Skip to main content
SpringerLink
Log in

Observations on wallerian degeneration in explant cultures of cat sciatic nerve

  • Published:
Journal of Neurocytology

Summary

Wallerian degeneration was studiedin vitro using explant cultures of cat sciatic nerve. As these cultures contain no macrophages they highlight the responses of Schwann cells to myelin sheath breakdown. Although there were regional variations in the changes observed in these cultures with respect to time, the sequence of events which lead to Schwann cell proliferation and to fragmentation and liberation of myelin debris into the endoneurial space was established.

The initial event was rejection of myelin sheaths by Schwann cells. Liberated Schwann cells then proliferated within the basal lamina tube. In nerve fibres containing proliferating Schwann cells, myelin debris passed through breaks in the basal lamina tube into the endoneurial space. Schwann cells also escaped from the basal lamina tube with the myelin debris. Following the loss of the luminal contents the basal lamina tube collapsed and the intratubular Schwann cells formed bands of Büngner. The Schwann cells which migrated into the endoneurial space and subsequently onto the culture dish retained contact with each other.

These studies indicate that rejection of myelin internodes by their supporting Schwann cells set in train a series of events in which Schwann cells and degenerating myelin behaved as separate components. Schwann cells were not involved in phagocytosis or degeneration of myelin. We conclude that Schwann cell proliferation in Wallerian degeneration is directed towards re-establishing cellular continuity within the basal lamina tube which is lost when Schwann cells reject their myelin sheaths.

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

  • Abercrombie, M., Evans, D. H. L. &Murray, J. G. (1959) Nuclear multiplication and cell migration in degenerated unmyelinated nerves.Journal of Anatomy 93, 9–14.

    Google Scholar 

  • Abercrombie, M. &Johnson, M. L. (1942) The outwandering of cells in tissue cultures of nerves undergoing Wallerian degeneration.Journal of Experimental Biology 19, 266–86.

    Google Scholar 

  • Abercrombie, M., Johnson, M. L. &Thomas, G. A. (1949) The influence of nerve fibres on Schwann cell migration in tissue culture.Proceedings of the Royal Society of London, Series B 136, 448–60.

    Google Scholar 

  • Abercrombie, M. &Santler, J. E. (1957) An analysis of growth in nuclear proliferation during Wallerian degeneration.Journal of Cellular and Comparative Physiology 50, 429–50.

    Google Scholar 

  • Asbury, A. K. (1975) The biology of Schwann cells. InPeripheral Neuropathy, Vol. 1 (edited byDyck, P., Thomas, P. K. &Lambert, E. H.), pp. 201–12. Philadelphia: W. B. Sanders.

    Google Scholar 

  • Beuche, W. &Friede, R. L. (1984) The role of non-resident cells in Wallerian degeneration.Journal of Neurocytology 13, 767–96.

    Google Scholar 

  • Blakemore, W. F. &Crang, A. J. (1985) The use of cultured autologous Schwann cells to remyelinate areas of persistent demyelination in the central nervous system.Journal of Neurological Sciences 70, 207–23.

    Google Scholar 

  • Bunge, R. P. &Bunge, M. B. (1983) Interrelationship between Schwann cell function and extracellular matrix.Trends in NeuroSciences 6, 499–505.

    Google Scholar 

  • Hall, S. M. &Gregson, N. A. (1977) The effects of mitomycin C on the process of regeneration in the mammalian peripheral nervous system.Neuropathology and Applied Neurobiology 3, 65–78.

    Google Scholar 

  • Joseph, J. (1948) Changes in nuclear population following twenty-one days' degeneration in a nerve fibre consisting of small myelinated fibres.Journal of Anatomy 82, 146–52.

    Google Scholar 

  • Joseph, J. (1950) Further studies in changes of nuclear population in degenerating non-myelinated and finely myelinated nerves.Acta anatomica 9, 279–88.

    Google Scholar 

  • Meador-Woodruff, J. H., Yoshino, J. E., Bigbee, J. W., Lewis, B. L. &Devries, G. H. (1985) Differential proliferative responses of cultured Schwann cells to axolemma- and myelin-enriched fractions. II. Morphological studies.Journal of Neurocytology 14, 619–35.

    Google Scholar 

  • Pellegrino, R. G. &Spencer, P. S. (1985) Schwann cell mitosis in response to regenerating peripheral axonsin vivo.Brain Research 341, 16–25.

    Google Scholar 

  • Salzer, J. L. &Bunge, R. P. (1980) Studies of Schwann cell proliferation. I. An analysis in tissue culture of proliferation during development, Wallerian degeneration, and direct injury.Journal of Cell Biology 84, 739–51.

    Google Scholar 

  • Salzer, J. L., Williams, A. K., Glaser, L. &Bunge, R. P. (1980a) Studies on Schwann cell proliferation. II. Characterization of the stimulation and specificity of the response to a neurite membrane fraction.Journal of Cell Biology 84, 753–66.

    Google Scholar 

  • Salzer, J. L., Bunge, R. P. &Glaser, L. (1980b) Studies of Schwann cell proliferation. III. Evidence for the surface localization of the neurite mitogen.Journal of Cell Biology 84, 767–78.

    Google Scholar 

  • Schubert, T. &Friede, R. L. (1981) The role of endoneurial fibroblasts in myelin degeneration.Journal of Neuropathology and Experimental Neurology 40, 134–54.

    Google Scholar 

  • Smith, M. E. &Benjamins, J. A. (1984) Model systems for study of perturbations of myelin metabolism. InMyelin (edited byMorell, P.), pp. 441–87. New York: Plenum Press.

    Google Scholar 

  • Thomas, G. A. (1948) Quantitative histology of Wallerian degeneration. II. Nuclear populations in two nerves of different fibre spectrum.Journal of Anatomy 82, 135–45.

    Google Scholar 

  • Williams, P. L. &Hall, S. M. (1971a) Prolongedin vivo observations of normal peripheral nerve fibres and their acute reactions to crush and deliberate trauma,journal of Anatomy 108, 397–408.

    Google Scholar 

  • Williams, P. L. &Hall, S. M. (1971b) Chronic Wallerian degeneration — anin vivo and ultrastructural study.Journal of Anatomy 109, 487–503.

    Google Scholar 

  • Wood, P. M. &Bunge, R. P. (1975) Evidence that sensory axons are mitogenic for Schwann cells.Nature 75, 661–4.

    Google Scholar 

  • Yoshino, J. E., Dinneen, M. P., Lewis, B. L., Meador-Woodruff, J. H. &Devries, G. H. (1984) Differential proliferative responses of cultured Schwann cells to axolemma- and myelin-enriched fractions. I. Biochemical studies.Journal of Cell Biology 99, 2309–13.

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Department of Veterinary Clinical Medicine, University of Cambridge, Madingley Road, CB3 OES, Cambridge, UK

    A. J. Crang & W. F. Blakemore

Authors
  1. A. J. Crang
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. W. F. Blakemore
    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

Crang, A.J., Blakemore, W.F. Observations on wallerian degeneration in explant cultures of cat sciatic nerve. J Neurocytol 15, 471–482 (1986). https://doi.org/10.1007/BF01611730

Download citation

  • Received:

  • Revised:

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1007/BF01611730

Keywords

Search

Navigation