Summary
The structure of guppy (Poecilia reticulata) spermatogonia and spermatocytes has been studied using electron microscopy. The spermatogonia, situated at the apex of the seminiferous tubule, are almost all surrounded by a network of Sertoli cells; they have very diffuse chromatin and one or two large nucleoli. The cytoplasm contains relatively few organelles, although annulate lamellae are found. The mitochondria have few cristae and are concentrated at one pole of the cell; they are sometimes found with intermitochondrial cement. These spermatogonia are separated from each other, having no intercellular bridges or inclusion in Sertoli cells, and are relatively undifferentiated; they correspond to stem cells. The spermatogonia beneath the apex are organized into cysts. First-generation spermatogonia are more dense and heterogeneous, their nuclei becoming smaller and their chromatin becoming denser during successive generations. In spermatocytes, the synaptinemal complex exists as a modified form until metaphase. The concentration of organelles in the cytoplasm increases and the organelles become more diversified as spermatogenesis progresses. Many cytoplasmic bridges are observed (several per cell), indicating that the cells remain in contact after several divisions. These changes in germ cell structure have been related to some of the characteristic features of spermatogenesis in guppy, e.g. the large number of spermatogonial generations and the complexity of spermiogenesis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
André J (1962) Contribution à la connaissance du chondriome. Etude de ses modifications ultrastructurales pendant la spermatogenèse. J Ultrastruct Res Suppl 3:1–185.
Billard R (1969a) La spermatogenèse du Poecilia reticulata. I — Estimation du nombre de générations goniales et rendement de la spermatogenèse. Ann Biol Anim Biochim Biophys 9:251–271.
Billard R (1969b) Hypophysectomie et spermatogenèse chez Poecilia reticulata. CR Acad Sci Paris 268:1856–1859.
Billard R (1970a) La spermatogenèse chez Poecilia reticulata. IV — La spermiogenèse. Etude structurale. Ann Biol Anim Biochim Biophys 10:493–510.
Billard R (1970b) La spermatogenèse de Poecilia reticulata. III -Ultrastructure des cellules de Sertoli. Ann Biol Anim Biochim Biophys 10:37–50.
Billard R, Fléchon JE (1969) Spermatogonies et spermatocytes flagellés chez Poecilia reticulata (poisson Téléosteen Cyprinodontiforme). Ann Biol Anim Biochim Biophys 9:281–286.
Billard R, De Kinkelin P (1970) Stérilisation des testicules de guppies par des doses non léthales de parathion. Ann Hydrobiol 1:91–99.
Billard R, Breton B, Jalabert B (1970) Inhibition de la spermatogenèse du guppy (Poisson Cyprinodontidae) par le méthallibure. Ann Biol Anim Biochim Biophys 10:511–515.
Billard R, Breton B, Jalabert B (1973) Le glycogène au cours de la formation des spermatozoïdes et de leur transit dans le tractus génital femelle chez le guppy (poisson Poecilidae). Ann Biol Anim Biochim Biophys 11:167–174.
Billard R, Fostier A, Weil C, Breton B (1982) Endocrine control of spermatogenesis in teleost fish. Can J Fish Aquat Sci 39:65–79.
Bruslé S (1982) Contribution à la connaissance de la sexualité des poissons téléostéens marins gonochoriques (Mugilidés) et hermaphrodites (Serranidés). Thèse Doct Sci Univ Perpignan, 360 pp.
Clerot JC (1971) Les ponts intercellulaires du testicule de gardon: organisation syncitiale et synchronie de la différenciation des cellules germinales. J Ultrastruct Res 37:690–703.
Clerot JC (1976) Les groupements mitochondriaux des cellules germinales des poissons téléostéens Cyprinidés. I — Etude ultrastructurale. J Ultrastruct Res 54:461–475.
Dulzetto F (1933) La struttura del testicolo di Gambusia holbrookii e la sua evoluzione in rapporto con la sviluppo del gonopodia. Arch Zoolltal 19:405–437.
Dym M, Fawcett W (1971) Further observations on the numbers of spermatogonia, spermatocytes and spermatids connected by intercellular bridges in the mammalian testis. Biol Reprod 4:195–215.
Fawcett DW (1956) The fine structure of chromosomes in the meiotic prophase of vertebrate spermatocytes. J Biophys Biochem Cytol 2:403.
Fawcett DW, Ito S, Slautterback D (1959) The occurrence of intercellular bridges in groups of cells exhibiting synchronous differentiation. J Biophys Biochem Cytol 5:453–460.
Flickinger C, Fawcett DW (1967) Junctional specializations of Sertoli cells in the seminiferous epithelium. Anat Rec 158:207–222.
Follénius E (1965) Cytologie fine des spermatocytes de l'Epinoche (Gasterosteus aculeatus): échanges nucléo-cytoplasmiques et formation d'amas de mitochondries. CR Acad Sci Paris 261:4849–4852.
Grier HJ (1975a) Aspects of germinal cyst and sperm development in Poecilia latipinna (Teleostei Poeciliidae). J Morphol 146:229–250.
Grier HJ (1975b) Spermiogenesis in the teleost Gambusia affinis with particular reference to the role played by microtubules. Cell Tissue Res 165:89–102.
Grier HJ (1981) Cellular organization of the testis and spermatogenesis in fishes. Am Zool 21:345–357.
Grier HJ, Linton JR, Leatherland JF, de Vlaming VL (1980) Structural evidence for two different testicular types in teleost fishes. Am J Anat 159:331–345.
Holstein AF (1968) Zur trage der lokalen Steuerung der Spermatogenese beim Dornhai (Squalus acanthias L.). Z Zellforsch 93:265–281.
Hurk R van Den (1973) The localisation of steroidogenesis in the testes of oviparous and viviparous teleosts. Proc K Ned Akad Wet Ser C 76:270–279.
Hurk R van Den, Lambert JGD, Peute J (1982) Steroidogenesis in the gonads of rainbow trout fry (Salmo gairdneri) before and after the onset of gonadal sex differentiation. Reprod Nutr Dev 22:413–425.
Jones P (1962) Paramitotic granulation and ribosome bodies in erythroblasts. J Ultrastruct Res 7:308–315.
Lofts B (1968) Patterns of testicular activity. In: Barrington E, Jorgensen CB (eds) Perspectives in endocrinology. Acad Press London, New York, pp 236–304.
Marcaillou C, Szöllösi A (1980) The blood testis barrier in a nematode and a fish: a generalizable concept. J Ultrastruct Res 70:128–136.
Mattéi C, Boisson C, Mattéi X (1967) Présence de lamelles annelées dans les spermatocytes de “Lycodontis afer” (Muraenidae). CR Soc Biol 161:1761–1763.
Nebel BR (1960) On the structure of mammalian chromosomes during spermatogenesis and after radiation with special reference to cores. Quat Congr Int Microsc Electron, Berlin 1958.
Oakley HA, Jones GH (1982) Meiosis in Mesostoma ehrenbergii ehrenbergii (Turbellaria, rhabdocoela). I-Chromosome pairing, synaptonemal complexes and chiasma localization in spermatogenesis. Chromosoma 85:311–322.
Porte A, Follénius E (1960) La spermiogenèse chez Lebistes reticulatus. Etude au microscope électronique. Bull Soc Zool Fr 85:82–88.
Roosen-Runge EC (1977) The process of spermatogenesis in animals. Cambridge Univ. Press, Cambridge, London, New York, Melbourne.
Russo J, Pisano A (1973) Some ultrastructural characteristics of Platipoecilus maculatus spermatogenesis. Boll Zool 40:201–207.
Schjeide A, Nicholls T, Graham G (1972) Annulate lamellae and chromatoid bodies in the testes of a cyprinid fish (Pimephales otatus). Z Zellforsch 129:1–10.
Stanley HP (1966) The structure and the development of the seminiferous follicle in Scyliorhinus caniculus and Torpedo marmorata (Elasmobranchii). Z Zellforsch 75:453–468.
Vaupel J (1929) The spermatogenesis of Lebistes reticulatus. J Morphol 47:555–587.
Westergaard M, Wettstein von D (1972) The synaptinemal complex. Ann Rev Gen 6:71–110.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Billard, R. Ultrastructural changes in the spermatogonia and spermatocytes of Poecilia reticulata during spermatogenesis. Cell Tissue Res. 237, 219–226 (1984). https://doi.org/10.1007/BF00217139
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00217139