552
Views
11
CrossRef citations to date
0
Altmetric
Original

NCAM and PSA-NCAM dependent membrane spreading and F-actin reorganization in suspended adhering neural cells

, , , , &
Pages 102-114 | Received 19 Mar 2007, Published online: 09 Jul 2009

References

  • Thornton MR, Mantovani C, Birchall MA, Terenghi G. Quantification of NCAM and N-cadherin expression in axotomized and crushed rat sciatic nerve. J Anat 2005; 206: 68–78
  • Saffell JL, Doherty P, Tiveron MC, Morris RJ, Walsh FS. NCAM requires a cytoplasmic domain to function as a neurite outgrowth-promoting neuronal receptor. Mol Cell Neurosci 1995; 6: 521–531
  • Prag S, Lepekhin EA, Kolkova K, Hartmann-Petersen R, Kawa A, Walmod PS, Belman V, Gallagher HC, Berezin V, Bock E, Pedersen N. NCAM regulates cell motility. J Cell Sci 2001; 115: 283–292
  • Cambon K, Hansen SM, Venero C, Herrero AI, Skibo G, Berezin V, Bock E, Sandi C. A synthetic neural cell adhesion molecule mimetic peptide promotes synaptogenesis, enhances presynaptic function and facilitates memory consolidation. J Neurosci 2004; 24: 4197–4204
  • Sandi C, Cordero MI, Merino JJ, Kruyt ND, Regan CM, Murphy KJ. Neurobiological and endocrine correlates of individual differences in spatial learning ability. Learn Memory 2004; 11: 244–252
  • Povlsen GK, Ditlevsen DK, Berezin V, Bock E. Intracellular signalling by the neural cell adhesion molecule. Neurochem Res 2003; 28: 127–141
  • Rutishauser U, Acheson A, Hall A, Mann DM, Sunshine J. The neural cell adhesion molecule -NCAM- as a regulator of cell-cell interactions. Science 1988; 240: 53–57
  • Acheson AJ, Sunshine L, Rutishauser U. NCAM polysialic acid can regulate both cell-cell and cell-substrate interactions. J Cell Biol 1991; 114: 143–153
  • Decker L, Durbec P, Rougon G, Baron-Van Evercooren A. Loss of polysialic residues accelerates CNS neural precursor differentiation in pathological conditions. Mol Cell Neurosci 2002; 19: 225–238
  • Kiss JZ, Troncoso E, Djebbara Z, Vutskits L, Muller D. The role of neural cell adhesion molecules in plasticity and repair. Brain Res Rev 2001; 36: 175–184
  • Zhang H, Vutskits L, Calaora V, Durbec P, Kiss JZ. A role for the polysialic acid-neural cell adhesion molecule in PDGF-induced chemotaxis of oligodendrocyte precursor cells. J Cell Sci 2004; 117: 93–103
  • Rutishauser U. Polysialic acid and the regulation of cell interactions. Curr Opin Cell Biol 1996; 8: 679–684
  • Brusés JL, Rutishauser U. Roles, regulation and mechanism of polysialic acid function during neural development. Biochimie 2001; 83: 635–643
  • Toikka J, Aalto J, Hayrinen J, Pelliniemi LJ, Finne J. The polysialic acid units of the neural cell adhesion molecule NCAM form filament bundle networks. J Biol Chem 1998; 273: 28557–28559
  • Fujimoto I, Bruses JL, Rutishauser U. Regulation of cell adhesion by polysialic acid. J Biol Chem 2001; 276: 31745–31751
  • Yang P, Yin X, Rutishauser U. Intercellular space is affected by the polysialic acid content of NCAM. J Cell Biol 1992; 116: 1487–1496
  • Rutishauser U. Polysialic acid at the cell surface: biophysics in service of cell interactions and tissue plasticity. J Cell Biochem 1998; 70: 304–312
  • Johnson CP, Fujimoto I, Rutishauser U, Leckband DE. Direct evidence that the neural cell adhesion molecule (NCAM) polysialylation increases intermembrane repulsion and abrogates adhesion. J Biol Chem 2005; 280: 137–145
  • Rutishauser U, Watanabe M, Silver J, Troy FA, Vimr ER. Specific alteration of NCAM-mediated cell adhesion by an Endoneuraminidase. J Cell Biol 1985; 101: 1842–1849
  • Pizzey JA, Rowett LH, Barton CH, Dickson G, Walsh FS. Intercellular adhesion mediated by human muscle neural cell adhesion molecule – effects of alternative exon use. J Cell Biol 1989; 109: 3465–3476
  • Rao Y, Wu X-F, Gariepy J, Rutishauser U, Siu C-H. Identification of a peptide sequence involved in homophilic binding in the neural cell adhesion molecule NCAM. J Cell Biol 1992; 118: 937–949
  • Soroka V, Kiryushko D, Novitskaya V, Ronn LCB, Poulsen FM, Holm A, Bock E, Berezin V. Induction of neuronal differentiation by a peptide corresponding to the homophilic binding site of the second Ig module of the neural cell adhesion molecule. J Biol Chem 2002; 277: 24676–24683
  • Spengler J, Coakley WT. Ultrasonic trap to monitor morphology and stability of developing microparticle aggregates. Langmuir 2003; 19: 3635–3642
  • Coakley WT, Bazou D, Morgan J, Foster GA, Archer CW, Powell K, Borthwick KAJ, Twomey C, Bishop J. Cell-cell contact and membrane spreading in an ultrasound trap. Colloids Surf B 2004; 34: 221–230
  • Bazou D, Foster GA, Ralphs JR, Coakley WT. Molecular adhesion development in a neural cell monolayer forming in an ultrasound trap. Mol Memb Biol 2005; 22: 229–240
  • Bazou D, Coakley WT, Meek KM, Yang M, Pham DT. Characterisation of the morphology of 2-D particle aggregates in different electrolyte concentrations in an ultrasound trap. Colloids Surf A 2004; 243: 97–104
  • Bazou D, Dowthwaite GP, Khan IM, Archer CW, Ralphs JR, Coakley WT. Gap junctional intercellular communication and cytoskeletal organization in chondrocytes in suspension in an ultrasound trap. Mol Membr Biol 2006; 23: 195–205
  • Wang C, Rougon G, Kiss JZ. Requirement of polysialic acid for the migration of the O-2A glial progenitor cell from neurohypophyseal explants. J Neurosci 1994; 14: 4446–4457
  • Blain E, Gilbert SJ, Hayes AJ, Duance VC. Disassembly of the vimentin cytoskeleton disrupts articular cartilage chondrocyte homeostasis. Matrix Biol 2006; 25: 398–408
  • Nudel U, Zakut R, Shani M, Neuman S, Levy Z, Yaffe D. The nucleotide sequence of the rat cytoplasmic ß-actin gene. Nucleic Acids Res 1983; 11: 1759–1771
  • Spengler JF, Coakley WT, Christensen KT. Microstreaming effects on particle concentration in an ultrasonic standing wave. AiChE J 2003; 49: 2773–2782
  • Hawkes JJ, Coakley WT, Groschl M, Benes E, Amstrong S, Tasker PJ, Nowotny H. Single half-wavelength ultrasonic particle filter: predictions of the transfer matrix multilayer resonator model and experimental filtration results. J Acoust Soc Am 2002; 111: 1259–1266
  • Bazou D, Davies G, Jiang WG, Coakley WT. Rapid molecular and morphological responses of prostate cell lines to cell-cell contact. Cell Commun Adh 2006; 13: 279–294
  • Roy NS, Benraiss A, Wang S, Frazer RAR, Goodman R, Couldwell WT, Nedergaard M, Kawaguchi A, Okano H, Goldman SA. Promoter-targeted selection and isolation of neural progenitor cells from the adult human ventricular zone. J Neurosci Res 2000; 59: 321–331
  • Nunes MC, Roy NS, Keyoung HM, Goodman RR, McKhann G II, Jiang L, Kang J, Nedergaard M, Goldman SA. Identification and isolation of multipotential neural progenitor cells fro the subcortical white matter of the adult human brain. Nat Med 2003; 9: 439–447
  • Bazou D, Kuznetsova LA, Coakley WT. Physical environment of 2D animal cell aggregates formed in a short pathlength ultrasound standing wave trap. Ultrasound Med Biol 2005; 31: 423–430
  • Jamney PA, Lindberg U. Cytoskeletal regulation: rich in lipids. Nat Mol Cell Biol 2004; 5: 658–666
  • Hoffman S, Edelman GM. Kinetics of homophilic binding by embryonic and adult forms of the neural cell adhesion molecule. Proc Natl Acad Sci USA 1983; 80: 5762–5766
  • Braga V. Epithelial cell shape: cadherins and small GTPases. Exp Cell Res 2000; 261: 83–90
  • Leshchyns'ka I, Sytnyk V, Morrow JS, Schachner M. Neural cell adhesion molecule (NCAM) association with PKC beta (2) via beta I spectrin is implicated in NCAM-mediated neurite outgrowth. J Cell Biol 2003; 161: 625–639
  • Büttner B, Kannicht C, Reutter W, Horstkorte R. The neural cell adhesion molecule is associated with major components of the cytoskeleton. Biochem Biophys Res Commun 2003; 310: 967–971
  • Sandig M, Kalnins VI, Siu C-H. Role of NCAM, cadherins, and microfilaments in cell-cell contact formation in TM4 immature mouse sertoli cells. Cell Motil Cytoskel 1997; 36: 149–163
  • Keller H, Zadeh AD, Eggli P. Localised depletion of polymerised actin at the front of Walker carcinosarcoma cells increases the speed of locomotion. Cell Mot Cytoskel 2002; 53: 189–202
  • Ranheim TS, Edelman GM, Cunningham BA. Homophilic adhesion mediated by the neural cell adhesion molecule involves multiple immunoglobulin domains. Proc Natl Acad Sci USA 1996; 93: 4071–4075
  • Johnson CP, Fujimoto I, Perrin-Tricaud C, Rutishauser U, Leckband D. Mechanism of homophilic adhesion by neural cell adhesion molecule: use of multiple domains and flexibility. Proc Natl Acad Sci USA 2004; 101: 6963–6968
  • Kiryushko D, Kofoed T, Skladchikova G, Holm A, Berezin V, Bock E. A synthetic peptide ligand of neural cell adhesion molecule (NCAM), C3d, promotes neuritogenesis and synaptogenesis and modulates presynaptic function in primary cultures of rat hippocampal neurons. J Biol Chem 2003; 278: 12325–12334
  • Kasper C, Rasmussen H, Kastrup JS, Ikemizu S, Jones EY, Berezin V, Bock E, Larsen IK. Structural basis of cell-cell adhesion by NCAM. Nat Struct Biol 2000; 7: 389–393
  • Zhou H, Fuks A, Alcaraz G, Bolling TJ, Stanners CP. Homophilic adhesion between Ig superfamily carcinoembryonic antigen molecules involves double reciprocal bonds. J Cell Biol 1993; 122: 951–960
  • Chu Y-S, Thomas WA, Eder O, Pincet F, Perez E, Thiery JP, Dufour S. Force measurements in E-cadherin-mediated cell doublets reveal rapid adhesion strengthened by actin cytoskeleton remodeling through Rac and Cdc42. J Cell Biol 2004; 167: 1183–1194

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.