Summary
Antibodies against laminin (LN), fibronectin (FN), collagen type IV (Col IV), neural cell adhesion molecule (N-CAM), T-61 antigen, actin, tubulin and neurofilament protein were injected into the eyes of quail embryos (Coturnix coturnix japonica) of different ages. Twenty h after injection, the heads of the embryos were fixed and the antibodies visualized in sections with the use of fluorescein-isothiocyanate (FITC) or peroxidase-labeled second antibodies by light- and electron microscopy. Antibodies against cell surface molecules, such as N-CAM, LN, Col IV and T 61, labeled matrix and membrane components of the retinal cells in different antigen-specific patterns. Antibodies against intracellular antigens, such as actin, tubulin and neurofilament protein labeled nonspecifically the vitreous body and the inner basal lamina of the retina, but resulted in only a very weak and diffuse labeling of retinal cells. N-CAM was detected in high concentration in the optic fiber layer on the surface of axons and on the membranes of all retinal cells. Col IV, LN and T 61 antigen were found predominantly in the optic fiber layer. LN and Col IV were located on the surface of axons and the endfeet of ventricular (neuroepithelial) cells in a patchy distribution. The T-61 antigen was found in early stages in the cell-free space of the optic fiber layer, on the surface of ventricular cells and axons, and at later stages also in high-density patches between nerve fibers. The distribution of LN and T-61 antigen together with data from in vitro experiments suggests a crucial role of these proteins in axon extension in the avian retina during early development of the optic fiber layer.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Auerbach R, Kubai L, Knighton D, Folkman J (1974) A simple method for the long-term cultivation of chick embryos. Dev Biol 41:391–394
Carbonetto S (1984) The extracellular matrix of the nervous system. Trends Neuro Sci 7:381–387
Constantin-Paton M (1979) Axonal navigation. Biosciences 29:526–532
Cornbrooks C, Carry D, McDonald J, Timpl R, Bunge R (1983) In vivo and in vitro observations on laminin production by Schwann cells. Proc Natl Acad Sci USA 80:3850–3854
Davis G, Varon S, Engvall E, Manthorpe M (1985) Substratumbinding neurite-promoting factors: relationship to laminin. Trends Neuro Sci 8:528–532
Eldret W, Zucker Ch, Karten J, Yazulla St (1983) Comparison of fixation and penetration enhancement techniques for use in ultrastructural immunocytochemistry. J Histochem Cytochem 31:285–292
Goldberg S (1977) Unidirectional, bidirectional and random growth of embryonic axons. Exp Eye Res 25:399–407
Goldberg S, Coulombre A (1972) Topographical development of the nerve fiber layer in the chick retina. J Comp Neurol 146:507–517
Halfter W (1987) Anterograde tracing of retinal axons in the avian embryos by low molecular weight derivatives of biotin. Dev Bio 1119:322–335
Halfter W, Deiss S (1986) Axonal pathfinding in organ-cultured embryonic avian retinae. Dev Biol 114:296–310
Halfter W, Deiss S, Schwarz U (1985) The formation of the axonal pattern in embryonic avian retina. J Comp Neurol 232:466–480
Hayat M (1981) Fixation for Electron Microscopy. Academic Press, New York London Toronto Sidney San Francisco
Henke-Fahle S, Bonhoeffer F (1983) Inhibiton of axonal growth by a monoclonal antibody. Nature 303:65–67
Henke-Fahle S, Reckhaus W, Babiel R (1984) Influence of various glycoprotcin antibodies on axonal outgrowth from the chick retina. In: Developmental Neuroscience: Physiological, Pharmacological and Clinical Aspects, Elsevier, Amsterdam New York, pp 393–398
Hopkins J, Ford-Holevinsky T, McCoy J, Agranoff B (1985) Lainin and optic nerve regeneration in the goldfish. J Neurosci 5:3030–3038
Kurkinen M, Alitalo K. Vaheri A, Stenman S, Saxen L (1979) Fibronectin in the development of the chick eye. Dev Biol 69:589–600
Lander A, Fuji D, Reichardt L (1985) Laminin is associated with the “neurite outgrowth-promoting factors” found in conditioned media. Proc Natl Acad Sci USA 82:2183–2189
Liesi P (1985) Do neurons in the vertebrate CNS migrate on laminin? EMBO J 4:1163–1170
Liesi P, Dahl D, Vahcri A (1983) Laminin is produced early by astrocytes in primary culture. J Cell Biol 96:920–924
Luft J (1971) Ruthenium red and violet II. Fine structural localization in animal tissues. Anat Rec 171:369–416
Matsusaka T (1971) The fine structure of the inner limiting membrane of the rat retina as revealed by ruthenium red staining. J Ultrastruct Res 36:312–317
Prada C, Puelles L, Genis-Galvez J (1981) A golgi study on the early sequence of differentiation of ganglion cells in the chick embryo retina. Anat Embryol 161:305–317
Rogers Sh, Letourneau P, Palm S, McCarthy J, Furcht L (1983) Neurite extension by peripheral and central nervous system neurons in response to substratum bound fibronectin. Dev Biol 98:212–220
Rogers Sh, Edson K, Letouneau P, McLoon St (1986) Distribution of laminin in the developing peripheral nervous system of the chick. Dev Biol 111:429–435
Rutishauser U, Tiery J, Brackenbury R, Edelman G (1978) Adheion among neural cells of the chick embryo. III. Relationship of the surface molecule CAM to cell adhesion and the development of histotypic patterns. J Cell Biol 79:371–380
Schiff R, Rosenbluth J (1986) Ultrastructural localization of laminin in rat sensory ganglia. J Histochem Cytochem 34:1691–1699
Silver J, Rutishauser U (1984) Guidance of optic axons in vivo by preformed adhesive pathways of neuroepithelial endfeet. Dev Biol 106:485–499
Silver J, Sidman R (1980) A mechanism for the guidance and topographic patterning of retinal ganglion cell axons. J Comp Neuol 189:101–111
Singer M, Nordlander R, Edgar M (1979) Axonal guidance during cmbryogenesis and regeneration in the spinal cord of the newt. The blueprint hypothesis of neuronal pathway patterning. J Comp Neurol 185:1–22
Smalheiser N, Crain S, Reid L (1984) Laminin as a substrate for retinal axons in vitro. Dev Brain Res 12:136–140
Stow J, Swada H, Farquhar M (1985) Basement membrane heparan sulfate proteoglycans are concentrated in the laminae rarae and in podocytes of the rat renal glomerulus. Proc Natl Acad Sci USA 82:3296–3300
Thanos S, Bonhoeffer F, Rutishauser U (1984) Fiber-fiber interaction and tectal cues influence the development of retinotectal projection. Proc Natl Acad Sci USA 82:1906–1910
Timpl R, Rohde H, Robey P, Rennard S, Foidart J, Martin G (1979) Laminin — a glycoprotein from basement membranes. J Biol Chem 254:9933–9937
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Halfter, W., Fua, C.S. Immunohistochemical localization of laminin, neural cell adhesion molecule, collagen type IV and T-61 antigen in the embryonic retina of the Japanese quail by in vivo injection of antibodies. Cell Tissue Res. 249, 487–496 (1987). https://doi.org/10.1007/BF00217320
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00217320