GP Ib-IX-V complex on the platelet surface.1-3 The interaction with vWF is critical for platelet adhesion at medium to high rates of flow because of the fast rate of association between vWF and GP Ib-IX. The importance of this interaction is demonstrated by the severe bleeding problems experienced by individuals with functional impairment of vWF (von Willebrand disease) or GP Ib-IX (Bernard-Soulier syndrome). At low rates of flow, collagen fibers are able to support adhesion in the absence of vWF through a direct interaction with a number of platelet surface glycoproteins i.e. collagen receptors,4,5 this also serves to support vWF-dependent adhesion at higher rates of flow by preventing dissociation. Crosslinking of platelet surface glycoproteins by collagen also generates intracellular signals, leading to platelet activation.The number of proteins on the platelet surface proposed to be collagen receptors is approaching double figures, but it is generally accepted that the integrin GP Ia-IIa (also known as α2β1) and glycoprotein VI (GP VI) are among the most important of these, playing critical roles in adhesion and activation, respectively6 (Fig. 1). This is illustrated by the mild bleeding problems of patients with a low level of expression or the presence of autoantibodies to GP Ia-IIa and the spontaneous, severe bleeding episodes that are occasionally seen in patients whose platelets are deficient in GP VI.6 There is evidence, however, that other collagen receptors have supporting roles in adhesion and activation. For example, GP VI supports platelet adhesion to collagen7 and GP IV, also known as CD36, may also play a similar role.8 The role of the recently cloned collagen receptor p65 in adhesion is not known. Evidence that the interaction of collagen with receptors, such as GPIV and p65, is of less importance than for interactions with GP Ia-IIa, and GP VI is provided by the absence of individuals with bleeding problems caused by deficiencies in these proteins. This is illustrated most clearly for GP IV, which is absent in 3% to 5 % of the Japanese population, and yet such individuals display no major vascular problems.Due to the large number of glycoproteins that bind collagen on the platelet surface, it has been difficult to gain a full understanding of the role of individual collagen receptors in adhesion and activation responses. This is complicated further by the interactions between vWF and GP Ib-IX-V, vWF or fibrinogen to activated GP IIb-IIIa especially as both glycoprotein receptors generate intracellular signals. The relative importance of individual collagen receptors in adhesion also varies with the rate of flow and between collagen types. A full discussion of platelet adhesion to collagen is beyond the scope of this article, and the reader is referred to a number of excellent recent reviews for further information.4-6,9,10 The present chapter focuses on the signaling events generated by the activation (or more correctly crosslinking) of platelet surface glycoproteins by collagen and the implications that this has for platelet activation under normal and diseased conditions.
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Rahman, Shah, Mairaj Ansari, Pratibha Gaur, Imtiyaz Ahmad, Chandrani Chakravarty, Dileep Verma, Anshika Sharma, et al. "The Immunomodulatory CEA Cell Adhesion Molecule 6 (CEACAM6/CD66c) Is a Protein Receptor for the Influenza A Virus." Viruses 13, no. 5 (April 21, 2021): 726. http://dx.doi.org/10.3390/v13050726.
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To establish a productive infection in host cells, viruses often use one or multiple host membrane glycoproteins as their receptors. For Influenza A virus (IAV) such a glycoprotein receptor has not been described, to date. Here we show that IAV is using the host membrane glycoprotein CD66c as a receptor for entry into human epithelial lung cells. Neuraminidase (NA), a viral spike protein, binds to CD66c on the cell surface during IAV entry into the host cells. Lung cells overexpressing CD66c showed an increase in virus binding and subsequent entry into the cell. Upon comparison, CD66c demonstrated higher binding capacity than other membrane glycoproteins (EGFR and DC-SIGN) reported earlier to facilitate IAV entry into host cells. siRNA mediated knockdown of CD66c from lung cells inhibited virus binding on cell surface and entry into cells. Blocking CD66c by antibody on the cell surface resulted in decreased virus entry. We found that CD66c is a specific glycoprotein receptor for influenza A virus that did not affect entry of non-IAV RNA virus (Hepatitis C virus). Finally, IAV pre-incubated with recombinant CD66c protein when administered intranasally in mice showed decreased cytopathic effects in mice lungs. This publication is the first to report CD66c (Carcinoembryonic cell adhesion molecule 6 or CEACAM6) as a glycoprotein receptor for Influenza A virus.
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Luzak, Boguslawa, Jacek Golanski, Marcin Rozalski, Magdalena A. Boncler, and Cezary Watala. "Inhibition of collagen-induced platelet reactivity by DGEA peptide." Acta Biochimica Polonica 50, no. 4 (December 31, 2003): 1119–28. http://dx.doi.org/10.18388/abp.2003_3636.
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Direct interactions between collagen, the most thrombogenic component of the extracellular matrix, and platelet surface membrane receptors mediate platelet adhesion and induce platelet activation and aggregation. In this process two glycoproteins are crucial: integrin alpha2beta1, an adhesive receptor, and GPVI, which is especially responsible for signal transduction. Specific antagonists of the collagen receptors are useful tools for investigating the complexity of platelet-collagen interactions. In this work we assessed the usefulness of DGEA peptide (Asp-Gly-Glu-Ala), the shortest collagen type I-derived motif recognised by the collagen-binding integrin alpha2beta1, as a potential antagonist of collagen receptors. We examined platelet function using several methods including platelet adhesion under static conditions, platelet function analyser PFA-100TM, whole blood electric impedance aggregometry (WBEA) and flow cytometry. We found that DGEA significantly inhibited adhesion, aggregation and release reaction of collagen activated blood platelets. The inhibitory effect of DGEA on static platelet adhesion reached sub-maximal values at millimolar inhibitor concentrations, whereas the specific blocker of alpha2beta1 - monoclonal antibodies Gi9, when used at saturating concentrations, had only a moderate inhibitory effect on platelet adhesion. Considering that 25-30% of total collagen binding to alpha2beta1 is specific, we conclude that DGEA is a strong antagonist interfering with a variety of collagen-platelet interactions, and it can be recognised not only by the primary platelet adhesion receptor alpha2beta1 but also by other collagen receptors.
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Vainionpää, Noora, Yamato Kikkawa, Kari Lounatmaa, Jeffrey H. Miner, Patricia Rousselle, and Ismo Virtanen. "Laminin-10 and Lutheran blood group glycoproteins in adhesion of human endothelial cells." American Journal of Physiology-Cell Physiology 290, no. 3 (March 2006): C764—C775. http://dx.doi.org/10.1152/ajpcell.00285.2005.
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Laminin α5-chain, a constituent of laminins-10 and -11, is expressed in endothelial basement membranes. In this study we evaluated the roles of α5 laminins and Lutheran blood group glycoproteins (Lu), recently identified receptors of the laminin α5-chain, in the adhesion of human dermal microvascular and pulmonary artery endothelial cells. Field emission scanning electron microscopy and immunohistochemistry showed that the endothelial cells spread on laminin-10 and formed fibronectin-positive fibrillar adhesion structures. Immunoprecipitation results suggested that the cells produced fibronectin, which they could use as adhesion substratum, during the adhesion process. When the protein synthesis during the adhesion was inhibited with cycloheximide, the formation of fibrillar adhesions on laminin-10 was abolished, suggesting that laminin-10 does not stimulate the formation of any adhesion structures. Northern and Western blot analyses showed that the cells expressed Mr78,000 and 85,000 isoforms of Lu. Quantitative cell adhesion assays showed that in the endothelial cell adhesion to laminin-10, Lu acted in concert with integrins β1and αvβ3, whereas in the adhesion to laminin-10/11, Lu and integrin β1were involved. In the cells adhering to the α5 laminins, Lu and the integrins showed uniform cell surface distribution. These findings indicate that α5 laminins stimulate endothelial cell adhesion but not the formation of fibrillar or focal adhesions. Lu mediates the adhesion of human endothelial cells to α5 laminins in collaboration with integrins β1and αvβ3.
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Law, Debbie, Lisa Nannizzi-Alaimo, Kyra Cowan, K. S. Srinivasa Prasad, Vanitha Ramakrishnan, and David Phillips. "Signal Transduction Pathways for Mouse Platelet Membrane Adhesion Receptors." Thrombosis and Haemostasis 82, no. 08 (1999): 345–52. http://dx.doi.org/10.1055/s-0037-1615852.
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IntroductionThe study of genetic bleeding disorders provided the first link between platelet functions and specific membrane glycoproteins. Two examples are well known and have been the subject of numerous reviews. First, Glanzmann’s thrombasthenia is a bleeding disorder caused by a defect of platelet aggregation in which the glycoprotein αIIbβ3 (GP IIb-IIIa) is either lacking or is expressed but is defective.1 We now know that αIIbβ3 exists on the surface of unstimulated platelets in an inactive form but, through a process known as “inside-out” signaling, responds to platelet stimulation to become a receptor for soluble fibrinogen and von Willebrand factor (vWF) to mediate platelet aggregation. αIIbβ3 is also known to bind immobilized fibrinogen and, through a process known as “outside-in” signaling, to induce platelet stimulation.2 A second example is Bernard-Soulier syndrome, a bleeding disorder caused by the failure of platelets to bind to subendothelial matrices due to the lack of or defective GP Ib-IX-V.3 It is now known that GP Ib-IX-V binds to vWF to mediate the adhesion of unstimulated platelets to injured blood vessel walls.4,5 GP Ib-IX-V interactions also induce platelet stimulation, a process mediated by signaling through GP Ib-IX-V.6 The mechanisms responsible for the binding of adhesive proteins to αIIbβ3 and GP Ib-IX-V are beginning to be understood and, as such, targets for therapeutic intervention have been identified. Three parenteral αIIbβ3 antagonists have demonstrated a therapeutic benefit in large-scale clinical trials of acute coronary syndromes, including unstable angina, non Q-wave myocardial infarction, and percutaneous intervention, and are now commercially available.7 Many orally available αIIbβ3 antagonists are presently in clinical trials. Although GP Ib antagonists have not been pursued as aggressively, animal studies have shown that they do have a proven antithrombotic benefit.8 Despite these advances in the understanding of glycoprotein ligand binding and development of therapeutic antagonists of adhesive protein receptors, the mechanisms responsible for transducing signals through these receptors have remained elusive.It is now established that signal transduction reactions through αIIbβ3 and GP Ib-IX-V are not only involved in platelet aggregation to cause vessel occlusions, but also that glycoprotein signaling affects thrombus growth and stability, as well as the biology and perhaps the pathology of the vessels in which aggregates occur. In one example, platelet-derived growth factor (PDGF), secreted in response to αIIbβ3 signaling from the α-granules of aggregated platelets, is a primary smooth muscle cell mitogen and is believed to be involved not only in the response to vascular injury but also in atherosclerotic lesion progression.9,10 In another example, CD 154 (previously termed CD40 ligand) redistributes from α-granule membranes to the surface of aggregated platelets in response to αIIbβ3 signaling.11 CD 154 is an important inflammatory mediator that induces the release of cytokines from endothelial and smooth muscle cells, initiates vascular inflammation, and participates in atherosclerotic lesion progression.12 A third example involves the assembly of prothrombinase and factor Xase on the surface of aggregated platelets, enabling platelet thrombi to be procoagulant and accounting for the apparent anticoagulant activity of αIIbβ3 antagonists.13,14 In addition, platelet aggregates also display fibrinogen and vWF bound to platelet membrane glycoproteins that function to recruit additional platelets and, therefore, enhance thrombus growth.15 More recent data also indicate that platelet aggregation induces de novo protein synthesis.16,17 These and other events are secondary to the initial adhesion and aggregation reactions of platelets and are consequences of signaling reactions induced by the adhesion and aggregation receptors. Thus, characterization of the membrane glycoprotein signal transduction pathways has become essential, not only to understand platelet function, but also to determine whether there are additional ways by which platelet-mediated pathologies can be regulated.Platelet membrane glycoprotein signaling reactions either do not occur in nucleated cells normally used for transfection studies or are insufficiently characterized. Accordingly, the use of genetics to study mechanisms of platelet adhesive protein receptor signaling has been limited. The advent of technologies that facilitate genetic manipulations in the mouse genome has produced new ways to define protein function and determine the structure-function relationships of individual proteins and is proving of value in unraveling signal transduction pathways in platelets. Although one should always be cautious in extrapolating data from mouse to human platelets (as demonstrated by the PAR receptors, see below), it is impressive that much of what has been learned about platelets appears to apply to both mouse and human. Indeed, this review summarizes the status of genetic manipulations of the mouse genome that have contributed to our understanding of platelet membrane adhesion receptor signaling in platelets.
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Wayner, E. A., W. G. Carter, R. S. Piotrowicz, and T. J. Kunicki. "The function of multiple extracellular matrix receptors in mediating cell adhesion to extracellular matrix: preparation of monoclonal antibodies to the fibronectin receptor that specifically inhibit cell adhesion to fibronectin and react with platelet glycoproteins Ic-IIa." Journal of Cell Biology 107, no. 5 (November 1, 1988): 1881–91. http://dx.doi.org/10.1083/jcb.107.5.1881.
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We have identified monoclonal antibodies that inhibit human cell adhesion to collagen (P1H5), fibronectin (P1F8 or P1D6), and collagen and fibronectin (P1B5) that react with a family of structurally similar glycoproteins referred to as extracellular matrix receptors (ECMRs) II, VI, and I, respectively. Each member of this family contains a unique alpha subunit, recognized by the antibodies, and a common beta subunit, each of approximately 140 kD. We show here that ECMR VI is identical to the fibronectin receptor (FNR), very late antigen (VLA) 5, and platelet glycoproteins Ic-IIa and shall be referred to as FNR. Monoclonal antibodies to FNR inhibit lymphocyte, fibroblast, and platelet adhesion to fibronectin-coated surfaces. ECMRs I, II, and FNR were differentially expressed in platelets, resting or activated lymphocytes, and myeloid, epithelial, endothelial, and fibroblast cell populations, suggesting a functional role for the receptors in vascular emigration and selective tissue localization. Tissue staining of human fetal skin localized ECMRs I and II to the basal epidermis primarily, while monoclonal antibodies to the FNR stained both the dermis and epidermis. Experiments carried out to investigate the functional roles of these receptors in mediating cell adhesion to complex extracellular matrix (ECM) produced by cells in culture revealed that complete inhibition of cell adhesion to ECM required antibodies to both the FNR and ECMR II, the collagen adhesion receptor. These results show that multiple ECMRs function in combination to mediate cell adhesion to complex EMC templates and predicts that variation in ECM composition and ECMR expression may direct cell localization to specific tissue domains.
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Doig, Peter, William Paranchych, Parimi A. Sastry, and Randall T. Irvin. "Human buccal epithelial cell receptors of Pseudomonas aeruginosa: identification of glycoproteins with pilus binding activity." Canadian Journal of Microbiology 35, no. 12 (December 1, 1989): 1141–45. http://dx.doi.org/10.1139/m89-189.
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Adherence of Pseudomonas aeruginosa to a patient's epithelial surface is thought to be an important first step in the infection process. Pseudomonas aeruginosa is capable of attaching to epithelial cells via its pili, yet little is known about the epithelial receptors of this adhesin. Using nitrocellulose replicas of polyacrylamide gels of solubilized human buccal epithelial cells (BECs), glycoproteins (Mz: 82 000, and four bands between 40 000 and 50 000) that bound purified pili from P. aeruginosa strain K (PAK) were identified by immunoblotting with a pilus-specific monoclonal antibody that does not affect pilus binding to BECs (PK3B). All pilus-binding glycoproteins were surface localized, as determined by surface radioiodination of intact BECs. Binding of pili to all of the glycoproteins was inhibited by Fab fragments of monoclonal antibody PK99H, which inhibits PAK pili binding to BECs by binding to or near the binding domain of the pilus, but not by Fab fragments of monoclonal antibody PK41C, which binds to PAK pilin but does not inhibit pili binding to BECs, demonstrating that pilus binding to these glycoproteins is likely via the same region of the pilus that binds to intact BECs. Periodate oxidation of the blot eliminated pili binding to all glycoproteins, indicating that a carbohydrate moiety is an important determinant for pilus-binding activity. However, not all of the glycoproteins exhibited the same degree of sensitivity to periodate oxidation. Furthermore, monosaccharide inhibition of pilus binding to BECs implicated L-fucose and N-acetylneuraminic acid as receptor moieties.Key words: Pseudomonas aeruginosa, pili, receptor, adhesion.
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Brown, M. J., and L. M. Loew. "Electric field-directed fibroblast locomotion involves cell surface molecular reorganization and is calcium independent." Journal of Cell Biology 127, no. 1 (October 1, 1994): 117–28. http://dx.doi.org/10.1083/jcb.127.1.117.
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Directional cellular locomotion is thought to involve localized intracellular calcium changes and the lateral transport of cell surface molecules. We have examined the roles of both calcium and cell surface glycoprotein redistribution in the directional migration of two murine fibroblastic cell lines, NIH 3T3 and SV101. These cell types exhibit persistent, cathode directed motility when exposed to direct current electric fields. Using time lapse phase contrast microscopy and image analysis, we have determined that electric field-directed locomotion in each cell type is a calcium independent process. Both exhibit cathode directed motility in the absence of extracellular calcium, and electric fields cause no detectable elevations or gradients of cytosolic free calcium. We find evidence suggesting that galvanotaxis in these cells involves the lateral redistribution of plasma membrane glycoproteins. Electric fields cause the lateral migration of plasma membrane concanavalin A receptors toward the cathode in both NIH 3T3 and SV101 fibroblasts. Exposure of directionally migrating cells to Con A inhibits the normal change of cell direction following a reversal of electric field polarity. Additionally, when cells are plated on Con A-coated substrata so that Con A receptors mediate cell-substratum adhesion, cathode-directed locomotion and a cathodal accumulation of Con A receptors are observed. Immunofluorescent labeling of the fibronectin receptor in NIH 3T3 fibroblasts suggests the recruitment of integrins from large clusters to form a more diffuse distribution toward the cathode in field-treated cells. Our results indicate that the mechanism of electric field directed locomotion in NIH 3T3 and SV101 fibroblasts involves the lateral redistribution of plasma membrane glycoproteins involved in cell-substratum adhesion.
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DeSimone, Douglas W., M. Susan Dalton, Mark D. Hens, Bethanne Hill, Joe W. Ramos, David G. Ransom, and Charles A. Whittaker. "Spatial and temporal expression of fibronecttns and integrins during Xenopus development." Proceedings, annual meeting, Electron Microscopy Society of America 50, no. 1 (August 1992): 598–99. http://dx.doi.org/10.1017/s0424820100123398.
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A central challenge in biology is to understand the cellular processes that direct morphogenesis and the formation of the basic body plan during development. These events are controlled to large extent, by adhesive interactions of cells with one another and with their extracellular environments. Specifically, we are investigating the structure, function and expression of two groups of molecules thought to play important roles in promoting cell adhesion and migration in the embryo: fibronectins (FNs), which are large extracellular matrix (ECM) glycoproteins with many adhesion related functions; and integrins, which are the cellular transmembrane-receptors for FNs and several other components of the ECM.
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van der Meulen, Emma, Meg Anderton, Melissa J. Blumenthal, and Georgia Schäfer. "Cellular Receptors Involved in KSHV Infection." Viruses 13, no. 1 (January 17, 2021): 118. http://dx.doi.org/10.3390/v13010118.
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The process of Kaposi’s Sarcoma Herpes Virus’ (KSHV) entry into target cells is complex and engages several viral glycoproteins which bind to a large range of host cell surface molecules. Receptors for KSHV include heparan sulphate proteoglycans (HSPGs), several integrins and Eph receptors, cystine/glutamate antiporter (xCT) and Dendritic Cell-Specific Intercellular adhesion molecule-3-grabbing non-integrin (DC-SIGN). This diverse range of potential binding and entry sites allows KSHV to have a broad cell tropism, and entry into specific cells is dependent on the available receptor repertoire. Several molecules involved in KSHV entry have been well characterized, particularly those postulated to be associated with KSHV-associated pathologies such as Kaposi’s Sarcoma (KS). In this review, KSHV infection of specific cell types pertinent to its pathogenesis will be comprehensively summarized with a focus on the specific cell surface binding and entry receptors KSHV exploits to gain access to a variety of cell types. Gaps in the current literature regarding understanding interactions between KSHV glycoproteins and cellular receptors in virus infection are identified which will lead to the development of virus infection intervention strategies.
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Bixby, J. L., J. Lilien, and L. F. Reichardt. "Identification of the major proteins that promote neuronal process outgrowth on Schwann cells in vitro." Journal of Cell Biology 107, no. 1 (July 1, 1988): 353–61. http://dx.doi.org/10.1083/jcb.107.1.353.
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Schwann cells have a unique role in regulating the growth of axons during regeneration and presumably during development. Here we show that Schwann cells are the best substrate yet identified for promoting process growth in vitro by peripheral motor neurons. To determine the molecular interactions responsible for Schwann cell regulation of axon growth, we have examined the effects of specific antibodies on process growth in vitro, and have identified three glycoproteins that play major roles. These are the Ca2+-independent cell adhesion molecule (CAM), L1/Ng-CAM; the Ca2+-dependent CAM, N-cadherin; and members of the integrin extracellular matrix receptor superfamily. Two other CAMs present on neurons and/or Schwann cells-N-CAM and myelin-associated glycoprotein-do not appear to be important in regulating process growth. Our results imply that neuronal growth cones use integrin-class extracellular matrix receptors and at least two CAMs--N-cadherin and L1/Ng-CAM-for growth on Schwann cells in vitro and establish each of these glycoproteins as a strong candidate for regulating axon growth and guidance in vivo.
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Coller, BS, JH Beer, LE Scudder, and MH Steinberg. "Collagen-platelet interactions: evidence for a direct interaction of collagen with platelet GPIa/IIa and an indirect interaction with platelet GPIIb/IIIa mediated by adhesive proteins." Blood 74, no. 1 (July 1, 1989): 182–92. http://dx.doi.org/10.1182/blood.v74.1.182.182.
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Abstract Using intact human platelets as the immunogen and a functional, collagen-coated bead agglutination assay, we have produced a murine monoclonal antibody (6F1) that blocks the interaction between platelets and collagen in the presence of Mg++. 6F1 affinity-purified the platelet glycoprotein Ia/IIa complex, and approximately 800 molecules of 6F1 bound per platelet at saturation. 6F1 nearly completely inhibited collagen-induced platelet aggregation and inhibited platelet adhesion to collagen by greater than 95% when plasma proteins were absent. Antibody 10E5, which blocks the binding of adhesive glycoproteins to GPIIb/IIIa, produced only minor inhibition (approximately 25%) of adhesion under the same circumstances. In contrast, when tested in platelet-rich plasma (PRP), 6F1 had only a minor effect on collagen-induced platelet aggregation, prolonging the lag phase but not the slope or maximum aggregation. Similarly, when collagen was precoated with plasma, 6F1 caused less inhibition of platelet adhesion (53%) than without the precoating (greater than 95%). Antibody 10E5 inhibited this adhesion by 32%, and the combination of 6F1 and 10E5 was more effective than either alone, inhibiting it by 90%. Time course studies of platelet agglutination of collagen-coated beads using PRP containing physiologic concentrations of divalent cations showed early inhibition by 6F1, indicating that the GPIa/IIa receptor operates in this environment. With more prolonged incubation, however, 6F1 was less effective; this later agglutination could be partially prevented by adding 10E5 or PGE1 to the 6F1. These data support a model wherein collagen can directly interact with GPIa/IIa and can indirectly interact with GPIIb/IIIa via intermediary adhesive proteins. The physiological significance of these interactions, and potential interactions with other receptors, remains to be established.
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Coller, BS, JH Beer, LE Scudder, and MH Steinberg. "Collagen-platelet interactions: evidence for a direct interaction of collagen with platelet GPIa/IIa and an indirect interaction with platelet GPIIb/IIIa mediated by adhesive proteins." Blood 74, no. 1 (July 1, 1989): 182–92. http://dx.doi.org/10.1182/blood.v74.1.182.bloodjournal741182.
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Using intact human platelets as the immunogen and a functional, collagen-coated bead agglutination assay, we have produced a murine monoclonal antibody (6F1) that blocks the interaction between platelets and collagen in the presence of Mg++. 6F1 affinity-purified the platelet glycoprotein Ia/IIa complex, and approximately 800 molecules of 6F1 bound per platelet at saturation. 6F1 nearly completely inhibited collagen-induced platelet aggregation and inhibited platelet adhesion to collagen by greater than 95% when plasma proteins were absent. Antibody 10E5, which blocks the binding of adhesive glycoproteins to GPIIb/IIIa, produced only minor inhibition (approximately 25%) of adhesion under the same circumstances. In contrast, when tested in platelet-rich plasma (PRP), 6F1 had only a minor effect on collagen-induced platelet aggregation, prolonging the lag phase but not the slope or maximum aggregation. Similarly, when collagen was precoated with plasma, 6F1 caused less inhibition of platelet adhesion (53%) than without the precoating (greater than 95%). Antibody 10E5 inhibited this adhesion by 32%, and the combination of 6F1 and 10E5 was more effective than either alone, inhibiting it by 90%. Time course studies of platelet agglutination of collagen-coated beads using PRP containing physiologic concentrations of divalent cations showed early inhibition by 6F1, indicating that the GPIa/IIa receptor operates in this environment. With more prolonged incubation, however, 6F1 was less effective; this later agglutination could be partially prevented by adding 10E5 or PGE1 to the 6F1. These data support a model wherein collagen can directly interact with GPIa/IIa and can indirectly interact with GPIIb/IIIa via intermediary adhesive proteins. The physiological significance of these interactions, and potential interactions with other receptors, remains to be established.
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Siljander, Pia R. M., Imke C. A. Munnix, Peter A. Smethurst, Hans Deckmyn, Theo Lindhout, Willem H. Ouwehand, Richard W. Farndale, and Johan W. M. Heemskerk. "Platelet receptor interplay regulates collagen-induced thrombus formation in flowing human blood." Blood 103, no. 4 (February 15, 2004): 1333–41. http://dx.doi.org/10.1182/blood-2003-03-0889.
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Abstract The platelet glycoproteins (GPs) Ib, integrin α2β1, and GPVI are considered central to thrombus formation. Recently, their relative importance has been re-evaluated based on data from murine knockout models. To examine their relationship during human thrombus formation on collagen type I fibers at high shear (1000 s–1), we tested a novel antibody against GPVI, an immunoglobulin single-chain variable fragment, 10B12, together with specific antagonists for GPIbα (12G1 Fab2) and α2β1 (6F1 mAb or GFOGER-GPP peptide). GPVI was found to be crucial for aggregate formation, Ca2+ signaling, and phosphatidylserine (PS) exposure, but not for primary adhesion, even with more than 97% receptor blockade. Inhibiting α2β1 revealed its involvement in regulating Ca2+ signaling, PS exposure, and aggregate size. Both GPIbα and α2β1 contributed to primary adhesion, showing overlapping function. The coinhibition of receptors revealed synergism in thrombus formation: the coinhibition of adenosine diphosphate (ADP) receptors with collagen receptors further decreased adhesion and aggregation, and, crucially, the complete eradication of thrombus formation required the coinhibition of GPVI with either GPIbα or α2β1. In summary, human platelet deposition on collagen depends on the concerted interplay of several receptors: GPIb in synergy with α2β1 mediating primary adhesion, reinforced by activation through GPVI, which further regulates the thrombus formation.
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Nemer, Wassim El, Pierre Gane, Yves Colin, Viviane Bony, Cécile Rahuel, Frédéric Galactéros, Jean Pierre Cartron, and Caroline Le Van Kim. "The Lutheran Blood Group Glycoproteins, the Erythroid Receptors for Laminin, Are Adhesion Molecules." Journal of Biological Chemistry 273, no. 27 (July 3, 1998): 16686–93. http://dx.doi.org/10.1074/jbc.273.27.16686.
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An, Xiuli, Emilie Gauthier, Xihui Zhang, Xinhua Guo, David J. Anstee, Narla Mohandas, and Joel Anne Chasis. "Adhesive activity of Lu glycoproteins is regulated by interaction with spectrin." Blood 112, no. 13 (December 15, 2008): 5212–18. http://dx.doi.org/10.1182/blood-2008-03-146068.
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Abstract The Lutheran (Lu) and Lu(v13) blood group glycoproteins function as receptors for extracellular matrix laminins. Lu and Lu(v13) are linked to the erythrocyte cytoskeleton through a direct interaction with spectrin. However, neither the molecular basis of the interaction nor its functional consequences have previously been delineated. In the present study, we defined the binding motifs of Lu and Lu(v13) on spectrin and identified a functional role for this interaction. We found that the cytoplasmic domains of both Lu and Lu(v13) bound to repeat 4 of the α spectrin chain. The interaction of full-length spectrin dimer to Lu and Lu(v13) was inhibited by repeat 4 of α-spectrin. Further, resealing of this repeat peptide into erythrocytes led to weakened Lu-cytoskeleton interaction as demonstrated by increased detergent extractability of Lu. Importantly, disruption of the Lu-spectrin linkage was accompanied by enhanced cell adhesion to laminin. We conclude that the interaction of the Lu cytoplasmic tail with the cytoskeleton regulates its adhesive receptor function.
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Yeung, Jennifer, Reheman Adili, Emily N. Stringham, Rong Luo, Alexander Vizurraga, Luciana K. Rosselli-Murai, Hannah M. Stoveken, et al. "GPR56/ADGRG1 is a platelet collagen-responsive GPCR and hemostatic sensor of shear force." Proceedings of the National Academy of Sciences 117, no. 45 (October 23, 2020): 28275–86. http://dx.doi.org/10.1073/pnas.2008921117.
Full textAbstract:
Circulating platelets roll along exposed collagen at vessel injury sites and respond with filipodia protrusion, shape change, and surface area expansion to facilitate platelet adhesion and plug formation. Various glycoproteins were considered to be both collagen responders and mediators of platelet adhesion, yet the signaling kinetics emanating from these receptors do not fully account for the rapid platelet cytoskeletal changes that occur in blood flow. We found the free N-terminal fragment of the adhesion G protein-coupled receptor (GPCR) GPR56 in human plasma and report that GPR56 is the platelet receptor that transduces signals from collagen and blood flow-induced shear force to activate G protein 13 signaling for platelet shape change.Gpr56−/−mice have prolonged bleeding, defective platelet plug formation, and delayed thrombotic occlusion. Human and mouse blood perfusion studies demonstrated GPR56 and shear-force dependence of platelet adhesion to immobilized collagen. Our work places GPR56 as an initial collagen responder and shear-force transducer that is essential for platelet shape change during hemostasis.
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Snyder, Greg A., Jennifer Ford, Parizad Torabi-Parizi, James A. Arthos, Peter Schuck, Marco Colonna, and Peter D. Sun. "Characterization of DC-SIGN/R Interaction with Human Immunodeficiency Virus Type 1 gp120 and ICAM Molecules Favors the Receptor's Role as an Antigen-Capturing Rather than an Adhesion Receptor." Journal of Virology 79, no. 8 (April 15, 2005): 4589–98. http://dx.doi.org/10.1128/jvi.79.8.4589-4598.2005.
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ABSTRACT The dendritic cell (DC)-specific intercellular adhesion molecule 3 (ICAM-3)-grabbing nonintegrin binding receptor (DC-SIGN) was shown to bind human immunodeficiency virus type 1 (HIV-1) viral envelope protein gp120 and proposed to function as a Trojan horse to enhance trans-virus infection to host T cells. To better understand the mechanism by which DC-SIGN and DC-SIGNR selectively bind HIV-1 gp120, we constructed a series of deletion mutations in the repeat regions of both receptors. Different truncated receptors exist in different oligomeric forms. The carbohydrate binding domain without any repeats was monomeric, whereas the full extracellular receptors existed as tetramers. All reconstituted receptors retained their ability to bind gp120. The dissociation constant, however, differed drastically from micromolar values for the monomeric receptors to nanomolar values for the tetrameric receptors, suggesting that the repeat region of these receptors contributes to the avidity of gp120 binding. Such oligomerization may provide a mechanism for the receptor to selectively recognize pathogens containing multiple high-mannose-concentration carbohydrates. In contrast, the receptors bound to ICAMs with submicromolar affinities that are similar to those of two nonspecific cell surface glycoproteins, FcγRIIb and FcγRIII, and the oligomerization of DC-SIGNR resulted in no increase in binding affinity to ICAM-3. These findings suggest that DC-SIGN may not discriminate other cell surface glycoproteins from ICAM-3 binding. The pH dependence in DC-SIGN binding to gp120 showed that the receptor retained high-affinity gp120 binding at neutral pH but lost gp120 binding at pH 5, suggesting a release mechanism of HIV in the acidic endosomal compartment by DC-SIGN. Our work contradicts the function of DC-SIGN as a Trojan horse to facilitate HIV-1 infection; rather, it supports the function of DC-SIGN/R (a designation referring to both DC-SIGN and DC-SIGNR) as an antigen-capturing receptor.
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Tomaselli, K. J., C. H. Damsky, and L. F. Reichardt. "Interactions of a neuronal cell line (PC12) with laminin, collagen IV, and fibronectin: identification of integrin-related glycoproteins involved in attachment and process outgrowth." Journal of Cell Biology 105, no. 5 (November 1, 1987): 2347–58. http://dx.doi.org/10.1083/jcb.105.5.2347.
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Neuronal responses to extracellular matrix (ECM) constituents are likely to play an important role in nervous system development and regeneration. We have studied the interactions of a neuron-like rat pheochromocytoma cell line, PC12, with ECM protein-coated substrates. Using a quantitative cell attachment assay, PC12 cells were shown to adhere readily to laminin (LN) or collagen IV (Col IV) but poorly to fibronectin (FN). The specificity of attachment to these ECM proteins was demonstrated using ligand-specific antibodies and synthetic peptides. To identify PC12 cell surface proteins that mediate interactions with LN, Col IV, and FN, two different antisera to putative ECM receptors purified from mammalian cells were tested for their effects on PC12 cell adhesion and neuritic process outgrowth. Antibodies to a 140-kD FN receptor heterodimer purified from Chinese hamster ovarian cells (anti-FNR; Brown, P. J., and R. L. Juliano, 1986, J. Cell Biol., 103:1595-1603) inhibited attachment to LN and FN but not to Col IV. Antibodies to an ECM receptor preparation purified from baby hamster kidney fibroblastic cells (anti-ECMR; Knudsen, K. A., P. E. Rao, C. H. Damsky, and C. A. Buck, 1981, Proc. Natl. Acad. Sci. USA., 78:6071-6075) inhibited attachment to LN, FN, and Col IV, but did not prevent attachment to other adhesive substrates. In addition to its effects on adhesion, the anti-ECMR serum inhibited both PC12 cell and sympathetic neuronal process outgrowth on LN substrates. Immunoprecipitation of surface-iodinated or [3H]glucosamine-labeled PC12 cells with either the anti-FNR or anti-ECMR serum identified three prominent cell surface glycoproteins of 120, 140, and 180 kD under nonreducing conditions. The 120-kD glycoprotein, which could be labeled with 32P-orthophosphate and appeared to be noncovalently associated with the 140- and 180-kD proteins, cross reacted with antibodies to the beta-subunit (band 3) of the avian integrin complex, itself a receptor or receptors for the ECM constituents LN, FN, and some collagens.
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Khegay, I. I. "Noncanonical effects of vasopressin in angiogenesis." Vavilov Journal of Genetics and Breeding 23, no. 5 (August 24, 2019): 575–81. http://dx.doi.org/10.18699/vj19.527.
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The molecular action of vasopressin depends on the localization of hormonal receptors. The basic physiological effects of vasopressin are manifested in the blood vasculature, renal inner medulla and brain. To date, new information concerning the tissue-specific spreading of vasopressin receptors has been accumulated, and it needs to be summarized. Platelets and endotheliocytes expressing V1a and V2 receptor types, respectively, are related to less investigated targets of the hormone. Vasopressin induces the initial reversible stage of platelet activation, required for interaction with intercellular matrix proteins. Platelet adhesion on endothelium activates cellular secretion of growth factors and enzymes for intercellular matrix glucosamine metabolism. Platelet hyaluronidase HYAL2 hydrolyses high-molecular hyaluronic acid to shorter fragments. Unlike intact hyaluronic acid with a molecular weight of several megadaltons, generally showing distinctive antiangiogenic properties, intermediate fractions of hyaluronan hydrolysis in a range from 2.5 to 200 kilodaltons have a stimulating effect on angiogenesis. Intercellular contacts between platelets and endotheliocytes are stabilized due to adhesive transmembrane glycoprotein PECAM-1 interaction. Resulting PECAM-1 heterodimers acquire conformation with high affinity to integrins αvβ3. Integrin activation forms contact links between endothelium and fibrillar proteins. Activated endotheliocytes secrete von Willebrand factor and P-selectin. These proteins are accumulated in Weibel–Palade bodies. Vasopressin stimulates cAMP-dependent ACAP-regulated exocytosis of Weibel–Palade bodies. von Willebrand factor possesses adhesive properties and additionally accelerates interaction of cells with the intercellular matrix. Adhesion on fibrillar collagen and membrane glycoproteins in cooperation with effects of PECAM-1–αvβ3 integrin complexes fixes cell aggregates in the surrounding interstitium and promotes proliferating endotheliocyte migration in according to the direction of local growth factor gradients during angiogenesis. Neurohormonal regulation of platelet and endotheliocyte secretory activity functionally link proliferation and migration of endotheliocytes during angiogenesis and integrate it according to the adaptive capacity of the entire organism.
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Dejana, E., S. Colella, G. Conforti, M. Abbadini, M. Gaboli, and P. C. Marchisio. "Fibronectin and vitronectin regulate the organization of their respective Arg-Gly-Asp adhesion receptors in cultured human endothelial cells." Journal of Cell Biology 107, no. 3 (September 1, 1988): 1215–23. http://dx.doi.org/10.1083/jcb.107.3.1215.
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Human umbilical vein endothelial cells (ECs) adhere in vitro to proteins of the extracellular matrix including fibronectin (fn) and vitronectin (vn). Specific receptors for fn and vn have been previously characterized. These receptors belong to a family of membrane glycoproteins characterized (a) by being a transmembrane complex of two noncovalently linked subunits and (b) by recognizing the tripeptide Arg-Gly-Asp on their respective ligands. In this paper we investigated how vn and fn control the organization of their respective receptors over the surface of ECs. It was found that the clustering of individual receptors and the organization thereafter of focal contacts occurred only when ECs were exposed to the specific ligand and did not occur on the opposite ligand. The shape of receptor clusters was slightly different and a colocalization of the two receptors was found when ECs were cultured on a mixed matrix of fn plus vn. Adhesion was selectively inhibited by vn or fn receptor antibodies on their respective substrates. The clustering of both receptors preceded the association of vinculin with focal contacts and stress fiber formation. Also, the vn receptor, in the absence of associated fn receptor, was capable of inducing the organization of the membrane-microfilament interaction complex. Overall, these results indicate that individual matrix ligands induce only the clustering of their respective membrane receptors. The clustering of only one receptor is capable of supporting the subsequent formation of focal contacts and the local assembly of related cytoskeletal proteins.
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Muller, U., and A. W. Brandli. "Cell adhesion molecules and extracellular-matrix constituents in kidney development and disease." Journal of Cell Science 112, no. 22 (November 15, 1999): 3855–67. http://dx.doi.org/10.1242/jcs.112.22.3855.
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Functional analyses of cell-matrix interactions during kidney organogenesis have provided compelling evidence that extracellular-matrix glycoproteins and their receptors play instructive roles during kidney development. Two concepts are worthy of emphasis. First, matrix molecules appear to regulate signal transduction pathways, either by activating cell-surface receptors such as integrins directly or by modulating the activity of signaling molecules such as WNTs. Second, basement membranes are highly organized structures and have distinct molecular compositions, which are optimized for their diverse functions. The importance of these findings is highlighted by the fact that mutations affecting basement-membrane components lead to inherited forms of kidney disease.
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Wautier, Jean-Luc, and Marie-Paule Wautier. "Cellular and Molecular Aspects of Blood Cell–Endothelium Interactions in Vascular Disorders." International Journal of Molecular Sciences 21, no. 15 (July 27, 2020): 5315. http://dx.doi.org/10.3390/ijms21155315.
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In physiology and pathophysiology the molecules involved in blood cell–blood cell and blood cell–endothelium interactions have been identified. Platelet aggregation and adhesion to the walls belonging to vessels involve glycoproteins (GP), GP llb and GP llla and the GP Ib–IX–V complex. Red blood cells (RBCs) in normal situations have little interaction with the endothelium. Abnormal adhesion of RBCs was first observed in sickle cell anemia involving vascular cell adhesion molecule (VCAM)-1, α4β1, Lu/BCAM, and intercellular adhesion molecule (ICAM)-4. More recently RBC adhesion was found to be increased in retinal-vein occlusion (RVO) and in polycythemia vera (PV). The molecules which participate in this process are phosphatidylserine and annexin V in RVO, and phosphorylated Lu/BCAM and α5 laminin chain in PV. The additional adhesion in diabetes mellitus occurs due to the glycated RBC band 3 and the advanced glycation end-product receptors. The multiligand receptor binds advanced glycation end products (AGEs) or S100 calgranulins, or β-amyloid peptide. This receptor for advanced glycation end products is known as RAGE. The binding to RAGE-activated endothelial cells leads to an inflammatory reaction and a prothrombotic state via NADPH activation and altered gene expression. RAGE blockade is a potential target for drugs preventing the deleterious consequences of RAGE activation.
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Butta, Nora, Elena G. Arias-Salgado, Consuelo González-Manchón, Milagros Ferrer, Susana Larrucea, Matilde S. Ayuso, and Roberto Parrilla. "Disruption of the β3 663-687 disulfide bridge confers constitutive activity to β3 integrins." Blood 102, no. 7 (October 1, 2003): 2491–97. http://dx.doi.org/10.1182/blood-2003-01-0213.
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Abstract The platelet fibrinogen receptor, integrin αIIbβ3, is a noncovalent heterodimer of glycoproteins IIb and IIIa. This work was aimed at elucidating the role played by the carboxy-terminal extracellular, trans-membrane, and cytoplasmic regions of the glycoprotein β3 in the formation of functional complexes with α subunits. Progressive carboxy-terminal deletions of β3 revealed that surface exposure of αIIbβ3 or αvβ3 could not occur in the absence of the transmembrane domain of β3. In contrast, internal deletions 616 to 690 of the carboxy-terminal regions of the β3 ectodomain led to surface exposure of constitu tive active receptors in CHO cells, as indicated by the enhanced rate of cell adhesion to immobilized ligands and spontaneous binding to soluble fibrinogen or activation-dependent antibody PAC-1. The functional analysis of cysteine mutations within the 616 to 690 region of β3 or chimeric β3-β7 subunits revealed that disruption of the C663-C687 disulfide bridge endows constitutive activity to the αIIbβ3 receptor. It is concluded that the carboxy-terminal tail of the β3 ectodomain, so-called β tail domain (βTD), is not essential for cell surface expression of β3 receptors. However, a basal, nonactivated, low ligand-affinity state of the β3 integrins demands a normal conformation of this domain. (Blood. 2003;102:2491-2497)
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Taganna, Joemar, Arjen R. de Boer, Manfred Wuhrer, and Julie Bouckaert. "Glycosylation changes as important factors for the susceptibility to urinary tract infection." Biochemical Society Transactions 39, no. 1 (January 19, 2011): 349–54. http://dx.doi.org/10.1042/bst0390349.
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FimH is the type 1 fimbrial tip adhesin and invasin of Escherichia coli. Its ligands are the glycans on specific proteins enriched in membrane microdomains. FimH binding shows high-affinity recognition of paucimannosidic glycans, which are shortened high-mannose glycans such as oligomannose-3 and -5. FimH can recognize equally the (single) high-mannose glycan on uroplakin Ia, on the urinary defence protein uromodulin or Tamm–Horsfall glycoprotein and on the intestinal GP2 glycoprotein present in Peyer's patches. E. coli bacteria may attach to epithelial cells via hundreds of fimbriae in a multivalent fashion. This binding is considered to provoke conformational changes in the glycoprotein receptor that translate into signalling in the cytoplasm of the infected epithelial cell. Bladder cell invasion by the uropathogenic bacterium is the prelude to recurrent and persistent urinary tract infections in humans. Patients suffering from diabetes mellitus are more prone to contract urinary tract infections. In a study of women, despite longer treatments with a more potent antibiotic, these patients also have more often recurrences of urinary tract infections compared with women without diabetes. Type 1 fimbriae are the most important virulence factors used not only for adhesion of E. coli in the urinary tract, but also for the colonization by E. coli in patients with Crohn's disease or ulcerative colitis. It appears that the increased prevalence of urinary tract infections in diabetic women is not the result of a difference in the bacteria, but is due to changes in the uroepithelial cells leading to an increased adherence of E. coli expressing type 1 fimbriae. Hypothetically, these changes are in the glycosylation of the infected cells. The present article focuses on possible underlying mechanisms for glycosylation changes in the uroepithelial cell receptors for FimH. Like diabetes, bacterial adhesion induces apoptosis that may bring the endoplasmic reticulum membrane with immature mannosylated glycoproteins to the surface. Indicatively, clathrin-mediated vesicle trafficking of glucose transporters is disturbed in diabetics, which would interfere further with the biosynthesis and localization of complex N-linked glycans.
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Mitsou, Ioli, Hinke A. B. Multhaupt, and John R. Couchman. "Proteoglycans, ion channels and cell–matrix adhesion." Biochemical Journal 474, no. 12 (May 25, 2017): 1965–79. http://dx.doi.org/10.1042/bcj20160747.
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Cell surface proteoglycans comprise a transmembrane or membrane-associated core protein to which one or more glycosaminoglycan chains are covalently attached. They are ubiquitous receptors on nearly all animal cell surfaces. In mammals, the cell surface proteoglycans include the six glypicans, CD44, NG2 (CSPG4), neuropilin-1 and four syndecans. A single syndecan is present in invertebrates such as nematodes and insects. Uniquely, syndecans are receptors for many classes of proteins that can bind to the heparan sulphate chains present on syndecan core proteins. These range from cytokines, chemokines, growth factors and morphogens to enzymes and extracellular matrix (ECM) glycoproteins and collagens. Extracellular interactions with other receptors, such as some integrins, are mediated by the core protein. This places syndecans at the nexus of many cellular responses to extracellular cues in development, maintenance, repair and disease. The cytoplasmic domains of syndecans, while having no intrinsic kinase activity, can nevertheless signal through binding proteins. All syndecans appear to be connected to the actin cytoskeleton and can therefore contribute to cell adhesion, notably to the ECM and migration. Recent data now suggest that syndecans can regulate stretch-activated ion channels. The structure and function of the syndecans and the ion channels are reviewed here, along with an analysis of ion channel functions in cell–matrix adhesion. This area sheds new light on the syndecans, not least since evidence suggests that this is an evolutionarily conserved relationship that is also potentially important in the progression of some common diseases where syndecans are implicated.
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Elangbam, C. S., C. W. Qualls, and R. R. Dahlgren. "Cell Adhesion Molecules—Update." Veterinary Pathology 34, no. 1 (January 1997): 61–73. http://dx.doi.org/10.1177/030098589703400113.
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Cell adhesion molecules are glycoproteins expressed on the cell surface and play an important role in inflammatory as well as neoplastic diseases. There are four main groups: the integrin family, the immunoglobulin superfamily, selectins, and cadherins. The integrin family has eight subfamilies, designated as β1, through β8. The most widely studied subfamilies are β1 (CD29, very late activation [VLA] members), β2 (leukocyte integrins such as CDlla/CD18, CDllb/CD18, CDllc/CD18, and αdβ2), β3 (CD61, eytoadhesions), and β7 (α4β7 and αEβ7). The immunoglobulin superfamily includes leukocyte function antigen-2 (LFA-2 or CD2), leukocyte function antigen-3 (LFA-3 or CD58), intercellular adhesion molecules (ICAMs), vascular adhesion molecule-1 (VCAM-1), platelet-endothelial cell adhesion molecule-1 (PE-CAM-1), and mucosal addressin cell adhesion molecule-1 (MAdCAM-1). The selectin family includes E-selectin (CD62E), P-selectin (CD62P), and L-selectin (CD62L). Cadherins are major cell-cell adhesion molecules and include epithelial (E), placental (P), and neural (N) subclasses. The binding sites (ligands/receptors) are different for each of these cell adhesion molecules (e.g., ICAM binds to CD11/CD18; VCAM-1 binds to VLA-4). The specific cell adhesion molecules and their ligands that may be involved in pathologic conditions and potential therapeutie strategies by modulating the expression of these molecules will be discussed.
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Greenfield, S. M., A. Hamblin, N. A. Punchard, and R. P. H. Thompson. "Expression of adhesion molecules on circulating leucocytes in patients with inflammatory bowel disease." Clinical Science 83, no. 2 (August 1, 1992): 221–26. http://dx.doi.org/10.1042/cs0830221.
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1. The expression of leucocyte antigens CD11/CD18 and complement receptor 1 was studied on the circulating leucocytes of 13 patients with inflammatory bowel disease and 13 age- and sex-matched healthy control subjects. 2. Monoclonal antibodies against CD11/CD18 and complement receptor 1 were added to leucocyte suspensions from patients and control subjects. Antibody binding was detected using a fluorescein-conjugated rabbit anti-mouse antibody and flow cytometry. The proportions of lymphocytes, monocytes and granulocytes expressing these molecules and the density of antigen expression, measured as mean fluorescence intensity, were determined. 3. There were no differences between patients and control subjects in the mean fluorescence intensity of antibody staining of surface molecules or in the proportion of cells expressing each molecule for any cell type. Analysis of subgroups of patients according to disease type, severity or treatment also showed no difference compared with control subjects. 4. We conclude that failure to identify a population of circulating leucocytes whose adhesion molecules or complement receptors are upregulated may arise because cells are only activated locally within the gut vasculature. Alternatively, structural changes in these molecules, rather than an increase in their number or the expression of other surface glycoproteins, may be more important in mediating adhesive interactions in inflammatory bowel disease.
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Quirico-Santos, Thereza, Clovis O. Fonseca, and Jussara Lagrota-Candido. "Brain sweet brain: importance of sugars for the cerebral microenvironment and tumor development." Arquivos de Neuro-Psiquiatria 68, no. 5 (October 2010): 799–803. http://dx.doi.org/10.1590/s0004-282x2010000500024.
Full textAbstract:
The extracellular matrix (ECM) in the brain tissue is a complex network of glycoproteins and proteoglycans that fills the intercellular space serving as scaffolding to provide structural framework for the tissue and regulate the behavior of cells via specific receptors - integrins. There is enormous structural diversity among proteoglycans due to variation in the core protein, the number of glycosaminoglycans chains, the extent and position of sulfation. The lectican family of proteoglycans interacts with growth factors, hyaluronan and tenascin forming a complex structure that regulates neuronal plasticity and ion homeostasis around highly active neurons. In this review, we will discuss the latest insights into the roles of brain glycoproteins as modulators of cell adhesion, migration, neurite outgrowth and glial tumor invasion.
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Arnaout, M. A., S. K. Gupta, M. W. Pierce, and D. G. Tenen. "Amino acid sequence of the alpha subunit of human leukocyte adhesion receptor Mo1 (complement receptor type 3)." Journal of Cell Biology 106, no. 6 (June 1, 1988): 2153–58. http://dx.doi.org/10.1083/jcb.106.6.2153.
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Mo1 (complement receptor type 3, CR3; CD11b/CD18) is an adhesion-promoting human leukocyte surface membrane heterodimer (alpha subunit 155 kD [CD11b] noncovalently linked to a beta subunit of 95 kD [CD18]). The complete amino acid sequence deduced from cDNA of the human alpha subunit is reported. The protein consists of 1,136 amino acids with a long amino-terminal extracytoplasmic domain, a 26-amino acid hydrophobic transmembrane segment, and a 19-carboxyl-terminal cytoplasmic domain. The extracytoplasmic region has three putative Ca2+-binding domains with good homology and one with weak homology to the "lock washer" Ca2+-binding consensus sequence. These metal-binding domains explain the divalent cation-dependent functions mediated by Mo1. The alpha subunit is highly homologous to the alpha subunit of leukocyte p150,95 and to a lesser extent, to the alpha subunit of other "integrin" receptors such as fibronectin, vitronectin, and platelet IIb/IIIa receptors in humans and position-specific antigen-2 (PS2) in Drosophila. Mo1 alpha, like p150, contains a unique 187-amino acid stretch NH2-terminal to the metal-binding domains. This region could be involved in some of the specific functions mediated by these leukocyte glycoproteins.
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Stamatoglou, S. C., K. H. Sullivan, S. Johansson, P. M. Bayley, I. D. Burdett, and R. C. Hughes. "Localization of two fibronectin-binding glycoproteins in rat liver and primary hepatocytes. Co-distribution in vitro of integrin (alpha 5 beta 1) and non-integrin (AGp110) receptors in cell-substratum adhesion sites." Journal of Cell Science 97, no. 4 (December 1, 1990): 595–606. http://dx.doi.org/10.1242/jcs.97.4.595.
Full textAbstract:
We have compared the localization of integrin alpha 5 beta 1 and AGp110 (apical glycoprotein of Mr 110 × 10(3]] in rat liver parenchyma and in primary hepatocyte cultures. Integrin alpha 5 beta 1 is a heterodimeric fibronectin receptor. AGp110 is a newly described monomeric glycoprotein of the apical (bile canalicular) membrane domain of liver parenchyma that binds in an RGD-independent manner to fibronectin and mediates spreading of hepatocytes onto fibronectin-coated substrata. Using Western blotting of fractionated liver membranes and immunocytochemistry of liver sections at light- and electron-microscope levels, we have confirmed that AGp110 is a canalicular glycoprotein and have established that integrin is located in approximately equal proportions in the sinusoidal, lateral and canalicular membrane domains. In the canalicular surface domain both glycoproteins are associated with microvilli. Examination of immunolabelled primary hepatocytes spread on fibronectin-coated substrata by light and laser scanning confocal microscopy revealed colocalization of AGp110, integrin, actin and vinculin in substratum-attached microextensions at the periphery of the basal cell surface. Actin filaments that terminated at these cell processes originated from circular sub-cortical actin fibres. Interference reflection microscopy revealed focal adhesive contacts at the edge of the basal cell periphery at the same location where AGp110 and integrin were observed by immunofluorescence. In vitro, a proportion of the primary hepatocytes seeded onto fibronectin-coated substrata aggregated into colonies of several cells with intercellular contacts between neighbouring cells. Cell-substratum contacts containing integrin, AGp110, actin and vinculin followed the contours of these colonies in the same manner as they delineated the basal periphery of single, substratum-attached cells. We conclude that both integrin and AGp110 contribute to hepatocyte-fibronectin adhesive interactions and that intercellular adhesion and cooperation among hepatocytes in their response to fibronectin matrices leads to colony formation and morphological differentiation of parenchymal cell monolayers in vitro.
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Kim, Soo-Hyun, Jeremy Turnbull, and Scott Guimond. "Extracellular matrix and cell signalling: the dynamic cooperation of integrin, proteoglycan and growth factor receptor." Journal of Endocrinology 209, no. 2 (February 9, 2011): 139–51. http://dx.doi.org/10.1530/joe-10-0377.
Full textAbstract:
Extracellular matrices (ECM) are secreted molecules that constitute the cell microenvironment, composed of a dynamic and complex array of glycoproteins, collagens, glycosaminoglycans and proteoglycans. ECM provides the bulk, shape and strength of many tissues in vivo, such as basement membrane, bone and cartilage. In vitro, most animal cells can only grow when they are attached to surfaces through ECM. ECM is also the substrate for cell migration. However, ECM provides much more than just mechanical and structural support, with implications in developmental patterning, stem cell niches and cancer. ECM imparts spatial context for signalling events by various cell surface growth factor receptors and adhesion molecules such as integrins. The external physical properties of ECM may also have a role in the signalling process. ECM molecules can be flexible and extendable, and mechanical tension can expose cryptic sites, which could further interact with growth factors or their receptors. ECM proteins and structures can determine the cell behaviour, polarity, migration, differentiation, proliferation and survival by communicating with the intracellular cytoskeleton and transmission of growth factor signals. Integrins and proteoglycans are the major ECM adhesion receptors which cooperate in signalling events, determining the signalling outcomes, and thus the cell fate. This review focuses on the emerging concept of spatial cell biology of ECM, especially the current understanding of integrins and heparan sulphate proteoglycans as the essential cellular machineries that sense, integrate and respond to the physical and chemical environmental information either by directly connecting with the local adhesion sites or by regulating global cellular processes through growth factor receptor signalling pathways, leading to the integration of both external and internal signals in space and time.
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Picker, L. J., M. Nakache, and E. C. Butcher. "Monoclonal antibodies to human lymphocyte homing receptors define a novel class of adhesion molecules on diverse cell types." Journal of Cell Biology 109, no. 2 (August 1, 1989): 927–37. http://dx.doi.org/10.1083/jcb.109.2.927.
Full textAbstract:
A 90-kD lymphocyte surface glycoprotein, defined by monoclonal antibodies of the Hermes series, is involved in lymphocyte recognition of high endothelial venules (HEV). Lymphocyte gp90Hermes binds in a saturable, reversible fashion to the mucosal vascular addressin (MAd), a tissue-specific endothelial cell adhesion molecule for lymphocytes. We and others have recently shown that the Hermes antigen is identical to or includes CD44 (In[Lu]-related p80), human Pgp-1, and extracellular matrix receptor III-molecules reportedly expressed on diverse cell types. Here, we examine the relationship between lymphoid and nonlymphoid Hermes antigens using serologic, biochemical, and, most importantly, functional assays. Consistent with studies using mAbs to CD44 or Pgp-1, mAbs against five different epitopes on lymphocyte gp90Hermes reacted with a wide variety of nonhematolymphoid cells in diverse normal human tissues, including many types of epithelium, mesenchymal elements such as fibroblasts and smooth muscle, and a subset of glia in the central nervous system. To ask whether these non-lymphoid molecules might also be functionally homologous to lymphocyte homing receptors, we assessed their ability to interact with purified MAd using fluorescence energy transfer techniques. The Hermes antigen isolated from both glial cells and fibroblasts--which express a predominant 90-kD form similar in relative molecular mass, isoelectric point, and protease sensitivity to lymphocyte gp90Hermes--was able to bind purified MAd. In contrast, a 140-160-kD form of the Hermes antigen isolated from squamous epithelial cells lacked this capability. Like lymphocyte binding to mucosal HEV, the interaction between glial gp90Hermes and MAd is inhibited by mAb Hermes-3, but not Hermes-1, suggesting that similar molecular domains are involved in the two binding events. The observation that the Hermes/CD44 molecules derived from several nonlymphoid cell types display binding domains homologous to those of lymphocyte homing receptors suggests that these glycoproteins represent a novel type of cell adhesion/recognition molecule (H-CAM) potentially mediating cell-cell or cell-matrix interactions in multiple tissues.
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El Nemer, Wassim, Marie-Paule Wautier, Cécile Rahuel, Pierre Gane, Patricia Hermand, Frédéric Galactéros, Jean-Luc Wautier, Jean-Pierre Cartron, Yves Colin, and Caroline Le Van Kim. "Endothelial Lu/BCAM glycoproteins are novel ligands for red blood cell α4β1integrin: role in adhesion of sickle red blood cells to endothelial cells." Blood 109, no. 8 (December 7, 2006): 3544–51. http://dx.doi.org/10.1182/blood-2006-07-035139.
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Abstract The Lutheran (Lu) blood group and basal cell adhesion molecule (BCAM) antigens are both carried by 2 glycoprotein isoforms of the immunoglobulin superfamily representing receptors for the laminin α5 chain. In addition to red blood cells, Lu/BCAM proteins are highly expressed in endothelial cells. Abnormal adhesion of red blood cells to the endothelium could potentially contribute to the vaso-occlusive episodes in sickle cell disease. Considering the presence of integrin consensus-binding sites in Lu/BCAM proteins, we investigated their potential interaction with integrin α4β1, the unique integrin expressed on immature circulating sickle red cells. Using cell adhesion assays under static and flow conditions, we demonstrated that integrin α4β1 expressed on transfected cells bound to chimeric Lu-Fc protein. We showed that epinephrine-stimulated sickle cells, but not control red cells, adhered to Lu-Fc via integrin α4β1 under flow conditions. Antibody-mediated activation of integrin α4β1 induced adhesion of sickle red cells to primary human umbilical vein endothelial cells; this adhesion was inhibited by soluble Lu-Fc and vascular cell adhesion molecule-1 (VCAM-1)–Fc proteins. This novel interaction between integrin α4β1 in sickle red cells and endothelial Lu/BCAM proteins could participate in sickle cell adhesion to endothelium and potentially play a role in vaso-occlusive episodes.
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Wang, Fu-Zhang, Shaw M. Akula, Neelam Sharma-Walia, Ling Zeng, and Bala Chandran. "Human Herpesvirus 8 Envelope Glycoprotein B Mediates Cell Adhesion via Its RGD Sequence." Journal of Virology 77, no. 5 (March 1, 2003): 3131–47. http://dx.doi.org/10.1128/jvi.77.5.3131-3147.2003.
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ABSTRACT Human herpesvirus 8 (HHV-8) or Kaposi's sarcoma-associated herpesvirus, implicated in the pathogenesis of Kaposi's sarcoma, utilizes heparan sulfate-like molecules to bind the target cells via its envelope-associated glycoproteins gB and gpK8.1A. HHV-8-gB possesses the Arg-Gly-Asp (RGD) motif, the minimal peptide region of many proteins known to interact with subsets of host cell surface integrins. HHV-8 utilizes α3β1 integrin as one of the receptors for its entry into the target cells via its gB interaction and induces the activation of focal adhesion kinase (FAK) (S. M. Akula, N. P. Pramod, F.-Z. Wang, and B. Chandran, Cell 108:407-419, 2002). Since FAK activation is the first step in the outside-in signaling necessary for integrin-mediated cytoskeletal rearrangements, cell adhesions, motility, and proliferation, the ability of HHV-8-gB to mediate the target cell adhesion was examined. A truncated form of gB without the transmembrane and carboxyl domains (gBΔTM) and a gBΔTM mutant (gBΔTM-RGA) with a single amino acid mutation (RGD to RGA) were expressed in a baculovirus system and purified. Radiolabeled HHV-8-gBΔTM, gBΔTM-RGA, and ΔTMgpK8.1A proteins bound to the human foreskin fibroblasts (HFFs), human dermal microvascular endothelial (HMVEC-d) cells, human B (BJAB) cells, and Chinese hamster ovary (CHO-K1) cells with equal efficiency, which was blocked by preincubation of proteins with soluble heparin. Maxisorp plate-bound gBΔTM protein induced the adhesion of HFFs and HMVEC-d and monkey kidney epithelial (CV-1) cells in a dose-dependent manner. In contrast, the gBΔTM-RGA and ΔTMgpK8.1A proteins did not mediate adhesion. Adhesion mediated by gBΔTM was blocked by the preincubation of target cells with RGD-containing peptides or by the preincubation of plate-bound gBΔTM protein with rabbit antibodies against gB peptide containing the RGD sequence. In contrast, adhesion was not blocked by the preincubation of plate-bound gBΔTM protein with heparin, suggesting that the adhesion is mediated by the RGD amino acids of gB, which is independent of the heparin-binding domain of gB. Integrin-ligand interaction is dependent on divalent cations. Adhesion induced by the gBΔTM was blocked by EDTA, thus suggesting the role of integrins in the observed adhesions. Focal adhesion components such as FAK and paxillin were activated by the binding of gBΔTM protein to the target cells but not by gBΔTM-RGA protein binding. Inhibition of FAK phosphorylation by genistein blocked gBΔTM-induced FAK activation and cell adhesion. These findings suggest that HHV-8-gB could mediate cell adhesion via its RGD motif interaction with the cell surface integrin molecules and indicate the induction of cellular signaling pathways, which may play roles in the infection of target cells and in Kaposi's sarcoma pathogenesis.
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Zutter, MM. "Immunolocalization of integrin receptors in normal lymphoid tissues." Blood 77, no. 10 (May 15, 1991): 2231–36. http://dx.doi.org/10.1182/blood.v77.10.2231.2231.
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Abstract The integrin superfamily of cell adhesion receptors consists of heterodimeric glycoproteins composed of unique alpha and beta subunits. These receptors mediate cell-substrate and cell-cell adhesive properties for a variety of cell types. This investigation has focused on the histologic distribution of the beta 1 subfamily of integrins within lymphoid tissues including tonsil, lymph node, spleen, thymus, and appendix. The dendritic cells of both follicular center and thymic origin express the alpha 1, alpha 2, alpha 3, alpha 5, and alpha 6, as well as the beta 1 integrin subunits. Most lymphoid cells in normal tissues do not express the alpha 1, alpha 2, alpha 3, alpha 5, and alpha 6 subunits, or the alpha v beta 3 integrin. The beta 1 subunit is expressed by all lymphocytes but with variable intensity. Increased levels of the alpha 5 and beta 1 subunits are observed in the follicular light zone, suggesting a role for these integrins in B-cell activation. Although the alpha 4 subunit is expressed by all lymphoid cells, an increased expression of alpha 4 and decreased expression of beta 1 by the mantle zone B-cell compartment is noted in comparison with the decreased expression of alpha 4 and increased expression of beta 1 by follicular center B-cells. These studies suggest that alpha 4 may be paired with a beta subunit other than beta 1 on the mantle zone lymphoid population. Thus, integrin expression by cells of lymphoid tissues varies with location and function and differs significantly from integrin expression observed on circulating and cultured peripheral blood lymphocytes.
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Zutter, MM. "Immunolocalization of integrin receptors in normal lymphoid tissues." Blood 77, no. 10 (May 15, 1991): 2231–36. http://dx.doi.org/10.1182/blood.v77.10.2231.bloodjournal77102231.
Full textAbstract:
The integrin superfamily of cell adhesion receptors consists of heterodimeric glycoproteins composed of unique alpha and beta subunits. These receptors mediate cell-substrate and cell-cell adhesive properties for a variety of cell types. This investigation has focused on the histologic distribution of the beta 1 subfamily of integrins within lymphoid tissues including tonsil, lymph node, spleen, thymus, and appendix. The dendritic cells of both follicular center and thymic origin express the alpha 1, alpha 2, alpha 3, alpha 5, and alpha 6, as well as the beta 1 integrin subunits. Most lymphoid cells in normal tissues do not express the alpha 1, alpha 2, alpha 3, alpha 5, and alpha 6 subunits, or the alpha v beta 3 integrin. The beta 1 subunit is expressed by all lymphocytes but with variable intensity. Increased levels of the alpha 5 and beta 1 subunits are observed in the follicular light zone, suggesting a role for these integrins in B-cell activation. Although the alpha 4 subunit is expressed by all lymphoid cells, an increased expression of alpha 4 and decreased expression of beta 1 by the mantle zone B-cell compartment is noted in comparison with the decreased expression of alpha 4 and increased expression of beta 1 by follicular center B-cells. These studies suggest that alpha 4 may be paired with a beta subunit other than beta 1 on the mantle zone lymphoid population. Thus, integrin expression by cells of lymphoid tissues varies with location and function and differs significantly from integrin expression observed on circulating and cultured peripheral blood lymphocytes.
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Winters, KJ, PR Eisenberg, AS Jaffe, and SA Santoro. "Dependence of plasmin-mediated degradation of platelet adhesive receptors on temperature and Ca2+." Blood 76, no. 8 (October 15, 1990): 1546–57. http://dx.doi.org/10.1182/blood.v76.8.1546.1546.
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Abstract The effects of activation of plasminogen by streptokinase and tissue- type-plasminogen activator on platelet activation and the membrane glycoproteins (GPs) that mediate platelet adhesion and aggregation are not yet fully defined. To clarify effects on platelets during activation of plasminogen in vitro, we used monoclonal antibodies (MoAbs), flow cytometry, and platelets surface-labeled with 125I to characterize changes in receptors for fibrinogen (GPIIb-IIIa), von Willebrand factor (GPIb), and collagen (GPIa-IIa). Activation of plasminogen in plasma with pharmacologic concentrations of plasminogen activators did not degrade GPIIb-IIIa or GPIb, and caused only a modest decrease in GPIa. In washed platelets GPIIb-IIIa was extensively degraded by plasmin at 37 degrees C in the absence of exogenous Ca2+, conditions that destabilize the IIb-IIIa complex. Degradation of GPIb in washed platelets displayed a similar although less-marked dependence on temperature and the absence of Ca2+. The binding of activation- specific MoAbs did not increase during activation of plasminogen in plasma. We conclude that during pharmacologic fibrinolysis, reported inhibition of platelet function in plasma is not due to degradation of platelet-adhesive receptors. In addition, platelet activation observed during thrombolytic therapy does not appear to be a direct consequence of plasminogen activation.
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Winters, KJ, PR Eisenberg, AS Jaffe, and SA Santoro. "Dependence of plasmin-mediated degradation of platelet adhesive receptors on temperature and Ca2+." Blood 76, no. 8 (October 15, 1990): 1546–57. http://dx.doi.org/10.1182/blood.v76.8.1546.bloodjournal7681546.
Full textAbstract:
The effects of activation of plasminogen by streptokinase and tissue- type-plasminogen activator on platelet activation and the membrane glycoproteins (GPs) that mediate platelet adhesion and aggregation are not yet fully defined. To clarify effects on platelets during activation of plasminogen in vitro, we used monoclonal antibodies (MoAbs), flow cytometry, and platelets surface-labeled with 125I to characterize changes in receptors for fibrinogen (GPIIb-IIIa), von Willebrand factor (GPIb), and collagen (GPIa-IIa). Activation of plasminogen in plasma with pharmacologic concentrations of plasminogen activators did not degrade GPIIb-IIIa or GPIb, and caused only a modest decrease in GPIa. In washed platelets GPIIb-IIIa was extensively degraded by plasmin at 37 degrees C in the absence of exogenous Ca2+, conditions that destabilize the IIb-IIIa complex. Degradation of GPIb in washed platelets displayed a similar although less-marked dependence on temperature and the absence of Ca2+. The binding of activation- specific MoAbs did not increase during activation of plasminogen in plasma. We conclude that during pharmacologic fibrinolysis, reported inhibition of platelet function in plasma is not due to degradation of platelet-adhesive receptors. In addition, platelet activation observed during thrombolytic therapy does not appear to be a direct consequence of plasminogen activation.
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McCarthy, J., and E. A. Turley. "Effects of Extracellular Matrix Components on Cell Locomotion." Critical Reviews in Oral Biology & Medicine 4, no. 5 (October 1993): 619–37. http://dx.doi.org/10.1177/10454411930040050101.
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The extracellular matrix (ecm), which is composed of collagens, glycoproteins, and proteoglycans, has emerged as an important regulator of cell locomotion. This review describes some of the mechanisms by which the ecm may regulate locomotion, focusing primarily on cell extension and lamellae formation. Ecm-receptor interactions form an important part of cell recognition of ecm. Such interactions can result in altered cell adhesion, signal transduction, and cytoskeletal organization, all of which impact on cell locomotion. It is important to note that although the effects of single ecm components have been studied, generally, the cell is likely to perceive ecm in vivo as a macromolecular complex. It will fall to future work to defme how complexes of ecm regulate cell behavior. Because of our own particular research bias, we focus on reviewing the role of fibronectin, integrins, chondroitin sulfate, hyaluronan, and hyaluronan receptors in the regulation of cell locomotion and examine their effect on adhesion, signal transduction, and cytoskeletal integrity. Cytoskeleton assembly mechanisms, particularly those that might be regulated by the ecm, are also described. These events are summarized in a working model of ecm-promoted locomotion.
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de Witte, Lot, Marion Abt, Sibylle Schneider-Schaulies, Yvette van Kooyk, and Teunis B. H. Geijtenbeek. "Measles Virus Targets DC-SIGN To Enhance Dendritic Cell Infection." Journal of Virology 80, no. 7 (April 1, 2006): 3477–86. http://dx.doi.org/10.1128/jvi.80.7.3477-3486.2006.
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ABSTRACT Dendritic cells (DCs) are involved in the pathogenesis of measles virus (MV) infection by inducing immune suppression and possibly spreading the virus from the respiratory tract to lymphatic tissues. It is becoming evident that DC function can be modulated by the involvement of different receptors in pathogen interaction. Therefore, we have investigated the relative contributions of different MV-specific receptors on DCs to MV uptake into and infection of these cells. DCs express the MV receptors CD46 and CD150, and we demonstrate that the C-type lectin DC-specific intercellular adhesion molecule 3-grabbing nonintegrin (DC-SIGN) is a novel receptor for laboratory-adapted and wild-type MV strains. The ligands for DC-SIGN are both MV glycoproteins F and H. In contrast to CD46 and CD150, DC-SIGN does not support MV entry, since DC-SIGN does not confer susceptibility when stably expressed in CHO cells. However, DC-SIGN is important for the infection of immature DCs with MV, since both attachment and infection of immature DCs with MV are blocked in the presence of DC-SIGN inhibitors. Our data demonstrate that DC-SIGN is crucial as an attachment receptor to enhance CD46/CD150-mediated infection of DCs in cis. Moreover, MV might not only target DC-SIGN to infect DCs but may also use DC-SIGN for viral transmission and immune suppression.
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Benedicto, Ignacio, Francisca Molina-Jiménez, Birke Bartosch, François-Loïc Cosset, Dimitri Lavillette, Jesús Prieto, Ricardo Moreno-Otero, et al. "The Tight Junction-Associated Protein Occludin Is Required for a Postbinding Step in Hepatitis C Virus Entry and Infection." Journal of Virology 83, no. 16 (June 10, 2009): 8012–20. http://dx.doi.org/10.1128/jvi.00038-09.
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ABSTRACT The precise mechanisms regulating hepatitis C virus (HCV) entry into hepatic cells remain unknown. However, several cell surface proteins have been identified as entry factors for this virus. Of these molecules, claudin-1, a tight junction (TJ) component, is considered a coreceptor required for HCV entry. Recently, we have demonstrated that HCV envelope glycoproteins (HCVgp) promote structural and functional TJ alterations. Additionally, we have shown that the intracellular interaction between viral E2 glycoprotein and occludin, another TJ-associated protein, could be the cause of the mislocalization of TJ proteins. Herein we demonstrated, by using cell culture-derived HCV particles (HCVcc), that interference of occludin expression markedly reduced HCV infection. Furthermore, our results with HCV pseudotyped particles indicated that occludin, but not other TJ-associated proteins, such as junctional adhesion molecule A or zonula occludens protein 1, was required for HCV entry. Using HCVcc, we demonstrated that occludin did not play an essential role in the initial attachment of HCV to target cells. Surface protein labeling experiments showed that both expression levels and cell surface localization of HCV (co)receptors CD81, scavenger receptor class B type I, and claudin-1 were not affected upon occludin knockdown. In addition, immunofluorescence confocal analysis showed that occludin interference did not affect subcellular distribution of the HCV (co)receptors analyzed. However, HCVgp fusion-associated events were altered after occludin silencing. In summary, we propose that occludin plays an essential role in HCV infection and probably affects late entry events. This observation may provide new insights into HCV infection and related pathogenesis.
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Tranqui, L., A. Andrieux, G. Hudry-Clergeon, J. J. Ryckewaert, S. Soyez, A. Chapel, M. H. Ginsberg, E. F. Plow, and G. Marguerie. "Differential structural requirements for fibrinogen binding to platelets and to endothelial cells." Journal of Cell Biology 108, no. 6 (June 1, 1989): 2519–27. http://dx.doi.org/10.1083/jcb.108.6.2519.
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The cytoadhesins represent a group of RGD receptors that belongs to the integrin superfamily of adhesion molecules. Members of this cytoadhesin family include the platelet GPIIb-IIIa and the vitronectin receptors. These glycoproteins share the same beta-subunit, which is associated with different alpha subunits to form an alpha/beta heterodimer. In the present study, we have analyzed the fine recognition specificy of the cytoadhesins from platelets and endothelial cells for the adhesive protein, fibrinogen. Two sets of synthetic peptides, RGDX peptides and peptides corresponding to the COOH terminus of the fibrinogen gamma chain, were compared for their structure-function relationships in the two cellular systems. The results indicate that: (a) both RGDX and gamma-chain peptides inhibit the binding of fibrinogen to platelets and endothelial cells; (b) a marked influence of the residue at the COOH- and NH2-terminal positions of each peptide set can be demonstrated on the two types; and (c) RGDX and gamma peptides have differential effects on platelets and endothelial cells with respect to fine structural requirements. These results clearly indicate that while the platelet and endothelial cytoadhesins may interact with similar peptidic sequences, they express a different fine structural recognition.
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Erbani, Johanna D., Joshua Tay, Valerie Barbier, Jean-Pierre Levesque, John L. Magnani, and Ingrid G. Winkler. "CD162 Is a Key E-Selectin Receptor Promoting Acute Myeloid Leukemia Chemo-Resistance in the Bone Marrow Niche." Blood 134, Supplement_1 (November 13, 2019): 907. http://dx.doi.org/10.1182/blood-2019-132233.
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We have recently found that the vascular adhesion molecule E(endothelial)-selectin is a critical bone marrow niche component mediating acute myeloid leukemia (AML) chemo-resistance. Clinical trials involving the use of E-selectin mimetics to improve efficacy of conventional AML therapy are in progress. In this study we investigate the identity of the AML cell surface receptors mediating vascular E-selectin-induced chemo-resistance. E-selectin has two well-characterised receptors, CD162 also known as P-Selectin Glycoprotein Ligand-1 (PSGL-1), and CD44 isoform HCELL (Hematopoietic Cell E-selectin/L-selectin Ligand) with other cell surface glycoproteins (such as ESL-1) and glycolipids also binding E-selectin after Sialyl Lewisx/a glycosylation. To investigate which of these AML cell surface receptors are responsible for mediating vascular E-selectin survival signalling, we first investigated if each co-localized with E-selectin on AML cell surface by confocal imaging. Human CD34+ AML KG1a cells were labelled ± adhesion to fluorescently E-selectin-IgM. Confocal imaging revealed that although both canonical CD44 and CD162 receptors co-localized with E-selectin at the site of cell contact, only CD162 became strongly polarized at E-selectin binding site, while CD44 remained widely distributed across the cell surface. To dissect a functional role for each of these canonical receptors in human AML, CRISPR-Cas9 gene editing was used to selectively delete CD44 and/or CD162 from human AML KG1a cells. We found that although deletion of both CD44 and CD162 receptors reduced KG1a E-selectin-IgM binding potential (3-fold), deletion of either receptor alone did not. Next, we investigated whether deletion of either receptor reversed E-selectin-mediated chemo-resistance in an in vitro chemosensitivity assay. KG1a cells were seeded in wells pre-coated with a range of vascular adhesion molecules commonly expressed in the bone marrow niche, then monitored for cell survival after 48hr treatment ± cytarabine. In this in vitro assay, we found that adhesion to E-selectin significantly increased parental KG1a survival to chemotherapy (p=0.0035). No similar increase in survival was observed following adhesion to P-selectin, or with integrin ligands ICAM-1 and PE-CAM-1. When we repeated the assay using Crispr CD44 deleted KG1a AML we found significant E-selectin-mediated chemo-resistance was still observed (p=0.027) even in the absence of CD44. These results suggest CD44 is not the receptor mediating AML chemo-resistance. In contrast E-selectin-mediated chemo-resistance was abrogated in the CD162 Crispr deleted human KG1a AMLs. Together these data suggest CD162/PSGL-1 expressed on the surface of human AML KG1a appears to be the receptor mediating vascular E-selectin chemo-resistance. This would be a completely novel role described for CD162 which is conventionally known as a homing molecule. To confirm this new role for CD162 in mediating AML chemo-resistance can be replicated in pre-clinical models in vivo, we next generated (11q23-rearranged) AML from CD44-/- and/or CD162-/- gene-deleted mice by retroviral transduction of murine hematopoietic stem cells with MLL-AF9 which then were transplanted into wildtype mice. Cohorts of leukemic mice (n=8/gp) were administered induction therapy (cytarabine/doxorubicin) to monitor impact on disease-free survival. In contrast to AMLs from wildtype, we found absence of CD162 in murine AMLs lead to a pronounced chemo-sensitisation in vivo resulting in a significant (6-fold, p=0.0004) extension in overall disease-free survival duration, compared to either no chemotherapy gene-deleted AML controls, or to treated wildtype AML controls. These in vivo murine data confirm the identification of an exciting new role for CD162 as an important cell surface receptor mediating therapy resistance in AML. In conclusion, we describe a novel form of niche-mediated chemo-resistance and identify CD162 as a key AML cell surface receptor involved in both human and mouse AML therapy resistance. CD162/PSGL-1 expression has not previously been implicated in direct therapy resistance. Together these findings help extend our knowledge on the potential mechanisms by which therapeutic blockade of vascular E-selectin can significantly improves therapy outcomes. Disclosures Levesque: GlycoMimetics: Equity Ownership. Magnani:GlycoMimetics Inc: Employment, Equity Ownership. Winkler:GlycoMimetics: Patents & Royalties.
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Schnaar, Ronald L., Rita Gerardy-Schahn, and Herbert Hildebrandt. "Sialic Acids in the Brain: Gangliosides and Polysialic Acid in Nervous System Development, Stability, Disease, and Regeneration." Physiological Reviews 94, no. 2 (April 2014): 461–518. http://dx.doi.org/10.1152/physrev.00033.2013.
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Every cell in nature carries a rich surface coat of glycans, its glycocalyx, which constitutes the cell's interface with its environment. In eukaryotes, the glycocalyx is composed of glycolipids, glycoproteins, and proteoglycans, the compositions of which vary among different tissues and cell types. Many of the linear and branched glycans on cell surface glycoproteins and glycolipids of vertebrates are terminated with sialic acids, nine-carbon sugars with a carboxylic acid, a glycerol side-chain, and an N-acyl group that, along with their display at the outmost end of cell surface glycans, provide for varied molecular interactions. Among their functions, sialic acids regulate cell-cell interactions, modulate the activities of their glycoprotein and glycolipid scaffolds as well as other cell surface molecules, and are receptors for pathogens and toxins. In the brain, two families of sialoglycans are of particular interest: gangliosides and polysialic acid. Gangliosides, sialylated glycosphingolipids, are the most abundant sialoglycans of nerve cells. Mouse genetic studies and human disorders of ganglioside metabolism implicate gangliosides in axon-myelin interactions, axon stability, axon regeneration, and the modulation of nerve cell excitability. Polysialic acid is a unique homopolymer that reaches >90 sialic acid residues attached to select glycoproteins, especially the neural cell adhesion molecule in the brain. Molecular, cellular, and genetic studies implicate polysialic acid in the control of cell-cell and cell-matrix interactions, intermolecular interactions at cell surfaces, and interactions with other molecules in the cellular environment. Polysialic acid is essential for appropriate brain development, and polymorphisms in the human genes responsible for polysialic acid biosynthesis are associated with psychiatric disorders including schizophrenia, autism, and bipolar disorder. Polysialic acid also appears to play a role in adult brain plasticity, including regeneration. Together, vertebrate brain sialoglycans are key regulatory components that contribute to proper development, maintenance, and health of the nervous system.
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Bernhard, Oliver K., Joey Lai, John Wilkinson, Margaret M. Sheil, and Anthony L. Cunningham. "Proteomic Analysis of DC-SIGN on Dendritic Cells Detects Tetramers Required for Ligand Binding but No Association with CD4." Journal of Biological Chemistry 279, no. 50 (September 22, 2004): 51828–35. http://dx.doi.org/10.1074/jbc.m402741200.
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DC-SIGN (dendriticcellspecificintracellular adhesion molecule 3grabbingnon-integrin) or CD209 is a type II transmembrane protein and one of several C-type lectin receptors expressed by dendritic cell subsets, which bind to high mannose glycoproteins promoting their endocytosis and potential degradation. DC-SIGN also mediates attachment of HIV to dendritic cells and binding to this receptor can subsequently lead to endocytosis or enhancement of CD4/CCR5-dependent infection. The latter was proposed to be facilitated by an interaction between DC-SIGN and CD4. Endocytosis of HIV virions does not necessarily lead to their complete degradation. A proportion of the virions remain infective and can be later presented to T cells mediating their infectionin trans. Previously, the extracellular domain of recombinant DC-SIGN has been shown to assemble as tetramers and in the current study we use a short range covalent cross-linker and show that DC-SIGN exists as tetramers on the surface of immature monocyte-derived dendritic cells. There was no evidence of direct binding between DC-SIGN and CD4 either by cross-linking or by fluorescence resonance energy transfer measurements suggesting that there is no constitutive association of the majority of these proteins in the membrane. Importantly we also show that the tetrameric complexes, in contrast to DC-SIGN monomers, bind with high affinity to high mannose glycoproteins such as mannan or HIV gp120 suggesting that such an assembly is required for high affinity binding of glycoproteins to DC-SIGN, providing the first direct evidence that DC-SIGN tetramers are essential for high affinity interactions with pathogens like HIV.
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Beumer, S., MJ IJsseldijk, PG de Groot, and JJ Sixma. "Platelet adhesion to fibronectin in flow: dependence on surface concentration and shear rate, role of platelet membrane glycoproteins GP IIb/IIIa and VLA-5, and inhibition by heparin." Blood 84, no. 11 (December 1, 1994): 3724–33. http://dx.doi.org/10.1182/blood.v84.11.3724.bloodjournal84113724.
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Platelet adhesion to purified surface-immobilized fibronectin under flow conditions was investigated. Fibronectin was found to support attachment and spreading of platelets. The extent of platelet spreading depended on the amount of immobilized fibronectin. An antiglycoprotein (anti-GP) IIb/IIIa antibody and an Arg-Gly-Asp (RGD)-containing peptide inhibited adhesion almost completely, whereas antibodies directed against platelet GP Ic/IIa (very late antigen 5) inhibited by 50%. Similar results with the antibodies and the peptide were found in a static system. A comparison of different anticoagulants showed no difference in adhesion using citrate or hirudin. However, unfractionated heparin (UFH) or low-molecular-weight heparin (LMWH) as the only anticoagulant or in combination with citrate maximally inhibited adhesion by 80% and 60%, respectively. Preincubation of the immobilized fibronectin with UFH resulted in a maximal inhibition of 90%, whereas preincubation with LMWH had no effect. When we preincubated the surface with heparins of different size, we observed 40% inhibition of adhesion with heparins with an average MW of up to 18 kD, whereas a heparin with an average MW of 21 kD almost completely blocked adhesion. These results indicate that platelet adhesion to fibronectin in flow involves several receptors, is highly RGD-mediated, does not require physiologic levels of divalent cations, and can be inhibited by direct binding of heparin to the fibronectin surface.
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Sutherland, A. E., P. G. Calarco, and C. H. Damsky. "Expression and function of cell surface extracellular matrix receptors in mouse blastocyst attachment and outgrowth." Journal of Cell Biology 106, no. 4 (April 1, 1988): 1331–48. http://dx.doi.org/10.1083/jcb.106.4.1331.
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Mouse-hatched blastocysts cultured in vitro will attach and form outgrowths of trophoblast cells on appropriate substrates, providing a model for implantation. Immediately after hatching, the surfaces of blastocysts are quiescent and are not adhesive. Over the period 24-36 h post-hatching, blastocysts cultured in serum-free medium become adhesive and attach and spread on the extracellular matrix components fibronectin, laminin, and collagen type IV in a ligand specific manner. Attachment and trophoblast outgrowth on these substrates can be inhibited by addition to the culture medium of an antibody, anti-ECMr (anti-extracellular matrix receptor), that recognizes a group of 140-kD glycoproteins similar to those of the 140-kD extracellular matrix receptor complex (integrin) recognized in avian cells by CSAT and JG22 monoclonal antibodies. Addition to the culture medium of a synthetic peptide containing the Arg-Gly-Asp tripeptide cell recognition sequence of fibronectin inhibits trophoblast outgrowth on both laminin and fibronectin. However, the presence of the peptide does not affect attachment of the blastocysts to either ligand. Immunoprecipitation of 125I surface-labeled embryos using anti-ECMr reveals that antigens recognized by this antibody are exposed on the surfaces of embryos at a time when they are spreading on the substrate, but are not detectable immediately after hatching. Immunofluorescence experiments show that both the ECMr antigens and the cytoskeletal proteins vinculin and talin are enriched on the cell processes and ventral surfaces of trophectoderm cells in embryo outgrowths, in patterns similar to those seen in fibroblasts, and consistent with their role in adhesion of the trophoblast cells to the substratum.