Summary
In urodele amphibians, the lack of a reliable germ cell marker restricts the experimental study of the germ lineage. In the present work, we conducted genetic and histological analyses in order to demonstrate that melanin from oocytes constitutes a germ cell marker available for intraspecific experiments in Ambystoma mexicanum. Then, using this marker, we implanted germ cells from undifferentiated gonads (stage 48) into the blastocoel of host embryos and investigated their fate and determined state. Our results show that, from this stage on, the donor cells do not differentiate into other cell types; therefore, they are restricted in developmental capacity and irreversibly determined as germ cells. On the other hand, exogenous germ cells were found in an isotopic position until the young tail-bud stage, and then were found in an ectopic position; these results suggest that, from the middle tail-bud stage on, an active process contributes to migration of primordial germ cells to the gonadal territory.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Benjamin CP (1970) The biochemical effects of the “d”, “m” and “a” genes on pigment cell differentiation in the axolotl. Dev Biol 23:62–85
Bogomolova VI, Korochkine LI (1973) Development of pigmentation after transplantation of presumptive epidermis between embryos of white axolotls Ambystoma mexicanum of different ages. Ontogene 4:420–424
Borack LI (1972) Gene action on proliferation and migration in developing neural crest of white and black axolotls, Ambystoma mexicanum Shaw. J Exp Zool 179:289–298
Boucaut JC (1974) Etude autoradiographique de la distribution des cellules embryonnaires isolées, transplantées dans le blastocèle chez Pleurodeles waltlii Michah. Ann Embryol Morphol 7:7–50
Boucaut JC (1980) Transplantation intrablastocoelienne de cellules germinales chez Pleurodeles waltlii. Arch Anat Microsc Morphol Exp 69:323
Bounoure L (1935) Une preuve expérimentale du rôle du déterminant germinal chez la grenouille rousse. C R Acad Sci [III] 201:1223–1225
Capuron A, Maufroid JP (1981) Rôle de l'endoderme dans la détermination du mésoderme ventro-latéral et des cellules germinales primordiales chez Pleurodeles waltlii. Arch Anat Microsc Morphol Exp 70:219–226
Delbos M, Gipouloux JD, Guennoun S (1982) Intraendodermal and intramesenteric migration of anuran amphibian germ cells. J Morphol 171:355–360
Donovan PJ, Stott D, Cairns LA, Heasman J, Wylie CC (1986) Migratory and postmigratory mouse primordial germ cells behave differently in culture. Cell 44:831–838
Dournon C (1980) Prolifération des cellules germinales chez les larves de Pleurodeles waltlii Michah. dans les conditions normales ou expérimentales d'élevage. Arch Anat Microsc Morphol Exp 69:322
Dunson MK (1974) Ultrastructure of pigment cells in wild type and color mutants of mexican axolotl. Cell Tissue Res 151:259–268
Eddy EM (1975) Germ plasm and the differentiation of the germ cell line. Int Rev Cytol 43:229–280
Fazel AR, Schulte BA, Thompson RP, Spicer SS (1987) Presence of a unique glycoconjugate on the surface of rat primordial germ cells during migration. Cell Differ 21:199–211
Fujimoto T, Yoshinaga K, Kono I (1985) Distribution of fibronectin on the migratory pathway of primordial germ cells in mice. Anat Rec 211:271–278
Gantier P, Jollés G (1970) Pigments — Réactions argentaffines. In: Gauthier-Villars (ed) Histochimie normale et pathologique, vol 2. Paris, pp 1632–1633
Giorgi P (1974) Germ cell migration in toad (Bufo bufo): effect of ventral grafting of embryonic dorsal regions. J Embryol Exp Morphol 31:75–87
Gipouloux JD (1970) Recherches expérimentales sur l'origine, la migration des cellules germinales et l'édification des crêtes génitales chez les Amphibiens Anoures. Bull Biol Fr Belg 104:21–93
Gipouloux JD, Girard C (1986) Effects of the removal of neural crest anlage upon endodermal morphogenesis and primordial germ cell migration in toad embryo. Roux's Arch Dev Biol 195:355–358
Harrison RG (1969) Harrison stages and description of the normal development of the spotted salamander Amblystoma punctatum (Linn.). In: Wilens S (ed) Organization and development of the embryo. Yale University Press, New Haven, London, pp 44–66
Harsa King ML (1978) Experimental studies on a mutant gene “a” causing albinism in axolotl, Ambystoma mexicanum. Dev Biol 62:370–388
Heasman J, Hynes RO, Swan AP, Thomas V, Wylie CC (1981) Primordial germ cells of Xenopus embryos: the role of fibronectin in their adhesion during migration. Cell 27:437–447
Heasman J, Wylie CC, Hausen P, Smith JC (1984) Fates and states of determination of single vegetal pole blastomeres of Xenopus laevis. Cell 37:185–194
Heasman J, Wylie CC, Holwil S (1985) The importance of basement membranes in migration of primordial germ cells in Xenopus laevis. Dev Biol 112:18–29
Holtfreter J (1944) Experimental studies on the development of the pronephros. Rev Can Biol 3:220–250
Houillon C (1956) Recherches expérimentales sur la dissociation médullo-corticale dans l'organogenèse des gonades chez le Triton, Pleurodeles waltlii Michah. Bull Biol Fr Belg 90:359–445
Humphrey RR (1967) Albino axolotls from an albinos tiger salamander through hybridization. J Hered 58:95–101
Ikenishi K, Nieuwkoop PD (1978) Location and ultrastructure of primordial germ cells (PGCs) in Ambystoma mexicanum. Dev Growth Differ 20:1–9
Kamimura M, Ikenishi K, Kotani M, Matsuno T (1976) Observations on the migration and proliferation of gonocytes in Xenopus laevis. J Embryol Exp Morphol 36:197–207
Keller RE, Lofberg J, Spieth J (1982) Neural crest cell behaviour in white and dark embryos of Ambystoma mexicanum: epidermal inhibition of pigment cell migration in the white axolotl. Dev Biol 89:179–195
Lesimple M, Dournon C, Labrousse M, Houillon C (1987) Production of fertile salamanders by transfer of germ cell nuclei into eggs. Development 100:471–477
Lesimple M, David JC, Dournon C, Lefresne J, Houillon C, Signoret J (1989) Evidence for a change in expression of DNA ligase genes in the Pleurodeles waltlii germ line during gonadogenesis. Dev Biol 135:241–249
Mangold O (1923) Transplantationsversuche zur Frage der Spezifität und der Bildung der Keimblatter bei Triton. Roux's Arch Dev Biol 100:198–301
Maufroid JP, Capuron A (1972) Migration des cellules germinales primordiales chez l'Amphibien Urodèle Pleurodeles waltlii Michah. Roux's Arch Dev Biol 170:234–243
Maufroid JP, Capuron A (1973) Mise en évidence expérimentale de cellules germinales dans le mésoderme latéral présomptif de la jeune gastrula de Pleurodeles waltlii (Amphibien Urodèle). C R Acad Sci [III] 276:821–824
Maufroid JP, Capuron A (1977) Induction du mésoderme et des cellules germinales primordiales par l'endoderme chez Pleurodeles waltlii (Amphibien Urodèle): évolution au cours de la gastrulation. C R Acad Sci [III] 284:1713–1716
Michael P (1984) Are the primordial germ cells (PGCs) in Urodela formed by the inductive action of the vegetative yolk mass? Dev Biol 103:109–116
Nieuwkoop PD (1947) Experimental investigations on the origin and determination of the germ cells, and on the development of the lateral plates and germ ridges in the urodeles. Arch Neer Zool 8:1–205
Nieuwkoop PD (1969a) The formation of the mesoderm in urodelean amphibians. I. Induction by the endoderm. Roux's Arch Dev Biol 162:341–373
Nieuwkoop PD (1969b) The formation of the mesoderm in urodelean amphibians. II. The origin of the dorso-ventral polarity of the mesoderm. Roux's Arch Dev Biol 163:298–315
Nieuwkoop PD, Ubbels GA (1972) The formation of the mesoderm in urodelean amphibians. IV. Qualitative evidence for the purely “ectodermal” origin of the entire mesoderm and of the pharyngeal endoderm. Wilhelm Roux's Arch 169:185–199
Smith LD (1964) A test of the capacity of presumptive somatic cells to transform into primordial germ cells in the mexican axolotl. J Exp Zool 156:229–242
Snow MHL, Monk M (1981) Emergence and migration of mouse primordial germ cells. In: McLaren A, Wylie CC (eds) Current problems in germ cell differentiation. Cambridge University Press, Cambridge, pp 115–135
Steinberg M (1957) (Report by Ebert ID) Carnegie Inst Wash Year Book 56:347
Stevens LC (1964) Experimental production of testicular teratomas in mice. Proc Natl Acad Sci USA 52:654–661
Stevens LC (1966) Development of resistance to teratocarcinogenesis by primordial germ cells in mice. J Natl Cancer Inst 37:859–867
Subtelny S, Penkala JE (1984) Experimental evidence for a morphogenetic role in the emergence of primordial germ cells from the endoderm in Rana pipiens. Differentiation 26:211–219
Sutasurya LA, Nieuwkoop PD (1974) The induction of the primordial germ cells in the urodeles. Roux's Arch Dev Biol 175:199–220
Wakahara M, Neff AW, Malacinsky GM (1984) Topology of the germ plasm and development of primordial germ cells in inverted amphibian eggs. Differentiation 26:203–210
Wartenberg H (1983) Germ cell migration induced and guided by somatic cell interactions. Bibl Anat 24:93–110
Wylie CC, Heasman J, Snape A, O'Driscoll M, Holwill S (1985a) Primordial germ cells of Xenopus laevis are not irreversibly determined early in development. Dev Biol 112:66–72
Wylie CC, Stott D, Donovan PJ (1985b) Primordial germ cell migration. In: Browder L (ed) Developmental biology: a comprehensive synthesis, vol. 2. The cellular basis of morphogenesis. Plenum Press, New York, pp 433–448
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lesimple, M., Dournon, C. & Houillon, C. Melanin as a natural germ cell marker for intraspecific transplantation experiments in Ambystoma mexicanum (Urodela, Amphibia). Roux's Arch Dev Biol 198, 420–429 (1990). https://doi.org/10.1007/BF00376161
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00376161