Advanced search
Publication Cover
Cell Adhesion and Communication Volume 3, 1996 - Issue 6
Journal homepage
21
Views
1
CrossRef citations to date
0
Altmetric
Original Article

Human SY5Y Neuroblastoma Cell Interactions with Laminin Isoforms: Neurite Outgrowth on Laminin-5 Is Mediated by Integrin α3β1

Barbara E. Smith Neuroscience Research Institute and Department of Molecular, Cellular, and Developmental Biology, University of California, Santa Barbara, California, 93106
,
Amy D. Bradshaw Neuroscience Research Institute and Department of Molecular, Cellular, and Developmental Biology, University of California, Santa Barbara, California, 93106
,
Esther S. H. Choi Neuroscience Research Institute and Department of Molecular, Cellular, and Developmental Biology, University of California, Santa Barbara, California, 93106
,
Patricia Rouselle Institut de Biologie et Chimie des Proteines, Lyon, France
,
Elizabeth A. Wayner Department of Laboratory Medicine and Pathology and the Biomedical Engineering Center, University of Minnesota, Minneapolis, Minnesota, 55455
&
Dennis O. Clegg Neuroscience Research Institute and Department of Molecular, Cellular, and Developmental Biology, University of California, Santa Barbara, California, 93106
Pages 451-462 | Received 13 Sep 1995, Published online: 11 Jul 2009

References

  • Aberdam D., Aguzzi A., Baudoin C., Galliano M. F., Ortonne J. P., Meneguzzi G. Developmental expression of nicein adhesion protein (laminin-5) subunits suggests multiple morphogenic roles. Cell Adhesion and Communication 1994; 2: 115–129
  • Adams W. A., Watt F. M. Expression of β1, β3, α4 and β5 integrins by human epidermal keratinocytes and non-differentiating keratinocytes. J. Cell Biol. 1991; 115(3)829–841
  • Aumailley M., Nurcombe V., Edgar D., Paulsson M., Timpl R. The cellular interactions of laminin fragments. Cell adhesion correlates with two fragment-specific high affinity binding sites. J. Biol. Chem. 1987; 262: 11532–11538
  • Beck K., Hunter I., Engel J. Structure and function of laminin: anatomy of a multidomain glycoprotein. FASEB J. 1990; 4: 148–160
  • Biedler J., Helson L., Spengler B. Morphology and growth, tumorigenicity, and cytogenetics of human neuroblastomas in continuous culture. Cancer Res. 1973; 33: 2643–2652
  • Biedler J., Roffler-Tarlov S., Schachner M., Freedman L. Multiple neurotransmitter synthesis by human neuroblastoma cell lines and clones. Cancer Res. 1978; 38: 3751–3757
  • Bronner-Fraser M., Lallier T. A monoclonal antibody' against a LN-heparin sulfate proteoglycan complex perturbs cranial neural crest migration in vivo. J. Cell Biol. 1988; 106: 1321
  • Brown J. C., Wiedemann H., Timpl R. Protein binding and cell adhesion properties of two laminin isoforms (AmB1eB2e) from human placenta. J. Cell Sci. 1994; 107: 329–338
  • Burgeson R. E., Chiquet M., Deutzman R., Ekblom P., Engle J., Kleinman H., Martin G. R., Meneguzzi G., Paulsson M., Sanes J., Timpl R., Tryggvason K., Yamada Y., Yurchenco P. D. A new nomenclature for the laminins. Matrix Biology 1994; 14: 209–211
  • Carter W. G., Kaur P., Gil S. G., Garh P. J., Wayner E. A. Distinct functions for integrins α3β1 in focal adhesion and α6β4/Bullous Phemphigoid Antigen in a new stable anchoring contact (SAC) of keratinocytes: relation to hemidesmosomes. J. Cell Biol. 1990; 111: 3141–3154
  • Carter W. G., Ryan M. C., Gahr P. J. Epiligrin, a new cell adhesion ligand for integrin α3β1 in epithelial basement membranes. Cell 1991; 65: 599–610
  • Chan B. M., Hemler M. E. Multiple functional forms of the integrin VLA-2 can be derived from a single alpha 2 cDNA clone: interconversion of forms induced by an anti-beta 1 antibody. J. Cell Biol. 1993; 120: 537–543
  • Choi E S.-H., Rettig W. J., Wayner E. A., Srour M. L., Clegg D. O. Functional identification of integrin laminin receptors that mediate process outgrowth by human SY5Y neuroblastoma cells. J. Neurosci. Res. 1994; 37: 475–488
  • Cohen J., Burne J. F., McKinlay C., Winter J. The role of LN and the LN/fibronectin receptor complex in the outgrowth of retinal ganglion cell axons. Dev. Biol. 1987; 107: 381–387
  • Colamarino S. A., Tessier-Lavigne M. The axonal chemoattractant netrin-1 is also a chemorepellant for trochlear motor axons. Cell 1995; 81: 621–629
  • Coppolino M., Migliorni M., Argraves W. S., Dedhar S. Identification of a novel form of the alpha 3 integrin subunit: covalent association with transferrin receptor. Biochemical J. 1995; 306: 129–134
  • Dedhar S., Jewell K., Rojiani M., Gray V. The receptor for the basement membrane glycoprotein entactin is the integrin alpha 3/beta 1. J. Biol. Chem. 1992; 267: 18908–18914
  • Dewel G. O., De Melker A. A., Hogervorst F., Jaspars L. H., Fles D. F. A., Kuikman I., Lindblom A., Paulsson M., Timpl R., Sonnenberg A. Distinct and overlapping ligand specificities of the α3Aβ1 and α6Aβ1 integrins: Recognition of laminin isoforms. Mol. Biol. Cell. 1994; 5: 203–215
  • Di Marco E., Marchisio P. C., Bondanza S., Franzi A. T., Cancedda R., De Luca M. Growth-regulated synthesis and secretion of biologically active nerve growth factor by human keratinocytes. J. Biol. Chem. 1991; 266: 21718–21722
  • Ehrig K., Leivo I., Argraves W. S., Ruoslahti E., Engvall E. Merosin, a tissue specific membrane protein, is a laminin-like protein. Proc. Natl. Acad. Sci. USA 1990; 87: 3264–3268
  • Elices M. J., Hemler M. E. The human integrin VLA-2 is a collagen receptor on some cells and a collagen/laminin receptor on others. Proc. Natl. Acad. Sci. USA 1989; 86: 9906–9910
  • Elices M. J., Urry L. A., Hemler M. E. Receptor functions for the integrin VLA-3: fibronectin, collagen, and laminin binding are differentially influenced by ARG-GLY-ASP peptide and by divalent cations. J. Cell. Biol. 1991; 112: 169–181
  • Engvall E., Davis G., Dickerson K., Rouslahti E., Varon S., Manthorpe M. Mapping of domains in human laminin using monoclonal antibodies: localization of the neurite-promoting site. J. Cell Biol. 1986; 103: 2457–2465
  • Engvall E., Earwicker D., Haaparanta T., Ruoslahti E., Sanes J. R. Distribution and isolation of four laminin variants; tissue restricted distribution of heterodimers assembled from five different subunits. Cell Reg. 1990; 1: 731–740
  • Engvall E., Earwicker D., Day A., Muir D., Manthorpe M., Paulsson M. Merosin promotes cell attachment and neurite outgrowth and is a component of the neurite promoting factor of RN22 Schwannoma cells. Exp. Cell. Res. 1992; 98: 115–123
  • Forsberg E., Ek B., Engstrom A., Johnsson S. Purification and characterization of integrin α9β1. Exp. Cell Biol. 1994; 213: 183–190
  • Forsberg E., Paulsson M., Timpl R., Johnsson S. Characterizaiton of a laminin receptor on rat hepatocytes. J. Biol. Chem. 1990; 265: 6376–6381
  • Gehlsen K. R., Engvall E., Rouslahti E. The human laminin receptor is a member of the integrin family of cell adhesion receptors. Science 1988; 241: 1228–1229
  • Gehlsen K. R., Dickerson K., Argraves W. S., Engvall E., Rouslahti E. Subunit structure of a laminin-binding integrin and localization of its binding site on laminin. J. Biol. Chem. 1989; 264: 19034–19038
  • Gehlsen K. R., Sriramarao P., Furcht L. T., Skubitz A. P. N. A synthetic peptide derived from the carboxy terminous of the laminin A chain represents a binding site for the α3/β1 integrin. J. Cell Biol. 1992; 117: 449–459
  • Goodman S. L., Aumailley M., von der Mark H. Multiple cell surface receptors for the short arms of laminin: alpha 1 beta 1 integrin and RGD-dependent proteins mediate cell attachment only to domains III in murine tumor laminin. J. Cell Biol. 1991; 113: 931–941
  • Hall D. E., Reichardt L. F., Crowley E., Holley B., Moezzi H., Sonnenberg A., Damsky C. H. The α1/β1 and α6/β1 integrin heterodimers mediate cell attachment to distinct sites on laminin. J. Cell Biol. 1990; 110: 2175–2184
  • Hunter D. D., Murphy M. D., Olsson C. V., Brunken W. J. S-laminin expression in adult and developing retinae: a potential cue in for photoreceptor morphogenesis. Neuron 1992; 8: 399–413
  • Hynes R. O. Integrins: versatility, modulation, and signalling in cell adhesion. Cell 1992; 69: 11–25
  • Hynes R. O., Lander A. D. Contact and adhesive specificities in the associations, migrations, and targeting of cells and axons. Cell 1992; 68: 303–322
  • Ignatius M. J., Reichardt L. F. Identification of a neuronal laminin receptor: an Mr 200K/120K integrin heterodimer that binds laminin in a divalent cation dependent manner. Neuron 1988; 1: 713–725
  • Kallunki P., Sainio K., Eddy R., Byers M., Kallunki T., Sariola H., Beck K., Hirvonen H., Shows T. B., Tryggvason K. A truncated laminin chain homologous to the B2 chain: structure, spatial expression, and chromosomal assignment. J. Cell Biol. 1992; 119: 679–693
  • Kirchhofer D., Languino L. R., Rouslahti E., Pierschbacher M. D. Alpha 2 beta 1 integrins from different cell types show different binding specificities. J. Biol. Chem. 1990; 265: 615–618
  • Kramer R. H., McDonald K. A., Vu M. P. Human melanoma cells express a novel integrin receptor for laminin. J. Biol. Chem. 1989; 264: 15642–15649
  • Kramer R. H., Cheng Y. F., Clyman R. Human microvascular endothelial cells use β1 and β3 integrin receptor complexes to attach to laminin. J. Cell Biol. 1990; 111: 1233–1243
  • Laemmli U. Cleavage of structural proteins during assembly of the head of the bacteriophage T4. Nature 1970; 227: 680–685
  • Lajarva H., Salo T., Haapasalmi K., Kramer R. H., Heino J. Expressions of integrins and basement membrane components by wound keratinocytes. J. Clin. Invst. 1993; 92: 1425–1435
  • Languino L. R., Gehlsen K. R., Wayner E., Carter W. G., Engvall E., Rouslahti E. Endothelial cells use alpha2/betal integrin as a laminin receptor. J. Cell Biol. 1989; 109: 2455–2462
  • Lee E. C., Lotz M. M., Steele G. D., Mercurio A. M. The integrin α6β4 is a laminin receptor. J. Cell Biol. 1992; 117: 671–678
  • McLoon S. C., McLoon L. K., Palm S. L., Furcht L. T. Transient expression of laminin in the optic nerve of the developing rat. J. Neurosci. 1988; 8: 1981–1990
  • Mearow K. M., Kril Y., Diamond J. Increased NGF mRNA expression in denervated rat skin. NeuroReport 1993; 4: 351–354
  • Mechtersheimer G., Barth T., Quentmeier A., Moller P. Differential expression of β1, β3, and β4 integrin sub-units in nonneoplastic neural cells of the peripheral and autonomic nervous system and in tumors derived from these cells. Lab. Invst. 1994; 70: 740–752
  • Niessen C. M., Hogervorst F., Jaspars L. H., de Melker A. A., Dewel G. O., Hulsman E. H. M., Kuikman I., Sonnen-berg A. The α6β4 integrin is a receptor for both laminin and kalinin. Exp. Cell Res. 1994; 211: 360–367
  • Noakes P. G., Gautam M., Sanes J. R., Merlie J. P. Aberrant differentiation of neuromuscular junctions in mice lacking s-laminin/laminin beta 2. Nature 1995; 374: 258–262
  • Oakley B. R., Kirsch D. R., Morris N. R. A simplified ultrasensitive silver stain for detecting proteins in polyacrylamide gels. Anal. Biochem. 1980; 105: 361–363
  • Porter B. E., Weis J., Sanes J. R. A motoneuron-selective stop signal in the synaptic protein s-laminin. Neuron 1995; 14: 549–559
  • Pulkkinen L., Christiano A. M., Airenne T., Haakana H., Tryggvason K., Uitto J. Mutations in the gamma 2 chain gene (LAMC2) of kalinin/laminin 5 in the junctional forms of epidermolysis bullosa. Nature Genetics 1994; 6: 293–297
  • Rettig W. J., Dracopoli N. C., Goetzger T. A., Spengler B. A., Biedler J. L., Oettgen H. F., Old L. J. Somatic cell genetic analysis of human cell surface antigens: chromosomal assignments and regulation of antigen expression in rodent-human hybrid cells. Proc. Natl. Aca. Sci. USA 1984; 81: 6437–6441
  • Rettig W. J., Spengler B. A., Garin Chesa P., Old L. J., Biedler J. L. Coordinate changes in neuronal phenotype and surface antigen expression in human neuroblastoma cell variants. Cancer Res. 1987; 47: 1383–1389
  • Rogers S. L., Edson K. L., Letourneau P. C., McLoon S. C. Distribution of laminin in the developing peripheral nervous system of the chick. Dev. Biol. 1986; 113: 429–435
  • Rousselle P., Aumailley M. Kalinin is more efficient than laminin in promoting adhesion of primary keratinocytes and some other epithelial cells and has a different requirement for integrin receptors. J. Cell Biol. 1994; 125(1)205–214
  • Rousselle P., Golbik R., van der Rest M., Aumailley M. Structural requirement for cell adhesion to kalinin (laminin-5). J. Biol. Chan. 1995; 270: 13766–13770
  • Rousselle P., Lunstrum G. P., Keene D. R., Burgeson R. E. Kalinin: an epithelium-specific molecule that is a component of anchoring filaments. J. Cell Biol. 1991; 114: 567–576
  • Ryan M. C., Tizard R., VanDevanter D. R., Carter W. C. Cloning of the LamA3 gene encoding the α3 chain of the adhesive ligand epiligrin. J. Biol. Chem. 1994; 269: 22779–22787
  • Sandrock A. W., Matthew W. D. An in vitro neurite-promoting antigen functions in axonal regeneration in vivo. Science 1987; 237: 1605–1608
  • Skubitz A., Letourneau P., Wayner E., Furcht L. Synthetic peptides from the carboxy-terminal globular domain of the a chain of laminin: their ability to promote cell adhesion and neurite outgrowth, and interact with heparin and the β1 integrin subunit. J. Cell Biol. 1991; 115: 1137–1148
  • Sonnenberg A., Modderman P. W., Hogervorst F. Laminin receptor on platelets is the integrin VLA-6. Nature 1988; 336: 487–489
  • Sonnenberg A., Linders C. J. T., Modderman P. W., Damsky C. H., Aumailley M., Timpl R. Integrin recognition of different cell binding fragments of laminin (P1, E3, E8) and evidence that α6β1 but not α6β4 functions as a major receptor for E8. J. Cell Biol. 1990; 110: 2145–2155
  • Sriramarao P., Steffner P., Gehlsen K. R. Biochemical evidence for a homophilic interaction of the α3β1 integrin. J. Biol. Chem. 1993; 268: 22036–22041
  • Symington B., Takada Y., Carter W. Interactions of integrins α3β1 and α2β1: potential role in keratinocyte intercellular adhesion. J. Cell Biol. 1993; 120: 523–535
  • Tamada A., Shirasaki R., Murakami F. Floor plate chemoattracts crossed axons and chemorepels uncrossed axons in the vertebrate brain. Neuron 1995; 14: 1083–1093
  • Tawil N. J., Houde M., Blacher R., Esch F., Reichardt L. F., Turner D. C., Carbonetto S. Alpha 1 beta 1 integrin heterodimer functions as a dual laminin/collagen receptor in neural cells. Biochem. 1990; 29: 6540–6544
  • Timpl R., Brown J. The laminins. Matrix Biol. 1994; 14: 275–281
  • Timpl R., Rhodes H., Robey P., Rennard S., Foidart J. M., Martin G. R. Laminin—a protein from basement membranes. J. Biol. Chem. 1979; 254: 9933–9937
  • Tomasellli K. J., Hall D. E., Flier L. A., Gehlsen K. R., Turner D. C., Carbonetto S., Reichardt L. F. A neuronal cell line (PC12) expresses two β1 class integrins—α1β1 and α3β1—that recognize different neurite outgrowth-promoting domains in laminin. Neuron 1990; 5: 651–662
  • Tomasellli K. J., Doherty P., Emmett C. J., Damsky C. H., Walsh F. S., Reichardt L. F. Expression of β1 integrins in sensory neurons of the dorsal root ganglion and their functions in neurite outgrowth on two laminin isoforms. J. Neurosci. 1993; 13(11)4880–4888
  • Vailly J., Pulkkinen L., Miquel C., Christiano A. M., Gerecke D., Burgeson R. E., Uitto J., Ortonne J. P., Meneguzzi G. Identification of a homozygous one-basepair deletion in exon 14 of the LAMB3 gene in a patient with Herlitz junctional epidermolysis bullosa and prenatal diagnosis in a family at risk for recurrence. J. Invest. Dermatol. 1995; 104: 462–466
  • Venstrom K. A., Reichardt L. F. Extracellular matrix 2: role of extracellular matrix molecules and their receptors in the nervous system. FASEB 1993; 7: 996–1003
  • Venstrom K., Reichardt L. β8 integrins mediate interaction of chick sensory neurons with laminin-1, collagen IV, and fibronectin. Mol. Biol. Cell 1995; 6: 419–431
  • Verrando P., Pisani A., Ortonne J. P. The new basement membrane antigen recognized by the monoclonal antibody GB3 is a large size glycoprotein: modulation of its expression by retinoic acid. Biochem. Biophys. Acta. 1988; 942: 45–56
  • Wayner E. A., Carter W. G. Identification of multiple cell adhesion receptor for collagen and fibronectin in human fibrosarcoma cells possessing unique α and common β sub-units. J. Cell Biol. 1987; 105: 1873–1884
  • Wayner E. A., Gil S. G., Murphy G. F., Wilke M. S., Carter W. G. Epiligrin, a component of epithelial basement membranes, is an adhesive ligand for α3β1 positive T lymphocytes. J. Cell Biol. 1993; 121(5)1141–1152
  • Weitzman J., Pasqualini R., Takada Y., Hemler M. The function and distinctive regulation of the integrin VLA-3 in cell adhesion, spreading, and homotypic cell aggregation. J. Biol. Chem. 1993; 268: 8651–8657
  • Wewer U., Albrechtsen R., Manthorpe M., Varon S., Engall E., Ruoslahti E. Human laminin isolated in a nearly intact, biologically active form from placenta by limited proteolysis. J. Biol. Chem. 1983; 258: 12654–12660

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:

Order Reprints Request Corporate Permissions

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:

Request Academic Permissions

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.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.