Skip to main content
SpringerLink
Log in

Ultrastructure of the nephron of freshwater turtles, Pseudemys scripta elegans and Mauremys caspica

  • Published:
Cell and Tissue Research Aims and scope Submit manuscript

Summary

The nephrons of the freshwater turtles Pseudemys scripta elegans and Mauremys caspica consist of renal corpuscle, neck segment, proximal tubule, intermediate segment, distal tubule and collecting duct. The renal corpuscle has large and scarce capillaries with clear and dark fenestrated endothelial cells containing some rod-shaped bodies, a thin filtration barrier and a well-developed mesangium, the cells of which show secretory, phagocytic and contractile features, and in M. caspica a cilium. The podocytes with a well-developed Golgi apparatus seem to be active secretory cells. Numerous dense bodies similar to lysosomes, but not previously reported in vertebrates, are conspicuous in podocytes of M. caspica. The proximal tubule displays a well-developed brush border with long and densely-packed microvilli and no basal labyrinth; mitochondria are scattered throughout the cytoplasm. Several dense and clear vesicles related to the prominent endocytotic apparatus can be seen. Wavy filament bundles, not previously reported in vertebrate kidneys, can be observed in proximal tubule cells of M. caspica. Three regions can be distinguished in the well-developed intermediate segment as well as in the distal tubule; the latter has a few short microvilli or a smooth luminal surface and lateral interdigitated processes. The collecting duct, the cells of which contain numerous mucous droplets, is similar in both sexes; there is no sexual segment.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • Anderson E (1960) The ultramicroscopic structure of a reptilian kidney. J Morphol 106:205–240

    Google Scholar 

  • Anderson BG, Loewen RD (1975) Renal morphology of freshwater trout. Am J Anat 143:93–114

    Google Scholar 

  • Bulger RE, Dobyan DC (1982) Recent advances in renal morphology. Ann Rev Physiol 44:147–179

    Google Scholar 

  • Bulger RE, Trump BF (1968) Renal morphology of the English sole (Parophrys vetulus). Am J Anat 123:195–226

    Google Scholar 

  • Clothier RH, Worley RTS, Balls M (1978) The structure and ultrastructure of the renal tubule of the urodele amphibian, Amphiuma means. J Anat 127:491–504

    Google Scholar 

  • Cordier R (1928) Etudes histophysiologiques sur le tube urinaire des reptiles. Arch Biol 38:109–171

    Google Scholar 

  • Dantzler WH, Holmes WN (1974) Water and mineral metabolism in reptilia. In: Florkin M, Scheer BT (eds) Chemical zoology. Academic Press, New York London, pp 277–377

    Google Scholar 

  • Dantzler WH, Schmidt-Nielsen B (1966) Excretion in freshwater turtle (Pseudemys scripta) and desert tortoise (Gopherus agassizii). Am J Physiol 210:198–210

    Google Scholar 

  • Davis LE, Schmidt-Nielsen B (1967) Ultrastructure of the crocodile kidney (Crocodylus acutus) with special reference to electrolyte and fluid transport. J Morphol 121:255–276

    Google Scholar 

  • Davis LE, Schmidt-Nielsen B, Stolte H (1976) Anatomy and ultrastructure of the excretory system of the lizard, Sceloporus cyanogenys. J Morphol 149:279–326

    Google Scholar 

  • Del Conte E, Tamayo JG (1973) Ultrastructure of the sexual segments of the kidney in male and female lizards, Cnemidophorus l lemniscatus (L). Z Zellforsch 144:325–337

    Google Scholar 

  • De Ruiter AJH (1980) Changes in glomerular structure after sexual maturation and seawater adaptation in males of the euryhaline teleost Gasterosteus aculeatus L. Cell Tissue Res 206:1–20

    Google Scholar 

  • Ericsson JL, Trump BF (1969) Electron microscopy of the uriniferous tubules. In: Rouiller Ch, Muller AF (eds) The kidney. Academic Press, New York London, pp 351–447

    Google Scholar 

  • Farquhar MG, Wissig SL, Palade GE (1961) Glomerular permeability. I. Ferritin transfer across the normal glomerular capillary wall. J Exp Med 113:47–66

    Google Scholar 

  • Fox H (1977) The urinogenital system of reptiles. In: Gans C, Parsons TS (eds) Biology of the Reptilia. Academic Press, New York London, pp 1–57

    Google Scholar 

  • Gabri MS (1983a) Ultrastructure of the tubular nephron of the lizard Podarcis (= Lacerta) taurica. J Morphol 175:131–142

    Google Scholar 

  • Gabri MS (1983b) Seasonal changes in the ultrastructure of the kidney collecting tubule in the lizard Podarcis (= Lacerta) taurica. J Morphol 175:143–151

    Google Scholar 

  • Gabri MS, Butler RD (1984) The ultrastructure of the renal corpuscle of a lizard. Tissue Cell 16:627–634

    Google Scholar 

  • Ghadially FN (1982) Intracytoplasmic filaments. In: Clowes W (ed) Ultrastructural pathology of the cell and matrix. Butterworths, London, pp 629–686

    Google Scholar 

  • Giebisch G (1971) Renal potassium excretion. In: Rouiller C, Muller AF (eds) The kidney. Academic Press, New York, pp 329–378

    Google Scholar 

  • Hentschel H (1977) The kidney of Spinachia spinachia (L.) Flem. (Gasterosteidae, Pisces). Z Mikrosk Anat Forsch 91:4–21

    Google Scholar 

  • Hickman CP, Trump BF (1969) The kidney. In: Hoar WS, Randall JD (eds) Fish physiology. Academic Press, New York London, pp 91–239

    Google Scholar 

  • Kanwar YS, Farquhar MG (1979) Anionic sites in the glomerular basement membranes. In vivo and in vitro localization to the laminae rarae by cationic probe. J Cell Biol 81:137–153

    Google Scholar 

  • Latta H (1980) The multipotential nature of mesangial cells. Biol Cell 39:245–248

    Google Scholar 

  • Malnic G, Klose RM, Giebisch G (1966a) Micropuncture study of distal tubular potassium and sodium transport in rat nephron. Am J Physiol 211:529–547

    Google Scholar 

  • Malnic G, Klose RM, Giebisch G (1966b) Microperfusion study of distal tubular potassium and sodium transfer in rat kidney. Am J Physiol 211:548–559

    Google Scholar 

  • Meseguer J, Agulleiro B, Llombart Bosch A (1978a) Structure and ultrastructure of the frog's nephron (R. ridibunda). I. Renal corpuscle and ciliary neck. Morfol Normal Patol 1:295–308

    Google Scholar 

  • Meseguer J, Agulleiro B, Llombart Bosch A (1978b) Structure and ultrastructure of the frog's nephron (R. ridibunda). II. Proximal convoluted tubule, distal convoluted tubule and segment of connection. Morfol Normal Patol 2:41–60

    Google Scholar 

  • Minuth M, Schiller A, Taugner R (1981) The development of cell junctions during nephrogenesis. Anat Embryol 163:307–319

    Google Scholar 

  • Moffat DB (1981) New ideas on the anatomy of the kidney. J Clin Pathol 34:1197–1206

    Google Scholar 

  • Ottosen PD (1978) Ultrastructure and segmentation of microdissected kidney tubules in the marine flounder, Pleuronectes platessa. Cell Tissue Res 190:27–45

    Google Scholar 

  • Pak Poy RKE, Robertson JS (1957) Electron microscopy of the avian renal glomerulus. J Biophys Biochem Cytol 3:183–192

    Google Scholar 

  • Peek WD, McMillan DB (1979) Ultrastructure of the renal corpuscle of the garter snake Thamnophis sirtalis. Am J Anat 155:83–101

    Google Scholar 

  • Peek WD, Shivers RR, McMillan DB (1977) Freeze-fracture analysis of junctional complexes in the nephron of the garter snake, Thamnophis sirtalis. Cell Tissue Res 179:441–451

    Google Scholar 

  • Roberts JS, Schmidt-Nielsen B (1966) Renal ultrastructure and excretion of salt and water by three terrestrial lizards. Am J Physiol 211:476–486

    Google Scholar 

  • Romen W, Schultze B, Hempel K (1976) Synthesis of the glomerular basement membrane in the rat kidney. Autoradiographic studies with the light and electron microscope. Virchows Arch [Cell Pathol] 20:125–137

    Google Scholar 

  • Schmidt-Nielsen B, Davis LE (1968) Fluid transport and tubular intercellular spaces in reptilian kidney. Science 159:1105–1108

    Google Scholar 

  • Schmidt-Nielsen B, Skadhauge E (1967) Function of the excretory system of the crocodile (Crocodylus acutus). Am J Physiol 212:973–980

    Google Scholar 

  • Soares AMV, Fava-De-Moraes F (1983) Histochemistry of the kidney of the tropical lizard Tropidurus torquatus. Gebenbaurs Morphol Jahrb Leipzig 129:331–344

    Google Scholar 

  • Soares AMV, Fava-De-Moraes F (1984) Morphological and morphometrical study of the kidney of the male tropical lizard Tropidurus torquatus. Anat Anz 157:365–373

    Google Scholar 

  • Solomon SE (1985) The morphology of the kidney of the green turtle (Chelonia mydas L.). J Anat 140:355–369

    Google Scholar 

  • Stehbens WE (1965) Ultrastructure of the vascular endothelium in the frog. Q J Exp Physiol 50:375–384

    Google Scholar 

  • Taugner R, Schiller A, Ntokalon-Knittel S (1982) Cells and intercellular contacts in glomeruli and tubules of the frog kidney. A freeze-fracture and thin section study. Cell Tissue Res 226:589–608

    Google Scholar 

  • Trenchev P, Dorling J, Webb J, Holborow EJ (1976) Localization of smooth muscle-like contractile proteins in kidney by immunoelectron microscopy. J Anat 121:85–95

    Google Scholar 

  • Tyson GE (1977) Scanning electron microscopic study of the effect of vinblastine on podocytes of rat kidney. Virchows Arch [Cell Pathol] 25:105–116

    Google Scholar 

  • Tyson GE, Bulger RE (1972) Effect of vinblastine sulfate on the fine structure of cells of the rat renal corpuscle. Am J Anat 135:319–344

    Google Scholar 

  • Vasmant D, Maurice M, Feldmann G (1984) Cytoskeleton ultrastructure of podocytes and glomerular endothelial cells in man and in the rat. Anat Rec 210:17–24

    Google Scholar 

  • Webber WA, Lee J (1975) Fine structure of mammalian renal cilia. Anat Rec 182:339–344

    Google Scholar 

  • Wendelaar Bonga SE (1973) Morphometrical analysis with the light and electron microscope of the kidney of the anadromous threespined stickleback Gasterosteus aculeatus, form trachurus, from fresh water and from seawater. Z Zellforsch 137:563–588

    Google Scholar 

  • Zuasti A, Agulleiro B, Hernández F (1983) Ultrastructure of the kidney of the marine teleost Sparus auratus: The renal corpuscle and the tubular nephron. Cell Tissue Res 228:99–106

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Department of Cytology and Histology, University of Murcia, Murcia, Spain

    J. Meseguer, A. García Ayala & B. Agulleiro

Authors
  1. J. Meseguer
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. A. García Ayala
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. B. Agulleiro
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Meseguer, J., García Ayala, A. & Agulleiro, B. Ultrastructure of the nephron of freshwater turtles, Pseudemys scripta elegans and Mauremys caspica . Cell Tissue Res. 248, 381–391 (1987). https://doi.org/10.1007/BF00218206

Download citation

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF00218206

Key words

Search

Navigation