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Adams, D.N., Kao, E.Y., Hypolite, C.L., Distefano, M.D., Hu, W.S., and Letourneau, P.C., 2005, Growth cones turn and migrate up an immobilized gradient of the laminin IKVAV peptide, J. Neurobiol. 62: 134–147.
Andressen, C., Arnhold, S., Puschmann, M., Bloch, W., Hescheler, J., Fassler, R., et al., 1998, Beta1 integrin deficiency impairs migration and differentiation of mouse embryonic stem cell derived neurons, Neurosci. Lett. 251: 165–168.
Andressen, C., Adrian, S., Fassler, R., Arnhold, S., and Addicks, K., 2005, The contribution of beta1 integrins to neuronal migration and differentiation depends on extracellular matrix molecules, Eur. J. Cell Biol. 84: 973–982.
Bamdad, M., Volle, D., Dastugue, B., and Meiniel, A., 2004, Alpha1beta1-integrin is an essential signal for neurite outgrowth induced by thrombospondin type 1 repeats of SCO-spondin, Cell Tissue Res. 315: 15–25.
Barry, S.T., Flinn, H.M., Humphries, M.J., Critchley, D.R., and Ridley, A.J., 1997, Requirement for Rho in integrin signalling, Cell Commun. Adhes. 4: 387–398.
Baum, P.D., and Garriga, G., 1997, Neuronal migrations and axon fasciculation are disrupted in ina-1 integrin mutants, Neuron 19: 51–62.
Bear, J.E., Svitkina, T.M., Krause, M., Schafer, D.A., Loureiro, J.J., Strasser, G.A., et al., 2002, Antagonism between Ena/VASP proteins and actin filament capping regulates fibroblast motility, Cell 109: 509–521.
Beggs, H.E., Schahin-Reed, D., Zang, K., Goebbels, S., Nave, K.A., Gorski, J., et al., 2003, FAK deficiency in cells contributing to the basal lamina results in cortical abnormalities resembling congenital muscular dystrophies, Neuron 40: 501–514.
Billuart, P., Winter, C.G., Maresh, A., Zhao, X., and Luo, L., 2001, Regulating axon branch stability: The role of p190 RhoGAP in repressing a retraction signaling pathway, Cell 107: 195–207.
Bradke, F., and Dotti, C.G., 1999, The role of local actin instability in axon formation, Science 283: 1931–1934.
Carulli, D., Laabs, T., Geller, H.M., and Fawcett, J.W., 2005, Chondroitin sulfate proteoglycans in neural development and regeneration, Curr. Opin. Neurobiol. 15: 116–120.
Condic, M.L., and Letourneau, P.C., 1997, Ligand-induced changes in integrin expression regulate neuronal adhesion and neurite outgrowth, Nature 389: 852–856.
Corey, J.M., Brunette, A.L., Chen, M.S., Weyhenmeyer, J.A., Brewer, G.J., and Wheeler, B.C., 1997, Differentiated B104 neuroblastoma cells are a high-resolution assay for micropatterned substrates, J. Neurosci. Methods 75: 91–97.
Culley, B., Murphy, J., Babaie, J., Nguyen, D., Pagel, A., Rousselle, P., et al., 2001, Laminin-5 promotes neurite outgrowth from central and peripheral chick embryonic neurons, Neurosci. Lett. 301: 83–86.
da Silva, J.S., and Dotti, C.G., 2002, Breaking the neuronal sphere: Regulation of the actin cytoskeleton in neuritogenesis, Nat. Rev. Neurosci. 3: 694–704.
De Arcangelis, A., Mark, M., Kreidberg, J., Sorokin, L., and Georges-Labouesse, E., 1999, Synergistic activities of alpha3 and alpha6 integrins are required during apical ectodermal ridge formation and organogenesis in the mouse, Development 126: 3957–3968.
de Miguel, F.F., and Vargas, J., 2000, Native extracellular matrix induces a well-organized bipolar outgrowth pattern with neurite extension and retraction in cultured neurons, J. Comp. Neurol. 417: 387–398.
Dent, E.W., and Gertler, F.B., 2003, Cytoskeletal dynamics and transport in growth cone motility and axon guidance, Neuron 40: 209–227.
Dent, E.W., and Kalil, K., 2001, Axon branching requires interactions between dynamic microtubules and actin filaments, J. Neurosci. 21: 9757–9769.
Duband, J.L., Nuckolls, G.H., Ishihara, A., Hasegawa, T., Yamada, K.M., Thiery, J.P., et al., 1988, Fibronectin receptor exhibits high lateral mobility in embryonic locomoting cells but is immobile in focal contacts and fibrillar streaks in stationary cells, J. Cell Biol. 107: 1385–1396.
Dulabon, L., Olson, E.C., Taglienti, M.G., Eisenhuth, S., McGrath, B., Walsh, C.A., et al., 2000, Reelin binds alpha3beta1 integrin and inhibits neuronal migration, Neuron 27: 33–44.
Esch, T., Lemmon, V., and Banker, G., 1999, Local presentation of substrate molecules directs axon specification by cultured hippocampal neurons, J. Neurosci. 19: 6417–6426.
Esch, T., Lemmon, V., and Banker, G., 2000, Differential effects of NgCAM and N-cadherin on the development of axons and dendrites by cultured hippocampal neurons, J. Neurocytol. 29: 215–223.
ffrench-Constant, C., and Colognato, H., 2004, Integrins: Versatile integrators of extracellular signals, Trends Cell Biol. 14: 678–686.
Garcia-Alonso, L., Fetter, R.D., and Goodman, C.S., 1996, Genetic analysis of Laminin A in Drosophila: Extracellular matrix containing laminin A is required for ocellar axon pathfinding, Development 122: 2611–2621.
Geiger, B., Bershadsky, A., Pankov, R., and Yamada, K.M., 2001, Transmembrane crosstalk between the extracellular matrix—cytoskeleton crosstalk, Nat. Rev. Mol. Cell Biol. 2: 793–805.
Georges-Labouesse, E., Mark, M., Messaddeq, N., and Gansmuller, A., 1998, Essential role of alpha 6 integrins in cortical and retinal lamination, Curr. Biol. 8: 983–986.
Gibney, J., and Zheng, J.Q., 2003, Cytoskeletal dynamics underlying collateral membrane protrusions induced by neurotrophins in cultured Xenopus embryonic neurons, J. Neurobiol. 54: 393–405.
Goldberg, J.L., 2003, How does an axon grow? Genes Dev. 17: 941–958.
Goldberg, J.L., 2004, Intrinsic neuronal regulation of axon and dendrite growth, Curr. Opin. Neurobiol. 14: 551–557.
Goldberg, J.L., Espinosa, J.S., Xu, Y., Davidson, N., Kovacs, G.T., and Barres, B.A., 2002, Retinal ganglion cells do not extend axons by default: Promotion by neurotrophic signaling and electrical activity, Neuron 33: 689–702.
Goldfinger, L.E., Han, J., Kiosses, W.B., Howe, A.K., and Ginsberg, M.H., 2003, Spatial restriction of alpha4 integrin phosphorylation regulates lamellipodial stability and alpha4beta1-dependent cell migration, J. Cell Biol. 162: 731–741.
Gotz, B., Scholze, A., Clement, A., Joester, A., Schutte, K., Wigger, F., et al., 1996, Tenascin-C contains distinct adhesive, anti-adhesive, and neurite outgrowth promoting sites for neurons, J. Cell Biol. 132: 681–699.
Gotz, M., Bolz, J., Joester, A., and Faissner, A., 1997, Tenascin-C synthesis and influence on axonal growth during rat cortical development, Eur. J. Neurosci. 9: 496–506.
Grabham, P.W., and Goldberg, D.J., 1997, Nerve growth factor stimulates the accumulation of beta1 integrin at the tips of filopodia in the growth cones of sympathetic neurons, J. Neurosci. 17: 5455–5465.
Grabham, P.W., Reznik, B., and Goldberg, D.J., 2003, Microtubule and Rac 1-dependent F-actin in growth cones, J. Cell Sci. 116: 3739–3748.
Grashoff, C., Thievessen, I., Lorenz, K., Ussar, S., and Fassler, R., 2004, Integrin-linked kinase: Integrin's mysterious partner, Curr. Opin. Cell Biol. 16: 565–571.
Graus-Porta, D., Blaess, S., Senften, M., Littlewood-Evans, A., Damsky, C., Huang, Z., et al., 2001, Beta1-class integrins regulate the development of laminae and folia in the cerebral and cerebellar cortex, Neuron 31: 367–379.
Guan, K.L., and Rao, Y., 2003, Signalling mechanisms mediating neuronal responses to guidance cues, Nat. Rev. Neurosci. 4: 941–956.
Guan, W., Puthenveedu, M.A., and Condic, M.L., 2003, Sensory neuron subtypes have unique substratum preference and receptor expression before target innervation, J. Neurosci. 23: 1781–1791.
Guntinas-Lichius, O., Angelov, D.N., Morellini, F., Lenzen, M., Skouras, E., Schachner, M., et al., 2005, Opposite impacts of tenascin-C and tenascin-R deficiency in mice on the functional outcome of facial nerve repair, Eur. J. Neurosci. 22: 2171–2179.
Halfter, W., Dong, S., Yip, Y.P., Willem, M., and Mayer, U., 2002, A critical function of the pial basement membrane in cortical histogenesis, J. Neurosci. 22: 6029–6040.
Hall, A., 1998, Rho GTPases and the actin cytoskeleton, Science 279: 509–514.
Hannigan, G.E., Leung-Hagesteijn, C., Fitz-Gibbon, L., Coppolino, M.G., Radeva, G., Filmus, J., et al., 1996, Regulation of cell adhesion and anchorage-dependent growth by a new beta 1-integrin-linked protein kinase, Nature 379: 91–96.
Hildebrand, J.D., Schaller, M.D., and Parsons, J.T., 1995, Paxillin, a tyrosine phosphorylated focal adhesion-associated protein binds to the carboxyl terminal domain of focal adhesion kinase, Mol. Biol. Cell 6: 637–647.
Hoang, B., and Chiba, A., 1998, Genetic analysis on the role of integrin during axon guidance in Drosophila, J. Neurosci. 18: 7847–7855.
Hopker, V.H., Shewan, D., Tessier-Lavigne, M., Poo, M., and Holt, C., 1999, Growth-cone attraction to netrin-1 is converted to repulsion by laminin-1, Nature 401: 69–73.
Hopkins, J.M., Ford-Holevinski, T.S., McCoy, J.P., and Agranoff, B.W., 1985, Laminin and optic nerve regeneration in the goldfish, J. Neurosci. 5: 3030–3038.
Huang, C., Borchers, C.H., Schaller, M.D., and Jacobson, K., 2004, Phosphorylation of paxillin by p38MAPK is involved in the neurite extension of PC-12 cells, J. Cell Biol. 164: 593–602.
Huang, C.C., Hall, D.H., Hedgecock, E.M., Kao, G., Karantza, V., Vogel, B.E., et al., 2003, Laminin alpha subunits and their role in C. elegans development, Development 130: 3343–3358.
Huber, A.B., Kolodkin, A.L., Ginty, D.D., and Cloutier, J.F., 2003, Signaling at the growth cone: Ligand-receptor complexes and the control of axon growth and guidance, Annu. Rev. Neurosci. 26: 509–563.
Hynds, D.L., and Snow, D.M., 2001, Fibronectin and laminin elicit differential behaviors from SH-SY5Y growth cones contacting inhibitory chondroitin sulfate proteoglycans, J. Neurosci. Res. 66: 630–642.
Hynes, R.O., 2002, Integrins: Bidirectional, allosteric signaling machines, Cell 110: 673–687.
Hynes, R.O., and Lander, A.D., 1992, Contact and adhesive specificities in the associations, migrations, and targeting of cells and axons, Cell 68: 303–322.
Ishii, T., Furuoka, H., Muroi, Y., and Nishimura, M., 2003, Inactivation of integrin-linked kinase induces aberrant tau phosphorylation via sustained activation of glycogen synthase kinase 3beta in N1E–115 neuroblastoma cells, J. Biol. Chem. 278: 26970–26975.
Ivankovic-Dikic, I., Gronroos, E., Blaukat, A., Barth, B.U., and Dikic, I., 2000, Pyk2 and FAK regulate neurite outgrowth induced by growth factors and integrins, Nat. Cell Biol. 2: 574–581.
Ivins, J.K., Colognato, H., Kreidberg, J.A., Yurchenco, P.D., and Lander, A.D., 1998, Neuronal receptors mediating responses to antibodyactivated laminin-1, J. Neurosci. 18: 9703–9715.
Ivins, J.K., Yurchenco, P.D., and Lander, A.D., 2000, Regulation of neurite outgrowth by integrin activation, J. Neurosci. 20: 6551–6560.
Joester, A., and Faissner, A., 2001, The structure and function of tenascins in the nervous system, Matrix Biol. 20: 13–22.
Kiryushko, D., Berezin, V., and Bock, E., 2004, Regulators of neurite outgrowth: Role of cell adhesion molecules, Ann. N Y Acad. Sci. 1014: 140–154.
Knobel, K.M., Jorgensen, E.M., and Bastiani, M.J., 1999, Growth cones stall and collapse during axon outgrowth in Caenorhabditis elegans, Development 126: 4489–4498.
Lanier, L.M., Gates, M.A., Witke, W., Menzies, A.S., Wehman, A.M., Macklis, J.D., et al., 1999, Mena is required for neurulation and commissure formation, Neuron 22: 313–325.
Lemmon, V., Burden, S.M., Payne, H.R., Elmslie, G.J., and Hlavin, M.L., 1992, Neurite growth on different substrates: Permissive versus instructive influences and the role of adhesive strength, J. Neurosci. 12: 818–826.
Lentz, S.I., Miner, J.H., Sanes, J.R., and Snider, W.D., 1997, Distribution of the ten known laminin chains in the pathways and targets of developing sensory axons, J. Comp. Neurol. 378: 547–561.
Letourneau, P.C., 1975, Possible roles for cell-to-substratum adhesion in neuronal morphogenesis, Dev. Biol. 44: 77–91.
Li, S., Guan, J.L., and Chien, S., 2005, Biochemistry and biomechanics of cell motility, Annu. Rev. Biomed. Eng. 7: 105–150.
Li, W., Lee, J., Vikis, H.G., Lee, S.H., Liu, G., Aurandt, J., et al., 2004, Activation of FAK and Src are receptor-proximal events required for netrin signaling, Nat. Neurosci. 7: 1213–1221.
Liesi, P., 1985a, Do neurons in the vertebrate CNS migrate on laminin? EMBO J. 4: 1163–1170.
Liesi, P., 1985b, Laminin-immunoreactive glia distinguish regenerative adult CNS systems from non-regenerative ones, EMBO J. 4: 2505–2511.
Lilienbaum, A., Reszka, A.A., Horwitz, A.F., and Holt, C.E., 1995, Chimeric integrins expressed in retinal ganglion cells impair process outgrowth in vivo, Mol. Cell. Neurosci. 6: 139–152.
Liu, G., Beggs, H., Jurgensen, C., Park, H.T., Tang, H., Gorski, J., et al., 2004, Netrin requires focal adhesion kinase and Src family kinases for axon outgrowth and attraction, Nat. Neurosci. 7: 1222–1232.
Lochter, A., Taylor, J., Braunewell, K.H., Holm, J., and Schachner, M., 1995, Control of neuronal morphology in vitro: Interplay between adhesive substrate forces and molecular instruction, J. Neurosci. Res. 42: 145–158.
Manthorpe, M., Engvall, E., Ruoslahti, E., Longo, F.M., Davis, G.E., and Varon, S., 1983, Laminin promotes neuritic regeneration from cultured peripheral and central neurons, J. Cell Biol. 97: 1882–1890.
Mechai, N., Wenzel, M., Koch, M., Lucka, L., Horstkorte, R., Reutter, W., et al., 2005, The cytoplasmic tail of the alpha(3) integrin subunit promotes neurite outgrowth in PC12 cells, J. Neurosci. Res. 82: 753–761.
Mercado, M.L., Nur-e-Kamal, A., Liu, H.Y., Gross, S.R., Movahed, R., and Meiners, S., 2004, Neurite outgrowth by the alternatively spliced region of human tenascin-C is mediated by neuronal alpha7beta1 integrin, J. Neurosci. 24: 238–247.
Mills, J., Digicaylioglu, M., Legg, A.T., Young, C.E., Young, S.S., Barr, A.M., et al., 2003, Role of integrin-linked kinase in nerve growth factor-stimulated neurite outgrowth, J. Neurosci. 23: 1638–1648.
Miner, J.H., and Li, C., 2000, Defective glomerulogenesis in the absence of laminin alpha5 demonstrates a developmental role for the kidney glomerular basement membrane, Dev. Biol. 217: 278–289.
Miner, J.H., and Yurchenco, P.D., 2004, Laminin functions in tissue morphogenesis, Annu. Rev. Cell Dev. Biol. 20: 255–284.
Mitra, S.K., Hanson, D.A., and Schlaepfer, D.D., 2005, Focal adhesion kinase: In command and control of cell motility, Nat. Rev. Mol. Cell Biol. 6: 56–68.
Moresco, E.M., Donaldson, S., Williamson, A., and Koleske, A.J., 2005, Integrin-mediated dendrite branch maintenance requires Abelson (Abl) family kinases, J. Neurosci. 25: 6105–6118.
Nakagawa, H., Miki, H., Ito, M., Ohashi, K., Takenawa, T., and Miyamoto, S., 2001, N-WASP, WAVE and Mena play different roles in the organization of actin cytoskeleton in lamellipodia, J. Cell Sci. 114: 1555–1565.
Nakamoto, T., Kain, K.H., and Ginsberg, M.H., 2004, Neurobiology: New connections between integrins and axon guidance, Curr. Biol. 14: R121–R123.
Niewmierzycka, A., Mills, J., St-Arnaud, R., Dedhar, S., and Reichardt, L.F., 2005, Integrin-linked kinase deletion from mouse cortex results in cortical lamination defects resembling cobblestone lissencephaly, J. Neurosci. 25: 7022–7031.
Nishiya, N., Kiosses, W.B., Han, J., and Ginsberg, M.H., 2005, An alpha4 integrin-paxillin-Arf-GAP complex restricts Rac activation to the leading edge of migrating cells, Nat. Cell Biol. 7: 343–352.
Nobes, C.D., and Hall, A., 1995, Rho, rac, and cdc42 GTPases regulate the assembly of multimolecular focal complexes associated with actin stress fibers, lamellipodia, and filopodia, Cell 81: 53–62.
Nozumi, M., Nakagawa, H., Miki, H., Takenawa, T., and Miyamoto, S., 2003, Differential localization of WAVE isoforms in filopodia and lamellipodia of the neuronal growth cone, J. Cell Sci. 116: 239–246.
O'Shea, K.S., Rheinheimer, J.S., and Dixit, V.M., 1990, Deposition and role of thrombospondin in the histogenesis of the cerebellar cortex, J. Cell Biol. 110: 1275–1283.
Parsons, J.T., 2003, Focal adhesion kinase: The first ten years, J. Cell Sci. 116: 1409–1416.
Pasterkamp, R.J., Peschon, J.J., Spriggs, M.K., and Kolodkin, A.L., 2003, Semaphorin 7A promotes axon outgrowth through integrins and MAPKs, Nature 424: 398–405.
Patton, B.L., Miner, J.H., Chiu, A.Y., and Sanes, J.R., 1997, Distribution and function of laminins in the neuromuscular system of developing, adult, and mutant mice, J. Cell Biol. 139: 1507–1521.
Paulus, J.D., and Halloran, M.C., 2006, Zebrafish bashful/laminin-alpha1 mutants exhibit multiple axon guidance defects, Dev. Dyn. 235: 213–224.
Pietri, T., Eder, O., Breau, M.A., Topilko, P., Blanche, M., Brakebusch, C., et al., 2004, Conditional beta1-integrin gene deletion in neural crest cells causes severe developmental alterations of the peripheral nervous system, Development 131: 3871–3883.
Pinkstaff, J.K., Detterich, J., Lynch, G., and Gall, C., 1999, Integrin subunit gene expression is regionally differentiated in adult brain, J. Neurosci. 19: 1541–1556.
Poinat, P., De Arcangelis, A., Sookhareea, S., Zhu, X., Hedgecock, E.M., Labouesse, M., et al., 2002, A conserved interaction between beta1 integrin/PAT-3 and Nck-interacting kinase/MIG-15 that mediates commissural axon navigation in C. elegans, Curr. Biol. 12: 622–631.
Pollard, T.D., Blanchoin, L., and Mullins, R.D., 2000, Molecular mechanisms controlling actin filament dynamics in nonmuscle cells, Annu. Rev. Biophys. Biomol. Struct. 29: 545–576.
Ranscht, B., 2000, Cadherins: Molecular codes for axon guidance and synapse formation, Int. J. Dev. Neurosci. 18: 643–651.
Rathjen, F.G., 1991, Neural cell contact and axonal growth, Curr. Opin. Cell Biol. 3: 992–1000.
Reichardt, L.F., and Tomaselli, K.J., 1991, Extracellular matrix molecules and their receptors: Functions in neural development, Annu. Rev. Neurosci. 14: 531–570.
Reichardt, L.F., Bossy, B., Carbonetto, S., de Curtis, I., Emmett, C., Hall, D.E., et al., 1990, Neuronal receptors that regulate axon growth, Cold Spring Harb. Symp. Quant. Biol. 55: 341–350.
Ren, X.D., Kiosses, W.B., Sieg, D.J., Otey, C.A., Schlaepfer, D.D., and Schwartz, M.A., 2000, Focal adhesion kinase suppresses Rho activity to promote focal adhesion turnover, J. Cell Sci. 113: 3673–3678.
Ren, X.R., Ming, G.L., Xie, Y., Hong, Y., Sun, D.M., Zhao, Z.Q., et al., 2004, Focal adhesion kinase in netrin-1 signaling, Nat. Neurosci. 7: 1204–1212.
Renaudin, A., Lehmann, M., Girault, J., and McKerracher, L., 1999, Organization of point contacts in neuronal growth cones, J. Neurosci. Res. 55: 458–471.
Rico, B., Beggs, H.E., Schahin-Reed, D., Kimes, N., Schmidt, A., and Reichardt, L.F., 2004, Control of axonal branching and synapse formation by focal adhesion kinase, Nat. Neurosci. 7: 1059–1069.
Ridley, A.J., Schwartz, M.A., Burridge, K., Firtel, R.A., Ginsberg, M.H., Borisy, G., et al., 2003, Cell migration: Integrating signals from front to back, Science 302: 1704–1709.
Robles, E., Woo, S., and Gomez, T.M., 2005, Src-dependent tyrosine phosphorylation at the tips of growth cone filopodia promotes extension, J. Neurosci. 25: 7669–7681.
Rogers, S.L., Edson, K.J., Letourneau, P.C., and McLoon, S.C., 1986, Distribution of laminin in the developing peripheral nervous system of the chick, Dev. Biol. 113: 429–435.
Rohwedel, J., Guan, K., Zuschratter, W., Jin, S., Ahnert-Hilger, G., Furst, D., et al., 1998, Loss of beta1 integrin function results in a retardation of myogenic, but an acceleration of neuronal, differentiation of embryonic stem cells in vitro, Dev. Biol. 201: 167–184.
Rottner, K., Behrendt, B., Small, J.V., and Wehland, J., 1999, VASP dynamics during lamellipodia protrusion, Nat. Cell Biol. 1: 321–322.
Rougon, G., and Hobert, O., 2003, New insights into the diversity and function of neuronal immunoglobulin superfamily molecules, Annu. Rev. Neurosci. 26: 207–238.
Sanada, K., Gupta, A., and Tsai, L.H., 2004, Disabled-1-regulated adhesion of migrating neurons to radial glial fiber contributes to neuronal positioning during early corticogenesis, Neuron 42: 197–211.
Sheppard, A.M., Hamilton, S.K., and Pearlman, A.L., 1991, Changes in the distribution of extracellular matrix components accompany early morphogenetic events of mammalian cortical development, J. Neurosci. 11: 3928–3942.
Sheppard, A.M., Brunstrom, J.E., Thornton, T.N., Gerfen, R.W., Broekelmann, T.J., McDonald, J.A., et al., 1995, Neuronal production of fibronectin in the cerebral cortex during migration and layer formation is unique to specific cortical domains, Dev. Biol. 172: 504–518.
Skaper, S.D., Moore, S.E., and Walsh, F.S., 2001, Cell signalling cascades regulating neuronal growth-promoting and inhibitory cues, Prog. Neurobiol. 65: 593–608.
Snapper, S.B., Takeshima, F., Anton, I., Liu, C.H., Thomas, S.M., Nguyen, D., et al., 2001, N-WASP deficiency reveals distinct pathways for cell surface projections and microbial actin-based motility, Nat. Cell Biol. 3: 897–904.
Stevens, A., and Jacobs, J.R., 2002, Integrins regulate responsiveness to slit repellent signals, J. Neurosci. 22: 4448–4455.
Stipp, C.S., and Hemler, M.E., 2000, Transmembrane-4-superfamily proteins CD151 and CD81 associate with alpha 3 beta 1 integrin, and selectively contribute to alpha 3 beta 1-dependent neurite outgrowth, J. Cell Sci. 113: 1871–1882.
Suter, D.M., and Forscher, P., 2000, Substrate-cytoskeletal coupling as a mechanism for the regulation of growth cone motility and guidance, J. Neurobiol. 44: 97–113.
Takenawa, T., and Miki, H., 2001, WASP and WAVE family proteins: Key molecules for rapid rearrangement of cortical actin filaments and cell movement, J. Cell Sci. 114: 1801–1809.
Thies, E., and Davenport, R.W., 2003, Independent roles of Rho-GTPases in growth cone and axonal behavior, J. Neurobiol. 54: 358–369.
Tucker, B.A., Rahimtula, M., and Mearow, K.M., 2005, Integrin activation and neurotrophin signaling cooperate to enhance neurite outgrowth in sensory neurons, J. Comp. Neurol. 486: 267–280.
Turner, C.E., 2000, Paxillin interactions, J. Cell Sci. 113: 4139–4140.
Turney, S.G., and Bridgman, P.C., 2005, Laminin stimulates and guides axonal outgrowth via growth cone myosin II activity, Nat. Neurosci. 8: 717–719.
Vogelezang, M.G., Scherer, S.S., Fawcett, J.W., and ffrench-Constant, C., 1999, Regulation of fibronectin alternative splicing during peripheral nerve repair, J. Neurosci. Res. 56: 323–333.
Vogelezang, M.G., Liu, Z., Relvas, J.B., Raivich, G., Scherer, S.S., and ffrench-Constant, C., 2001, Alpha4 integrin is expressed during peripheral nerve regeneration and enhances neurite outgrowth, J. Neurosci. 21: 6732–6744.
Wehrle, B., and Chiquet, M., 1990, Tenascin is accumulated along developing peripheral nerves and allows neurite outgrowth in vitro, Development 110: 401–415.
Wehrle-Haller, B., and Chiquet, M., 1993, Dual function of tenascin: Simultaneous promotion of neurite growth and inhibition of glial migration, J. Cell Sci. 106: 597–610.
Werner, A., Willem, M., Jones, L.L., Kreutzberg, G.W., Mayer, U., and Raivich, G., 2000, Impaired axonal regeneration in alpha7 integrin-deficient mice, J. Neurosci. 20: 1822–1830.
Wheeler, B.C., Corey, J.M., Brewer, G.J., and Branch, D.W., 1999, Microcontact printing for precise control of nerve cell growth in culture, J. Biomech. Eng. 121: 73–78.
Wu, D.Y., Wang, L.C., Mason, C.A., and Goldberg, D.J., 1996, Association of beta 1 integrin with phosphotyrosine in growth cone filopodia, J. Neurosci. 16: 1470–1478.
Wu, X., Suetsugu, S., Cooper, L.A., Takenawa, T., and Guan, J.L., 2004, Focal adhesion kinase regulation of N-WASP subcellular localization and function, J. Biol. Chem. 279: 9565–9576.
Yin, Y., Kikkawa, Y., Mudd, J.L., Skarnes, W.C., Sanes, J.R., and Miner, J.H., 2003, Expression of laminin chains by central neurons: Analysis with gene and protein trapping techniques, Genesis 36: 114–127.
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Escuin, S., Georges-Labouesse, E. (2007). Adhesion-Induced Intracellular Mechanisms of Neurite Elongation. In: de Curtis, I. (eds) Intracellular Mechanisms for Neuritogenesis. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-68561-8_1
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