Summary
Isotopic and isochronic transplantation of fragments of quail neural tube into chick demonstrates that neural and glial cells of the entire ganglion of Remak (RG) arise from the lumbo-sacral level of the neural crest.
The ganglioblasts first accumulate in the mesorectum (stage 24 of Hamburger and Hamilton, in the chick and I8 of Zacchei in the quail) and subsequently migrate cranially.
Histochemical studies have been carried out on the rectal and cloacal parts of the quail RG at various stages of development. Cholinesterase activity can be detected as soon as the primordium is in place and the intensity of the reaction increases rapidly. During morphogenesis of the cloacal region the RG and the pelvic plexus become intimately associated. Catecholamine-containing cells are found first in the pelvic plexus, then in the cloacal part of the RG. Fluorescent cells are often grouped close to blood vessels and associated with non-fluorescent ganglia. Cranial to the level of the bursa of Fabricius, the RG is composed only of non-fluorescent neurons whatever the developmental stage considered (up to 1 day after hatching).
The developmental capabilities of the RG of the 5-day quail have been tested by transplanting various parts of the hind-gut with the dorsal mesentery onto the chorio-allantoic membrane. Catecholamine-containing cells develop only in grafts including the cloacal region.
By using quail-chick chimaerae in which the RG belongs to the quail while mesentery and gut are of chick origin, it was possible to show that neurons which develop in the graft (i.e. in the absence of preganglionic innervation), send nerve fibres into the gut wall. Moreover some neuroblasts located in the primordium of the RG migrate into the gut wall and give rise to some enteric ganglion cells. The contribution of the lumbo-sacral neural crest to the enteric ganglia, by this route, is discussed.
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Abbreviations
- FIF:
-
formol-induced fluorescence
- H & H:
-
Hamburger and Hamilton
- Z:
-
Zacchei
- CAM:
-
chorio-allantoic membrane
- SIF:
-
small intensely fluorescent (cells)
References
Abel, W.: Further observations on the development of the sympathetic nervous system in the chick. J. Anat. Physiol.47, 35–72 (1913)
Bennett, T., Malmfors, T.: The adrenergic nervous system of the domestic fowl (Gallus domesticus L.). Z. Zellforsch.106, 22–50 (1970)
Browne, M.J.: A study of the sacral autonomic nerves in a chick and a human embryo. Anat. Rec.116, 189–203 (1953)
Cantino, D.: An histochemical study of the nerve supply to the developing alimentary tract. Experientia (Basel)26, 766–767 (1970)
Costa, M.: La chaîne ganglionnée de Remak chez le poulet: les neurones adrénergiques. C.R. Ass. Anat.149, 720–724 (1970)
Elfvin, L.G., Hökfelt, T., Goldstein, M.: Fluorescence microscopical, immunohistochemical and ultrastructural studies on sympathetic ganglia of the guinea pig, with special reference to the SIF cells and their catecholamine content. J. Ultrastruct. Res.51, 377–391 (1975)
Enemar, A., Falck, B., Håkanson, R.: Observations on the appearance of norepinephrine in the sumpathetic nervous system of the chick embryo. Dev. Biol.11, 268–283 (1965)
Falck, B.: Observations on the possibilities of the cellular localization of monoamines by a fluorescence method. Acta physiol. scand.56, suppl. 197, 1–25 (1962)
Feulgen, R., Rossenbeck, H.: Mikroskopisch-chemischer Nachweis einer Nucleinsäure vom Typus der Thymonucleinsäure und die darauf beruhende elektive Färbung von Zellkernen in mikroskopischen Präparaten. Hoppe-Seyler's Z. Physiol. Chem.135, 203–252 (1924)
Hamburger, V., Hamilton, H.L.: A series of normal stages in the development of the chick embryo. J. Morphol.88, 49–92 (1951)
Hammond, W.S., Yntema, C.L.: Depletions in the thora-columbar sympathetic system following removal of neural crest in the chick. J. Comp. Neurol.86, 237–265 (1947)
His, W.Jr.: Ueber die Entwicklung des Bauch Sympathicus beim Hühnchen und Menschen. Arch. Anat. Physiol., Anat. Abt., 137–170 (1897) in Romanoff A.L.: The avian embryo: structural and functional development, New York: The Macmillan Company 1960
Jones, D.S.: The origin of the vagi and the parasympathetic ganglion cells of the viscera of the chick. Anat. Rec.82, 185–197 (1942)
Karnovsky, M.J., Roots, L.: A “direct-coloring” thiocholine method for cholinesterases. J. Histochem. Cytochem.,12, 219–221 (1964)
Kuntz, A.: The development of the sympathetic nervous system in birds. J. Comp. Neurol.20, 283–308 (1910)
Le Douarin, N.: Particularités du noyau interphasique chez la caille japonaise (Coturnix coturnix japonica). Utilisation de ces particularités comme “marquage biologique” dans des recherches sur les interactions tissulaires et les migrations cellulaires au cours de l'ontogenèse. Bull. Biol. Fr. Belg.103, 435–452 (1969)
Le Douarin, N.: Caractéristiques ultrastructurales du noyau interphasique chez la caille et chez le poulet et utilisation des cellules de caille comme “marqueurs biologiques” en embryologie expérimentale. Ann. Embryol. Morph.4, 125–135 (1971)
Le Douarin, N.: A biological cell labelling technique and its use in experimental embryology. Dev. Biol.30, 217–222 (1973)
Le Douarin, N.: Cell recognition based on natural morphological nuclear markers. Med. Biol.52, 281–319 (1974)
Le Douarin, N., Fontaine, J., Le Lièvre, C.: New studies on the neural crest origin of the avian ultimobranchial glandular cells. Interspecific combinations and cytochemical characterization of C cells based on the uptake of biogenic amine precursors. Histochemie38, 297–305 (1974)
Le Douarin, N., Teillet, M.-A.: The migration of neural crest cells to the wall of the digestive tract in avian embryo. J. Embryol. Exp. Morphol.30, 31–48 (1973)
Le Douarin, N.M., Teillet, M.-A.: Experimental analysis of the migration and differentiation of neuroblasts of the autonomic nervous system and of neurectodermal mesenchymal derivatives, using a biological cell marking technique. Dev. Biol.41, 162–184 (1974)
Mayor, H.D., Hampton, J.C., Rosario, B.: A simple method for removing the resin from epoxy embedded tissue. J. Biophys. Biochem. Cytol.9, 909–910 (1961)
Nolf, P.: Les nerfs extrinsèques de l'intestin chez l'Oiseau. Le nerf de Remak. Arch. int. Physiol.39, 227–256 (1934)
Remak, R.: Ueber ein selbständiges Darmnervensystem. G. Reimer Berlin (1847) in Romanoff A.L.: The avian embryo: structural and functional development. New York: The Macmillan Company 1960
Smith, J., Cochard, P., Le Douarin, N.M.: Development of choline acetyltransferase and cholinesterase activities in enteric ganglia derived from presumptive adrenergic and cholinergic levels of the neural crest. Cell Differ.6, 199–216 (1977)
Szantroch, Z.: Morphologie der Darmnerven beim Hühnchen. Bull. int. Acad. Cracovie, Ser. B., 211–281 (1927)
Teillet, M.-A., Le Douarin, N.: Détermination par la méthode des greffes hétérospécifiques d'ébauches neurales de caille sur l'embryon de poulet, du niveau du névraxe dont dérivent les cellules médullo-surrénaliennes. Arch. Anat. Microsc. Morphol. Exp.63, 51–62 (1974)
Tello, J.F.: La précocité embryonnaire du plexus d'Auerbach et ses différences dans les intestins antérieur et postérieur. Trab. Lab. Invest. Biol. Univ. Madrid22, 317–328 (1924)
Ungewitter, L.H.: A urea silver nitrate method for nerve fibers and nerve endings. Stain Technol.26, 73–76 (1951)
Unsicker, K.: Chromaffin, small granule-containing and ganglion cells in the adrenal gland of reptiles. A comparative ultrastructural study. Cell Tiss. Res.165, 477–509 (1976)
Van Campenhout, E.: Le développement du système nerveux sympathique chez le poulet. Arch. Biol.42, 479–507 (1931)
Yntema, C.L., Hammond, W.S.: Experiments on the sacral parasympathetic nerves and ganglia of the chick embryo. Anat. Rec.115, p. 382 (1953)
Yntema, C.L., Hammond, W.S.: Experiments on the origin and development of the sacral autonomic nerves in the chick embryo. J. Exp. Zool.129, 375–413 (1955)
Zacchei, A.M.: Lo sviluppo embrionale della quaglia giapponese (Coturnix coturnix japonica T.S.) Arch. Anat.66, 36–62 (1961)
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Teillet, M.A. Evolution of the lumbo-sacral neural crest in the avian embryo: Origin and differentiation of the ganglionated nerve of Remak studied in interspecific quail-chick chimaerae. Wilhelm Roux' Archiv 184, 251–268 (1978). https://doi.org/10.1007/BF00848257
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DOI: https://doi.org/10.1007/BF00848257