Summary
During secondary neurulation in the mouse, the neural tube develops from the tail bud by caudal extension of the primary neurocoele. The mesenchymal cells of the tail bud become radially arranged around the neurocoele and undergo a mesenchymal to epithelial transformation to form a neuroepithelium. In order to study the expression of glycoconjugates during the morphogenesis of the secondary neural tube, 14 lectins were applied to serial sections of tail buds at various stages of development. In general, binding was fairly homogeneous during the early stages of tail bud development. However, as development progressed, several lectins became localized to specific structures. The changes were observed to parallel the ongoing development of the secondary neuraxis. sWGA, which is N-acetylglucosamine (GlcNAc) specific, bound mainly to the luminal surface of the secondary neurocoele and to a lesser extent, the notochord. WGA, which has both GlcNAc and sialic acid specificities, showed most intense binding at the luminal and abluminal surfaces of the secondary neurocoele. Binding by the lectin PNA was restricted to the extracellular matrix around the developing secondary neural tube. A comparison of the lectin binding patterns in mouse with those previously reported in chick, demonstrates a less elaborate pattern of lectin binding in murine embryos. This may suggest a less complex expression of glycoconjugates in rodents, in keeping with their comparatively simpler mechanism of secondary neurulation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Currie JR, Maylie-Pfenninger M-F, Pfenninger KH (1984) Developmentally regulated plasmalemmal glycoconjugates of the surface and neural ectoderm. Dev Biol 106:109–120
Criley BR (1969) Analysis of the embryonic sources and mechanisms of development of levels of chick neural tubes. J Morphol 128:465–502
Damjanov I (1987) Biology of disease. Lectin cytochemistry and histochemistry. Lab Invest 57:5–20
Dryden RJ (1980) Spina bifida in chick embryos: ultrastructure of open neural defects in the transitional region between primary and secondary modes of neural tube formation. In: Persaud TVN (ed) Neural and Behavioral Teratology, vol 4. University Park Press, Baltimore, pp 75–100
Griffith CM, Wiley MJ (1989) Distribution of cell surface glycoconjugates during secondary neurulation in the chick embryo. Anat Rec, in press
Holthofer H, Virtanen I (1989) Glycosylation of developing human glimeruli: Lectin binding sites during cell induction and maturation. J Histochem Cytochem 35:33–37
Jelinek R, Seichert V, Klika A (1969) Mechanism of morphogenesis of caudal neural tube in the chick embryo. Folia Morphol 17:355–367
Kapron-Bras CM, Trasler DG (1988) Histological comparison of the effects of the splotch gene on the closure of the mouse neural tube. Teratology 37:389–399
Klein G, Langegger M, Goridis C, Ekblom P (1988) Neural adhesion molecules during embryonic induction and development of the kidney. Development 102:749–761
Kuhlmann WD, Krishan R (1981) Resin embedment of organs and postembedment localization of antigens by immunoperoxidase methods. Histochemistry 72:377–389
Lee H-Y (1976) Inhibition of neurulation and interkinetic nuclear migration in explanted early chick embryos. Dev Biol 48:392–399
Lee H-Y, Nagele RG Jr, Kalmus GW (1976a) Further studies on neural tube defects caused by concanavalin A in early chick embryos. Experientia 32:1050–1052
Lee H-Y, Sheffield JB, Nagele RG Jr, Kalmus GW (1976b) The role of extracellular material in chick neurulation. I. Effect of concanavalin A. J Exp Zool 198:261–266
McLone DG, Knepper PA (1986) Role of complex carbohydrates and neurulation. Pediatr Neurosci 12:2–9
Roth J (1978) The Lectins. Molecular probes in cell biology and membrane research. Experimental Pathology, Suppl 3. VEB Gustav Fischer, Jena
Sadler TW (1978) Distribution of surface coat material on fusing neural folds of mouse embryos during neurulation. Anat Rec 191:345–350
Sanders EJ (1986) Cytochemistry of the cell surface and extracellular matrix during early embryonic development. Prog Histochem Cytochem 16:1–57
Scheenwolf GC (1977) Tail (end) bud contributions to the posterior region of the chick embryo. J Exp Zool 201:227–246
Schoenwolf GC (1978) Effects of complete tail bud extirpation on early development of the posterior region of the chick embryo. Anat Rec 193:131–148
Schoenwolf GC (1979) Histological and ultrastructural observations of tail bud formation in the chick embryo. Anat Rec 193:131–148
Schoenwolf GC (1984) Histological and ultrastructural studies of secondary neurulation in mouse embryos. Am J Anat 169:361–376
Schoenwolf GC, DeLongo J (1980) Ultratructure of secondary neurulation in the chick embryo Am J Anat 158:43–63
Shedden PM, Wiley MJ (1987) Early stages of development in the caudal neural tube of the golden Syrian hamster (Mesocritus auratus). Anat Rec 219:180–185
Smits-van Prooije AE, Poelman RE, Gesink AF, van Groeningen MJ, Vermeij-Keers Chr (1986) The cell surface coat in neurulating mouse and rat embryos, studied with lectins. Anat Embryol 175:111–117
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Griffith, C.M., Wiley, M.J. The distribution of cell surface glycoconjugates during mouse secondary neurulation. Anat Embryol 180, 567–575 (1989). https://doi.org/10.1007/BF00300554
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00300554