Abstract
The spatial and functional organization of individual cells into tissues is an event at the heart of metazoan development. This organization attains extraordinary complexity in the nervous system where inputs and outputs are matched at the level of single neurons. For example, in the visual system of frogs the axons of retinal ganglion cells form an array of synaptic connections in the tectum that reflects, with elegant precision, the positions of their somata in the retina. This topographic projection of the retina onto the tectum led Sperry (1963) to propose the now-famous chemoaffinity hypothesis.
Preview
Unable to display preview. Download preview PDF.
References
Acheson, A., Edgar, D., Timpl, R. and Thoenen, H. (1986). Laminin increases both levels and activity of tyrosine hydroxylase in calf adrenal chromaffin cells. J. Cell Biol., 102, 151–159.
Beug, H., Gerisch, G., Kempff, S., Reidel, V. and Cremer G. (1970). Specific inhibition of cell contact in Dictyostelium by univalent antibodies. Exp. Cell Res. 63: 147–158.
Bevilaogua, M.P., Stengelin, S., Gimbrone, M.A. and Seed, B. Jr. (1989). Mouse lymph node homing receptor cDNA done encodes a glycoprotein revealing tandem interaction domain clones. Science, 243, 1160–1162.
Bronner-Fraser, M. and Lallier, T. (1988). A monoclonal antibody against a laminin-heparan sulfate proteoglycan complex perturbs cranial neural crest migration in vivo. J. Cell Biol., 106, 1321–1329.
Buck, C.A. and Horwitz, A.F. (1987). Cell surface receptors for extracellular matrix molecules. Ann. Rev. Cell Biol., 3, 179–205.
Carbonetto, S., Evans, D. and Cochard, P. (1987). Nerve fibre growth in culture on tissue substrata from central and peripheral nervous system. J. Neurosci., 7, 610–620.
Caroni, P. and Schwab, M.E. (1988a). Two membrane protein fractions from rat central myelin with inhibitory properties for neurite growth and fibroblast spreading. J. Cell Biol., 106, 1281–1288.
Caroni, P. and Schwab, M.E. (1988b). Antibody against myelin-associated inhibitor of neurite growth neutralizes non-permissive substrate properties of CNS white matter. Neuron, 1, 85–96.
Cohen, J., Burne, J.R., Winter, J. and Bartlett, P. (1986). Retinal ganglion cells lose response to laminin with maturation. Nature, 322, 465–467.
Cohen, J., Burne, J.F., McKinlay, C. and Winter, J. (1987). The role of laminin and the laminin/fibronectin receptor complex in the out-growth of retinal ganglion cell axons. Dev. Biol., 122, 407–418.
Douville, P. and Carbonetto, S. (1989). Extracellular matrix adhesive glycoproteins and their receptors in the nervous system. In Neurobiology of Glyooconiuqates. (eds. R.V. Margolis and R.K. Marjolis). Plenum, New York.
Edelman, G.M. (1986). Cell adhesion molecules in the regulation of animal form and tissue pattern. Ann. Rev. Cell Biol., 2, 81–116.
Edgar, D., Timpl, R. and Thonen, H. (1984). The heparin-binding domain of laminin is responsible for its effects on neurite outgrowth and neuronal survival. EMDO J., 3, 1436–1468.
Edgar, D. (1989). Neuronal laminin receptors. TINS, 12, 248–251.
Engvall, E., Davis, G.E., Dickerson, K., Ruoslahti, E., Varon, S. and Manthorpe, M. (1987). Mapping of domains in human laminin using monoclonal antibodies: Localization of neurite promoting site. J. Cell Biol. 103, 2457–2465.
Gehlsen, K.R., Dillner, L., Engvall, E. and Ruoslahti, E. (1988). The human laminin receptor is a member of the integrin family of cell adhesion receptors. Science, 241, 1228–1230.
Greene, L.A. and Tischler, A.S. (1982). PC12 pheochixxnocytoma cultures in neurobiological research. Adv. Cell Neurobiol. 3, 373–414.
Hall, D.E., Neugebauer, K.M. and Reichardt, L.R. (1987). Embryonic neural retina cell response to extracellular matrix proteins: Developmental changes and effects of the cell substratum attachment antibody (CSAT). J. Cell Biol., 104, 623–634.
Hemler, M.E. (1988). Adhesive receptors on hematopoietic cells. Immunol. Today, 9, 109–113.
Houde, M., Tawil, N., Blacher, R., Esch, F., Reichardt, L.F., Turner, D.C. and Carbonetto, S. (1989). Partial sequence of a rat laminin/collagen receptor identifies it as a VLA-1 type of integrin. J. Cell Biol. (Abst.), in press.
Hynes, R.O. (1987). Integrins: A family of cell surface receptors. Cell, 48, 549–554.
Ide, C., Tohyama, K., Yokota, R., Nitatori, T. and Onodera, S. (1983). Schwann cell basal lamina and nerve regeneration. Brain Res., 288, 61–75.
Ignatius, M.J. and Reichardt, L.R. (1988) Identification of a neuronal laminin receptor: An Mr 200K/120K integrin heterodimer that binds laminin in a divalent cation-dependent manner. Neuron., 1, 713–725.
Kleinman, H.K., McGarvey, M.L., Hassell, J.R., Martin, G.R., Baron van Evercooren, A. and Dubois-Dalcq, M. (1984) The role of laminin in basement membranes and in the growth, adhesion, and differentiation of cells. In The Role of Extracellular Matrix in Development, (ed. R.L. Trelstad). Liss, New York, pp. 123–143.
Lander, A.D., Fujii, D. and Reichardt, L.F. (1985). Laminin is associated with the “neurite outgrowth-promoting factors” found in conditioned media. Proc. Natl. Acad. Sci. (USA), 82, 2183–2187.
Leptin, M., Bogaert, T., Lehmann, R. and Wilcox, M. (1989). The function of PS integrins during drosophila embryogenesis. Cell, 56, 401–408.
Liesi, P. (1985a). Do neurons in the vertebrate CNS migrate on laminin? EMBO J., 4, 1163–1170.
Liesi, P. (1985b). Laminin-immunoreactive glia distinguish adult CNS systems from non-regenerative ones. EMBO J., 4, 2505–2511.
Madison, R.D., DaSilva, G., Dikkes, P., Sidman, R.L. and Chiu, T.H. (1987). Peripheral nerve regeneration with entubulation repair: Comparison of biodegradable nerve guide versus polyethylene tubes and the effects of a laminin-containing gel. Exp. Neurol., 95, 378–390.
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.
Martin, G.R. and Timpl, R., (1987). Laminin and other basement membrane components. Ann. Rev. Cell Biol., 3, 57–85.
Panayotou, G., End, P., Aumailley, M., Timpl, R. and Engel. J. (1989). Domains of laminin and growth-factor activity. Cell, 56, 93–101.
Rabacchi, S.A., Neve, R.L. and Fraga, V.C. (1988). Molecular cloning of the “dorsal eye antigen”: Homology to the high-affinity lamimin receptor. Soc. Neurosci. Abst. 14, 769.
Reh, T.A., Nagy, T. and Gretton, H. (1987). Retinal pigmented epithelial cells induced to transdifferentiate to neurons by laminin. Nature, 330, 68–71.
Rogers, S.L., Letourneau, P.C., Palm, S.L., McCarthy, J. and Furcht, L.T. (1983) Neurite extension by peripheral and central nervous system neurons in response to substratum-bound fibronectin and laminin. Dev. Biol. 98, 212–220.
Ruoslahti, E. and Pierschbacher, M.D. (1987) New perspectives in cell adhesion: RGD and integrins. Science, 238, 491–497.
Rutishauser, U. (1986). Differential cell adhesion through spatial and temporal variations of NORM. TINS, 9, 374–378.
Sandrock, A.W. Jr. and Matthew, W.D. (1987a) A in vitro neurite-promoting antigen functions in axonal regeneration in vivo. Science, 237, 1605–1608.
Sandrock, A.W. Jr. and Matthew, W.D. (1987b). Identification of a peripheral nerve neurite growth-promoting activity by development and use of an in vitro bioassay. Proc. Natl. Acad. Sci. (USA), 84, 6934–6938.
Santoro, S.A. (1986). Identification of a 160,000 dalton platelet membrane protein that mediates the initial divalent cation-dependent adhesion of platelets to collagen. Cell, 46, 913–920.
Savio, T. and Schwab, M.E. (1989). Rat CNS white matter, but not gray matter, is nonpermissive for neuronal cell adhesion and fiber outgrowth. J. Neurosci., 9, 1126–1133.
Schwab, M.E. and Caroni, P. (1988). Oligodendrocytes and CNS myelin are nonpermissive substrates for neurite growth and fibroblast spreading in vitro. J. Neurosci., 8, 2371–2393.
Schwab, M.E. and Thoenen, H. (1985). Dissociated neurons regeneration into sciatic nerve but not optic nerve expiants in culture irrespective of neurotrophic factors. J. Neurosci., 5, 2415–2423.
Sperry, R.W. (1963). Chemoaffinity in the orderly growth of nerve fiber patterns and connections. Proc. Natl. Acad. Sci. (USA) 50, 703–707.
Takeichi, M. (1987). Cadherins: A molecular family essential for selective cell-cell adhesion and animal morphogenesis. Trends in Genetics, 3, 213–217.
Tamkun, J.W., DeSimone, D.W., Fonda, D., Patel, R.S., Buck, C., Horwitz, A.F. and Hynes, R.O. (1986) Structure of integrin, a glycoprotein involved in the transmembrane linkage between fibronectin and actin. Cell, 46, 271–282.
Tomaselli, K.J., Damsky, C.H. and Reichardt, L.F. (1988). Purification and characterization of mammalian integrins expressed by a rat neuronal cell line (PC12): Evidence that they function as a α/β heterodimeric receptors for laminin and Type IV collagen. J. Cell Biol. 107, 1241–1252.
Tomaselli, K.J., Damsky, C.H. and Reichardt, L.F. (1987). Interactions of a neuronal cell line (PC12) with laminin, collagen IV, and fibronectin: Identification of integrin-related glycoproteins involved in attachment and process outgrowth. J. Cell Biol. 105, 2347–2358.
Tomaselli, K.J., Hall, D.E., Reichardt, L.F., Flier, L.A., Turner, D.C. and Carbonetto, S. (1989). A neuronal cell line (PC12) expresses two β1-class integrins that recognize different cell attachment sites in laminin. Soc. Neurosci. Abst. 15, in press.
Tawil, N.J., Houde, M. and Carbonetto, S. (1989). Isolation and partial characterization of a laminin/collagen receptor on astrocytes. Soc. Neurosci. Abst. 15, in press.
Toyota, B., Carbonetto, S. and David, S. (1988). Involvement of laminin in nerve regeneration in vivo. Soc. Neurosci. Abst., 14, 498.
Turner, D.C., Flier, L.A. and Carbonetto, S. (1987). Magnesium-dependent attachment and neurite outgrowth by PC12 cells on collagen and laminin substrata. Dev. Biol. 121, 510–525.
Turner, D.C., Flier, L.A. and Carbonetto, S. (1989). Identification of a cell-surface protein involved in PC12 cell-substratum adhesion and neurite outgrowth on laminin and collagen. J. Neurosci., 9, (in press).
Wilson, H.V. (1907). On some phenomena of coalesence and regeneration in sponges. J. Exp. Zool. 5, 243–258.
Yamamoto, T., Iwasaki, Y., Yamamoto, H., Konno, H. and Isemura, M. (1988). Intraneuronal laminin-like molecule in the central nervous system: Demonstration of its unique differential distribution. J. Neurol. Science, 84, 1–13.
Editor information
Editors and Affiliations
Copyright information
© 1990 The contributors
About this chapter
Cite this chapter
Carbonetto, S. (1990). Laminin Receptors: From PC12 Cells to PNS. In: Björklund, A., Aguayo, A.J., Ottoson, D. (eds) Brain Repair. Wenner-Gren Center International Symposium Series. Palgrave, London. https://doi.org/10.1007/978-1-349-11358-3_15
Download citation
DOI: https://doi.org/10.1007/978-1-349-11358-3_15
Publisher Name: Palgrave, London
Print ISBN: 978-1-349-11360-6
Online ISBN: 978-1-349-11358-3
eBook Packages: EngineeringEngineering (R0)